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CTCs predict overall survival in metastatic breast cancer
The CTC results are available about 4 weeks after start of therapy. Conventional imaging is carried out after about 3 months.
But an expert is not convinced that this approach is currently ready for clinical use and suggests that, for now, it should remain a tool for use in research.
The new meta-analysis, which involved data on more than 4000 patients, showed that the presence or the absence of CTCs “strongly” predicts overall survival (OS).
Median OS was greatest (47 months) for patients who had no CTCs at baseline and at follow-up. In contrast, the median OS was shortest (17.8 months) for patients who had CTCs at both time points.
The risk for death was more than 200% greater for patients in the latter group than in the former group.
The results “suggest the potential for clinical utility” of CTC monitoring as an early response marker in metastatic breast cancer, said lead author Wolfgang Janni, MD, PhD, of the Ulm University Hospital, Ulm, Germany. He was speaking at an online press conference for the virtual San Antonio Breast Cancer Symposium (SABCS) 2020, where the new study will be presented this week.
The investigators say the findings from this meta-analysis add to literature in which “several studies suggest clinical utility” of measuring CTC levels as a means of assessing response status for patients with metastatic breast cancer.
Unfortunately, the new study does not show that assessing CTCs over time improves clinical outcomes, which is an ongoing problem in the literature, said Virginia Kaklamani, MD, University of Texas Health Sciences Center, San Antonio, Texas, who is also a meeting co-director.
“Previous randomized clinical trial data have shown that assessing CTCs does not benefit patients (vs not assessing),” Kaklamani told Medscape Medical News.
Kaklamani explained how CTC assessments have worked in practice. “You do these circulating tumor cell tests and you find, for example, that the number increases. The assumption is the treatment’s not working. So you switch treatments around,” she explained. That pattern can be repeated every 3 to 4 weeks, resulting in more toxicity, which, in turn, may nullify any treatment benefit.
However, she noted that, so far, key data have come from the era of chemotherapy and do not reflect targeted therapies, which may make a difference. In addition, the more recent ability to assess and identify circulating tumor DNA may allow clinicians to match drugs to mutations, which may have greater impact on cancer outcomes.
Currently, CTCs are best used by researchers, Kaklamani said during the press conference, because they have not been definitively proven to improve patient results.
Investigator Janni did not object to that description.
But in a press statement, he suggested that CTCs can be used currently by clinicians.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” Janni said in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued.”
But, to Kaklamani’s point, an article published in November in JAMA Oncology showed that use of CTCs did not yield significant clinical benefit in comparison with use of other clinical factors in determining whether to choose endocrine therapy or chemotherapy. In that randomized trial, which was conducted in Europe and included women with HR-positive, HER2-negative breast cancer, progression-free survival was similar in both arms, as reported by Medscape Medical News. However, use of chemotherapy (and attendant toxicity) was greater among women in the CTC arm, which was considered an undesirable outcome by experts not involved with the trial.
Details of the study results
For their study, Janni and colleagues conducted a comprehensive pooled analysis of globally available data. They identified 4079 metastatic breast cancer patients who had undergone baseline and follow-up CTC measurements (at least one, at a median of 29 days later) in previous clinical trials.
The investigators analyzed changes in CTC levels between baseline and follow-up to determine whether they were associated with OS.
Of the 2961 patients who were CTC-positive at baseline, 1855 remained CTC-positive after treatment was initiated (positive/positive), and 1106 patients had converted to CTC-negative status (positive/negative).
Of the 1118 patients who were CTC-negative at baseline, 813 remained CTC-negative (negative/negative), and 305 had become CTC-positive (negative/positive).
As noted above, median OS was greatest for patients who were negative/negative (47 months), followed by patients who were positive/negative (32.2 months), negative/positive (29.6 months), and positive/positive (17.8 months).
Hazard ratios in which the reference group was negative/negative were 1.52 for the positive/negative group, 1.74 for the negative/positive group, and 3.15 for the positive/positive group (P < .0001 for all groups).
These CTC dynamics were found across all breast cancer subtypes, said Janni.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” said Janni in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued. It is also very reassuring that CTC dynamics predicted outcomes for all breast cancer subtypes.”
The study was supported by Menarini Silicon Biosystems, the makers of CellSearch, the CTC test used for all of the patients and studies in the meta-analysis. Janni received a research grant from Menarini Silicon Biosystems. Other study authors have financial ties to healthcare industries. Kaklamani has received consulting fees from Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and has contracted research with Eisai.
This article first appeared on Medscape.com.
The CTC results are available about 4 weeks after start of therapy. Conventional imaging is carried out after about 3 months.
But an expert is not convinced that this approach is currently ready for clinical use and suggests that, for now, it should remain a tool for use in research.
The new meta-analysis, which involved data on more than 4000 patients, showed that the presence or the absence of CTCs “strongly” predicts overall survival (OS).
Median OS was greatest (47 months) for patients who had no CTCs at baseline and at follow-up. In contrast, the median OS was shortest (17.8 months) for patients who had CTCs at both time points.
The risk for death was more than 200% greater for patients in the latter group than in the former group.
The results “suggest the potential for clinical utility” of CTC monitoring as an early response marker in metastatic breast cancer, said lead author Wolfgang Janni, MD, PhD, of the Ulm University Hospital, Ulm, Germany. He was speaking at an online press conference for the virtual San Antonio Breast Cancer Symposium (SABCS) 2020, where the new study will be presented this week.
The investigators say the findings from this meta-analysis add to literature in which “several studies suggest clinical utility” of measuring CTC levels as a means of assessing response status for patients with metastatic breast cancer.
Unfortunately, the new study does not show that assessing CTCs over time improves clinical outcomes, which is an ongoing problem in the literature, said Virginia Kaklamani, MD, University of Texas Health Sciences Center, San Antonio, Texas, who is also a meeting co-director.
“Previous randomized clinical trial data have shown that assessing CTCs does not benefit patients (vs not assessing),” Kaklamani told Medscape Medical News.
Kaklamani explained how CTC assessments have worked in practice. “You do these circulating tumor cell tests and you find, for example, that the number increases. The assumption is the treatment’s not working. So you switch treatments around,” she explained. That pattern can be repeated every 3 to 4 weeks, resulting in more toxicity, which, in turn, may nullify any treatment benefit.
However, she noted that, so far, key data have come from the era of chemotherapy and do not reflect targeted therapies, which may make a difference. In addition, the more recent ability to assess and identify circulating tumor DNA may allow clinicians to match drugs to mutations, which may have greater impact on cancer outcomes.
Currently, CTCs are best used by researchers, Kaklamani said during the press conference, because they have not been definitively proven to improve patient results.
Investigator Janni did not object to that description.
But in a press statement, he suggested that CTCs can be used currently by clinicians.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” Janni said in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued.”
But, to Kaklamani’s point, an article published in November in JAMA Oncology showed that use of CTCs did not yield significant clinical benefit in comparison with use of other clinical factors in determining whether to choose endocrine therapy or chemotherapy. In that randomized trial, which was conducted in Europe and included women with HR-positive, HER2-negative breast cancer, progression-free survival was similar in both arms, as reported by Medscape Medical News. However, use of chemotherapy (and attendant toxicity) was greater among women in the CTC arm, which was considered an undesirable outcome by experts not involved with the trial.
Details of the study results
For their study, Janni and colleagues conducted a comprehensive pooled analysis of globally available data. They identified 4079 metastatic breast cancer patients who had undergone baseline and follow-up CTC measurements (at least one, at a median of 29 days later) in previous clinical trials.
The investigators analyzed changes in CTC levels between baseline and follow-up to determine whether they were associated with OS.
Of the 2961 patients who were CTC-positive at baseline, 1855 remained CTC-positive after treatment was initiated (positive/positive), and 1106 patients had converted to CTC-negative status (positive/negative).
Of the 1118 patients who were CTC-negative at baseline, 813 remained CTC-negative (negative/negative), and 305 had become CTC-positive (negative/positive).
As noted above, median OS was greatest for patients who were negative/negative (47 months), followed by patients who were positive/negative (32.2 months), negative/positive (29.6 months), and positive/positive (17.8 months).
Hazard ratios in which the reference group was negative/negative were 1.52 for the positive/negative group, 1.74 for the negative/positive group, and 3.15 for the positive/positive group (P < .0001 for all groups).
These CTC dynamics were found across all breast cancer subtypes, said Janni.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” said Janni in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued. It is also very reassuring that CTC dynamics predicted outcomes for all breast cancer subtypes.”
The study was supported by Menarini Silicon Biosystems, the makers of CellSearch, the CTC test used for all of the patients and studies in the meta-analysis. Janni received a research grant from Menarini Silicon Biosystems. Other study authors have financial ties to healthcare industries. Kaklamani has received consulting fees from Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and has contracted research with Eisai.
This article first appeared on Medscape.com.
The CTC results are available about 4 weeks after start of therapy. Conventional imaging is carried out after about 3 months.
But an expert is not convinced that this approach is currently ready for clinical use and suggests that, for now, it should remain a tool for use in research.
The new meta-analysis, which involved data on more than 4000 patients, showed that the presence or the absence of CTCs “strongly” predicts overall survival (OS).
Median OS was greatest (47 months) for patients who had no CTCs at baseline and at follow-up. In contrast, the median OS was shortest (17.8 months) for patients who had CTCs at both time points.
The risk for death was more than 200% greater for patients in the latter group than in the former group.
The results “suggest the potential for clinical utility” of CTC monitoring as an early response marker in metastatic breast cancer, said lead author Wolfgang Janni, MD, PhD, of the Ulm University Hospital, Ulm, Germany. He was speaking at an online press conference for the virtual San Antonio Breast Cancer Symposium (SABCS) 2020, where the new study will be presented this week.
The investigators say the findings from this meta-analysis add to literature in which “several studies suggest clinical utility” of measuring CTC levels as a means of assessing response status for patients with metastatic breast cancer.
Unfortunately, the new study does not show that assessing CTCs over time improves clinical outcomes, which is an ongoing problem in the literature, said Virginia Kaklamani, MD, University of Texas Health Sciences Center, San Antonio, Texas, who is also a meeting co-director.
“Previous randomized clinical trial data have shown that assessing CTCs does not benefit patients (vs not assessing),” Kaklamani told Medscape Medical News.
Kaklamani explained how CTC assessments have worked in practice. “You do these circulating tumor cell tests and you find, for example, that the number increases. The assumption is the treatment’s not working. So you switch treatments around,” she explained. That pattern can be repeated every 3 to 4 weeks, resulting in more toxicity, which, in turn, may nullify any treatment benefit.
However, she noted that, so far, key data have come from the era of chemotherapy and do not reflect targeted therapies, which may make a difference. In addition, the more recent ability to assess and identify circulating tumor DNA may allow clinicians to match drugs to mutations, which may have greater impact on cancer outcomes.
Currently, CTCs are best used by researchers, Kaklamani said during the press conference, because they have not been definitively proven to improve patient results.
Investigator Janni did not object to that description.
But in a press statement, he suggested that CTCs can be used currently by clinicians.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” Janni said in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued.”
But, to Kaklamani’s point, an article published in November in JAMA Oncology showed that use of CTCs did not yield significant clinical benefit in comparison with use of other clinical factors in determining whether to choose endocrine therapy or chemotherapy. In that randomized trial, which was conducted in Europe and included women with HR-positive, HER2-negative breast cancer, progression-free survival was similar in both arms, as reported by Medscape Medical News. However, use of chemotherapy (and attendant toxicity) was greater among women in the CTC arm, which was considered an undesirable outcome by experts not involved with the trial.
Details of the study results
For their study, Janni and colleagues conducted a comprehensive pooled analysis of globally available data. They identified 4079 metastatic breast cancer patients who had undergone baseline and follow-up CTC measurements (at least one, at a median of 29 days later) in previous clinical trials.
The investigators analyzed changes in CTC levels between baseline and follow-up to determine whether they were associated with OS.
Of the 2961 patients who were CTC-positive at baseline, 1855 remained CTC-positive after treatment was initiated (positive/positive), and 1106 patients had converted to CTC-negative status (positive/negative).
Of the 1118 patients who were CTC-negative at baseline, 813 remained CTC-negative (negative/negative), and 305 had become CTC-positive (negative/positive).
As noted above, median OS was greatest for patients who were negative/negative (47 months), followed by patients who were positive/negative (32.2 months), negative/positive (29.6 months), and positive/positive (17.8 months).
Hazard ratios in which the reference group was negative/negative were 1.52 for the positive/negative group, 1.74 for the negative/positive group, and 3.15 for the positive/positive group (P < .0001 for all groups).
These CTC dynamics were found across all breast cancer subtypes, said Janni.
“These data indicate that CTC dynamics can predict the trajectory of the disease a little more than four weeks after initiating treatment,” said Janni in the press statement. “This provides an advantage over conventional imaging methods and can help physicians determine very early on whether a treatment should be continued. It is also very reassuring that CTC dynamics predicted outcomes for all breast cancer subtypes.”
The study was supported by Menarini Silicon Biosystems, the makers of CellSearch, the CTC test used for all of the patients and studies in the meta-analysis. Janni received a research grant from Menarini Silicon Biosystems. Other study authors have financial ties to healthcare industries. Kaklamani has received consulting fees from Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and has contracted research with Eisai.
This article first appeared on Medscape.com.
FROM SABCS 2020
Air pollution linked to brain amyloid pathology
Higher levels of air pollution were associated with an increased risk for amyloid-beta pathology in a new study of older adults with cognitive impairment. “Many studies have now found a link between air pollution and clinical outcomes of dementia or cognitive decline,” said lead author Leonardo Iaccarino, PhD, Weill Institute for Neurosciences, University of California, San Francisco. “But this study is now showing a clear link between air pollution and a biomarker of Alzheimer’s disease: It shows a relationship between bad air quality and pathology in the brain.
“We believe that exposure to air pollution should be considered as one factor in the lifetime risk of developing Alzheimer’s disease,” he added. “We believe it is a significant determinant. Our results suggest that, if we can reduce occupational and residential exposure to air pollution, then this could help reduce the risk of Alzheimer’s disease.”
The study was published online Nov. 30 in JAMA Neurology.
A modifiable risk factor
Dr. Iaccarino explained that it is well known that air pollution is linked to poor health outcomes. “As well as cardiovascular and respiratory disease, there is also growing interest in the relationship between air pollution and brain health,” he said. “The link is becoming more and more convincing, with evidence from laboratory, animal, and human studies suggesting that individuals exposed to poor air quality have an increased risk of cognitive decline and dementia.”
In addition, this year, the Lancet Commission included air pollution in its updated list of modifiable risk factors for dementia.
For the current study, the researchers analyzed data from the Imaging Dementia–Evidence for Amyloid Scanning (IDEAS) Study, which included more than 18,000 U.S. participants with cognitive impairment who received an amyloid positron-emission tomography scan between 2016 and 2018.
The investigators used data from the IDEAS study to assess the relationship between the air quality at the place of residence of each patient and the likelihood of a positive amyloid PET result. Public records from the U.S. Environmental Protection Agency were used to estimate air quality in individual ZIP-code areas during two periods – 2002-2003 (approximately 14 years before the amyloid PET scan) and 2015-2016 (approximately 1 year before the amyloid PET scan).
Results showed that those living in an area with increased air pollution, as determined using concentrations of predicted fine particulate matter (PM2.5), had a higher probability of a positive amyloid PET scan. This association was dose dependent and statistically significant after adjusting for demographic, lifestyle, and socioeconomic factors as well as medical comorbidities. The association was seen in both periods; the adjusted odds ratio was 1.10 in 2002-2003 and 1.15 in 2015-2016.
“This shows about a 10% increased probability of a positive amyloid test for individuals living in the worst polluted areas, compared with those in the least polluted areas,” Dr. Iaccarino explained.
Every unit increase in PM2.5 in 2002-2003 was associated with an increased probability of positive amyloid findings on PET of 0.5%. Every unit increase in PM2.5 in for the 2015-2016 period was associated with an increased probability of positive amyloid findings on PET of 0.8%.
“This was a very large cohort study, and we adjusted for multiple other factors, so these are pretty robust findings,” Dr. Iaccarino said.
Exposure to higher ozone concentrations was not associated with amyloid positivity on PET scans in either time window.
“These findings suggest that brain amyloid-beta accumulation could be one of the biological pathways in the increased incidence of dementia and cognitive decline associated with exposure to air pollution,” the researchers stated.
A public health concern
“Adverse effects of airborne toxic pollutants associated with amyloid-beta pathology should be considered in public health policy decisions and should inform individual lifetime risk of developing Alzheimer’s disease and dementia,” they concluded.
Dr. Iaccarino noted that, although governments need to take primary action in reducing air pollution, individuals can make some changes to reduce their exposure to poor-quality air.
“Such changes could include not going out or using masks when pollution levels are very high (as happened recently in California with the wildfires) and avoiding areas where the air quality is known to be bad. In addition, there are activities which increase indoor air pollution which can be changed, such as certain types of cooking, cigarette smoking, use of coal fires,” he commented.
“Based on our findings, it would be reasonable to take action on these things, especially for individuals at higher risk of cardiovascular and respiratory disease or Alzheimer’s,” he added.
On a more optimistic note, Dr. Iaccarino pointed out that air quality in the United States has improved significantly in recent years. Meaningful improvements were found between the two periods in this analysis study (2002-2016), “so we are going in the right direction.”
The IDEAS Study was funded by the Alzheimer’s Association, the American College of Radiology, Avid Radiopharmaceuticals, GE Healthcare, and Life Molecular Imaging. Dr. Iaccarino has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Higher levels of air pollution were associated with an increased risk for amyloid-beta pathology in a new study of older adults with cognitive impairment. “Many studies have now found a link between air pollution and clinical outcomes of dementia or cognitive decline,” said lead author Leonardo Iaccarino, PhD, Weill Institute for Neurosciences, University of California, San Francisco. “But this study is now showing a clear link between air pollution and a biomarker of Alzheimer’s disease: It shows a relationship between bad air quality and pathology in the brain.
“We believe that exposure to air pollution should be considered as one factor in the lifetime risk of developing Alzheimer’s disease,” he added. “We believe it is a significant determinant. Our results suggest that, if we can reduce occupational and residential exposure to air pollution, then this could help reduce the risk of Alzheimer’s disease.”
The study was published online Nov. 30 in JAMA Neurology.
A modifiable risk factor
Dr. Iaccarino explained that it is well known that air pollution is linked to poor health outcomes. “As well as cardiovascular and respiratory disease, there is also growing interest in the relationship between air pollution and brain health,” he said. “The link is becoming more and more convincing, with evidence from laboratory, animal, and human studies suggesting that individuals exposed to poor air quality have an increased risk of cognitive decline and dementia.”
In addition, this year, the Lancet Commission included air pollution in its updated list of modifiable risk factors for dementia.
For the current study, the researchers analyzed data from the Imaging Dementia–Evidence for Amyloid Scanning (IDEAS) Study, which included more than 18,000 U.S. participants with cognitive impairment who received an amyloid positron-emission tomography scan between 2016 and 2018.
The investigators used data from the IDEAS study to assess the relationship between the air quality at the place of residence of each patient and the likelihood of a positive amyloid PET result. Public records from the U.S. Environmental Protection Agency were used to estimate air quality in individual ZIP-code areas during two periods – 2002-2003 (approximately 14 years before the amyloid PET scan) and 2015-2016 (approximately 1 year before the amyloid PET scan).
Results showed that those living in an area with increased air pollution, as determined using concentrations of predicted fine particulate matter (PM2.5), had a higher probability of a positive amyloid PET scan. This association was dose dependent and statistically significant after adjusting for demographic, lifestyle, and socioeconomic factors as well as medical comorbidities. The association was seen in both periods; the adjusted odds ratio was 1.10 in 2002-2003 and 1.15 in 2015-2016.
“This shows about a 10% increased probability of a positive amyloid test for individuals living in the worst polluted areas, compared with those in the least polluted areas,” Dr. Iaccarino explained.
Every unit increase in PM2.5 in 2002-2003 was associated with an increased probability of positive amyloid findings on PET of 0.5%. Every unit increase in PM2.5 in for the 2015-2016 period was associated with an increased probability of positive amyloid findings on PET of 0.8%.
“This was a very large cohort study, and we adjusted for multiple other factors, so these are pretty robust findings,” Dr. Iaccarino said.
Exposure to higher ozone concentrations was not associated with amyloid positivity on PET scans in either time window.
“These findings suggest that brain amyloid-beta accumulation could be one of the biological pathways in the increased incidence of dementia and cognitive decline associated with exposure to air pollution,” the researchers stated.
A public health concern
“Adverse effects of airborne toxic pollutants associated with amyloid-beta pathology should be considered in public health policy decisions and should inform individual lifetime risk of developing Alzheimer’s disease and dementia,” they concluded.
Dr. Iaccarino noted that, although governments need to take primary action in reducing air pollution, individuals can make some changes to reduce their exposure to poor-quality air.
“Such changes could include not going out or using masks when pollution levels are very high (as happened recently in California with the wildfires) and avoiding areas where the air quality is known to be bad. In addition, there are activities which increase indoor air pollution which can be changed, such as certain types of cooking, cigarette smoking, use of coal fires,” he commented.
“Based on our findings, it would be reasonable to take action on these things, especially for individuals at higher risk of cardiovascular and respiratory disease or Alzheimer’s,” he added.
On a more optimistic note, Dr. Iaccarino pointed out that air quality in the United States has improved significantly in recent years. Meaningful improvements were found between the two periods in this analysis study (2002-2016), “so we are going in the right direction.”
The IDEAS Study was funded by the Alzheimer’s Association, the American College of Radiology, Avid Radiopharmaceuticals, GE Healthcare, and Life Molecular Imaging. Dr. Iaccarino has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
Higher levels of air pollution were associated with an increased risk for amyloid-beta pathology in a new study of older adults with cognitive impairment. “Many studies have now found a link between air pollution and clinical outcomes of dementia or cognitive decline,” said lead author Leonardo Iaccarino, PhD, Weill Institute for Neurosciences, University of California, San Francisco. “But this study is now showing a clear link between air pollution and a biomarker of Alzheimer’s disease: It shows a relationship between bad air quality and pathology in the brain.
“We believe that exposure to air pollution should be considered as one factor in the lifetime risk of developing Alzheimer’s disease,” he added. “We believe it is a significant determinant. Our results suggest that, if we can reduce occupational and residential exposure to air pollution, then this could help reduce the risk of Alzheimer’s disease.”
The study was published online Nov. 30 in JAMA Neurology.
A modifiable risk factor
Dr. Iaccarino explained that it is well known that air pollution is linked to poor health outcomes. “As well as cardiovascular and respiratory disease, there is also growing interest in the relationship between air pollution and brain health,” he said. “The link is becoming more and more convincing, with evidence from laboratory, animal, and human studies suggesting that individuals exposed to poor air quality have an increased risk of cognitive decline and dementia.”
In addition, this year, the Lancet Commission included air pollution in its updated list of modifiable risk factors for dementia.
For the current study, the researchers analyzed data from the Imaging Dementia–Evidence for Amyloid Scanning (IDEAS) Study, which included more than 18,000 U.S. participants with cognitive impairment who received an amyloid positron-emission tomography scan between 2016 and 2018.
The investigators used data from the IDEAS study to assess the relationship between the air quality at the place of residence of each patient and the likelihood of a positive amyloid PET result. Public records from the U.S. Environmental Protection Agency were used to estimate air quality in individual ZIP-code areas during two periods – 2002-2003 (approximately 14 years before the amyloid PET scan) and 2015-2016 (approximately 1 year before the amyloid PET scan).
Results showed that those living in an area with increased air pollution, as determined using concentrations of predicted fine particulate matter (PM2.5), had a higher probability of a positive amyloid PET scan. This association was dose dependent and statistically significant after adjusting for demographic, lifestyle, and socioeconomic factors as well as medical comorbidities. The association was seen in both periods; the adjusted odds ratio was 1.10 in 2002-2003 and 1.15 in 2015-2016.
“This shows about a 10% increased probability of a positive amyloid test for individuals living in the worst polluted areas, compared with those in the least polluted areas,” Dr. Iaccarino explained.
Every unit increase in PM2.5 in 2002-2003 was associated with an increased probability of positive amyloid findings on PET of 0.5%. Every unit increase in PM2.5 in for the 2015-2016 period was associated with an increased probability of positive amyloid findings on PET of 0.8%.
“This was a very large cohort study, and we adjusted for multiple other factors, so these are pretty robust findings,” Dr. Iaccarino said.
Exposure to higher ozone concentrations was not associated with amyloid positivity on PET scans in either time window.
“These findings suggest that brain amyloid-beta accumulation could be one of the biological pathways in the increased incidence of dementia and cognitive decline associated with exposure to air pollution,” the researchers stated.
A public health concern
“Adverse effects of airborne toxic pollutants associated with amyloid-beta pathology should be considered in public health policy decisions and should inform individual lifetime risk of developing Alzheimer’s disease and dementia,” they concluded.
Dr. Iaccarino noted that, although governments need to take primary action in reducing air pollution, individuals can make some changes to reduce their exposure to poor-quality air.
“Such changes could include not going out or using masks when pollution levels are very high (as happened recently in California with the wildfires) and avoiding areas where the air quality is known to be bad. In addition, there are activities which increase indoor air pollution which can be changed, such as certain types of cooking, cigarette smoking, use of coal fires,” he commented.
“Based on our findings, it would be reasonable to take action on these things, especially for individuals at higher risk of cardiovascular and respiratory disease or Alzheimer’s,” he added.
On a more optimistic note, Dr. Iaccarino pointed out that air quality in the United States has improved significantly in recent years. Meaningful improvements were found between the two periods in this analysis study (2002-2016), “so we are going in the right direction.”
The IDEAS Study was funded by the Alzheimer’s Association, the American College of Radiology, Avid Radiopharmaceuticals, GE Healthcare, and Life Molecular Imaging. Dr. Iaccarino has disclosed no relevant financial relationships.
A version of this article originally appeared on Medscape.com.
FROM JAMA NEUROLOGY
Oral steroids benefit patients with cluster headache
Adjunctive oral prednisone appears to significantly reduce cluster headache attacks, new research shows. Results of the multicenter, randomized, double-blind trial show that patients who received the steroid had 25% fewer attacks in the first week of therapy, compared with their counterparts who received placebo.
In addition, more than a third of patients in the prednisone group were pain free, and for almost half, headache frequency was reduced by at least 50% at day 7 of treatment.
These findings provide clear evidence that prednisone, in conjunction with the use of verapamil, is effective in cluster headache, said lead author Mark Obermann, MD, director, Center for Neurology, Asklepios Hospitals Seesen (Germany), and associate professor, University of Duisburg-Essen (Germany).
The key message, he added, is that all patients with cluster headache should receive prednisone at the start of an episode.
The study was published online Nov. 24 in the Lancet Neurology.
‘Suicide headaches’
Cluster headaches are intense unilateral attacks of facial and head pain. They last 15-180 minutes and predominantly affect men. They are accompanied by trigeminal autonomic symptoms and are extremely painful. “They’re referred to as ‘suicide headaches’ because the pain is so severe that patients often report they think about killing themselves to get rid of the pain,” said Dr. Obermann.
The cause is unclear, although there is some evidence that the hypothalamus is involved. The headaches sometimes follow a “strict circadian pattern,” said Dr. Obermann. He noted that the attacks might occur over a few weeks or months and then not return for months or even years.
An estimated 1 in 1,000 people experience cluster headache, but the condition is underrecognized, and research is scarce and poorly funded. Previous research does show that the calcium channel blocker verapamil, which is used to treat high blood pressure, is effective in cluster headache. However, it takes about 14 days to work and has to be slowly titrated because of cardiac side effects, said Dr. Obermann. For these reasons, international guidelines recommend initiating short-term preventive treatment with corticosteroids to suppress, or at least lessen, cluster headache attacks until long-term prevention is effective.
Although some clinicians treat cluster headaches with corticosteroids, others don’t because of a lack of evidence that shows they are effective. “There’s no evidence whatsoever on what the correct dose is or whether it helps at all. This is the gap we wanted to close,” said Dr. Obermann.
The study included 116 adult patients with cluster headache from 10 centers who were experiencing a cluster headache episode and were not taking prophylactic medication.
The trial only included patients who had an attack within 30 days of their current episode. The investigators included this restriction to reduce the possibility of spontaneous remission, which is “a big problem” in cluster headache trials, he said. To confirm that episodes were cluster headache attacks, patients were also required to have moderate to severe pain, indicated by a score of at least 5 on a numerical rating scale in which 0 indicates no pain and 10 indicates the worse imaginable pain.
Participants were allowed to use treatments for acute attack, but these therapies were limited to triptans, high-flow oxygen, intranasal lidocaine, ergotamine, and oral analgesics.
Debilitating pain
Patients were randomly assigned to receive oral prednisone (n = 53) or placebo (n = 56). The study groups were matched with respect to demographic and clinical characteristics. Prednisone was initiated at 100 mg/d for 5 days and was then tapered by 20 mg every 3 days in the active-treatment group. All patients also received oral verapamil at a starting dose of 40 mg three times per day. The dose was increased every 3 days by 40 mg to a maximum of 360 mg/d.
All participants received pantoprazole 20 mg to prevent the gastric side effects of prednisone. An attack was defined as a unilateral headache of moderate to severe intensity. The study lasted 28 days.
The study’s primary outcome was the mean number of cluster headache attacks during the first week of treatment with prednisone versus placebo.
The mean number of attacks during the first week of treatment was 7.1 in the prednisone group and 9.5 in the placebo group, for a difference of –2.4 attacks (95% confidence interval, –4.8 to –0.03; P = .002). “This might not sound like much,” but reducing the number of daily attacks from, say, eight to six “really makes a difference because the attacks are so painful,” said Dr. Obermann.
The prednisone group also came out on top for a number secondary outcomes. After the first 7 days, attacks ceased in 35% of the prednisone group versus 7% in the placebo group.
‘Clear evidence’ of efficacy
About 49% of patients who took prednisone reported a reduction of at least 50% in attack frequency at day 7. By comparison, 15% of patients who received placebo reported such a reduction. The number of cluster attacks at day 28 was less in the prednisone group than in the patients who received placebo.
With respect to treatment effect, the difference between prednisone and placebo gradually lessened over time “in parallel to the verapamil dose reaching its therapeutic effect,” the investigators noted. “Therefore, attack frequency reduction slowly converged between groups,” they added.
The study results provide “clear evidence” and should reassure clinicians that short-term prednisone early in a cluster headache attack is effective, said Dr. Obermann.
Adverse events, which included headache, palpitations, dizziness, and nausea, were as expected and were similar in the two groups. There were only two severe adverse events, both of which occurred in participants in the placebo group.
Dr. Obermann said the investigators were surprised that so many patients in the study were taking analgesics. “Analgesics don’t work in cluster headache; they just don’t work in this kind of pain.”
He noted that prednisone exposure of study patients spanned only 19 days and amounted to only 1,100 mg, which he believes is safe.
The prednisone dose used in the study is “what most clinicians use in clinical practice,” although there have been reports of success using 500 mg of IV prednisone over 5 days, said Dr. Obermann. He added that it would be “interesting to see if 50 mg would be just as good” as a starting dose.
Potential limitations of the study include the fact that the majority of participants were White, so the findings may not be generalizable to other populations.
Long-awaited results
In an accompanying editorial, Anne Ducros, MD, PhD, professor of neurology and director of the Headache Center, Montpellier (France) University Hospital, said the study provides “strong and long-awaited evidence supporting the use of oral steroids as a transitional treatment option.”
The trial “raises many topics for future research,” one of which is the long-term safety of prednisone for patients with cluster headache, said Dr. Ducros. She noted that use of high-dose steroids once or twice a year for 15 years or more “has the potential for severe systemic toxic effects,” such as corticosteroid-induced osteonecrosis of the femoral head.
Other questions about corticosteroid use for patients with cluster headache remain. These include understanding whether these agents provide better efficacy than occipital nerve injections and determining the optimal verapamil regimen, she noted.
In addition, the risk for oral steroid misuse needs to be studied, she said. She noted that drug misuse is common among patients with cluster headache.
Despite these questions, the results of this new study “provide an important step forward for patients with cluster headache, for whom safe and effective transitional therapies are much needed,” Dr. Ducros wrote.
Dr. Obermann has received fees from Sanofi, Biogen, Novartis, Teva Pharmaceuticals, and Eli Lilly and grants from Allergan and Heel Pharmaceuticals outside of this work. Dr. Ducros has received fees from Amgen, Novartis, Teva, and Eli Lilly; grants from the Programme Hospitalier de Recherche Clinique and from the Appel d’Offre Interne of Montpellier University Hospital; and nonfinancial support from SOS Oxygene.
A version of this article originally appeared on Medscape.com.
Adjunctive oral prednisone appears to significantly reduce cluster headache attacks, new research shows. Results of the multicenter, randomized, double-blind trial show that patients who received the steroid had 25% fewer attacks in the first week of therapy, compared with their counterparts who received placebo.
In addition, more than a third of patients in the prednisone group were pain free, and for almost half, headache frequency was reduced by at least 50% at day 7 of treatment.
These findings provide clear evidence that prednisone, in conjunction with the use of verapamil, is effective in cluster headache, said lead author Mark Obermann, MD, director, Center for Neurology, Asklepios Hospitals Seesen (Germany), and associate professor, University of Duisburg-Essen (Germany).
The key message, he added, is that all patients with cluster headache should receive prednisone at the start of an episode.
The study was published online Nov. 24 in the Lancet Neurology.
‘Suicide headaches’
Cluster headaches are intense unilateral attacks of facial and head pain. They last 15-180 minutes and predominantly affect men. They are accompanied by trigeminal autonomic symptoms and are extremely painful. “They’re referred to as ‘suicide headaches’ because the pain is so severe that patients often report they think about killing themselves to get rid of the pain,” said Dr. Obermann.
The cause is unclear, although there is some evidence that the hypothalamus is involved. The headaches sometimes follow a “strict circadian pattern,” said Dr. Obermann. He noted that the attacks might occur over a few weeks or months and then not return for months or even years.
An estimated 1 in 1,000 people experience cluster headache, but the condition is underrecognized, and research is scarce and poorly funded. Previous research does show that the calcium channel blocker verapamil, which is used to treat high blood pressure, is effective in cluster headache. However, it takes about 14 days to work and has to be slowly titrated because of cardiac side effects, said Dr. Obermann. For these reasons, international guidelines recommend initiating short-term preventive treatment with corticosteroids to suppress, or at least lessen, cluster headache attacks until long-term prevention is effective.
Although some clinicians treat cluster headaches with corticosteroids, others don’t because of a lack of evidence that shows they are effective. “There’s no evidence whatsoever on what the correct dose is or whether it helps at all. This is the gap we wanted to close,” said Dr. Obermann.
The study included 116 adult patients with cluster headache from 10 centers who were experiencing a cluster headache episode and were not taking prophylactic medication.
The trial only included patients who had an attack within 30 days of their current episode. The investigators included this restriction to reduce the possibility of spontaneous remission, which is “a big problem” in cluster headache trials, he said. To confirm that episodes were cluster headache attacks, patients were also required to have moderate to severe pain, indicated by a score of at least 5 on a numerical rating scale in which 0 indicates no pain and 10 indicates the worse imaginable pain.
Participants were allowed to use treatments for acute attack, but these therapies were limited to triptans, high-flow oxygen, intranasal lidocaine, ergotamine, and oral analgesics.
Debilitating pain
Patients were randomly assigned to receive oral prednisone (n = 53) or placebo (n = 56). The study groups were matched with respect to demographic and clinical characteristics. Prednisone was initiated at 100 mg/d for 5 days and was then tapered by 20 mg every 3 days in the active-treatment group. All patients also received oral verapamil at a starting dose of 40 mg three times per day. The dose was increased every 3 days by 40 mg to a maximum of 360 mg/d.
All participants received pantoprazole 20 mg to prevent the gastric side effects of prednisone. An attack was defined as a unilateral headache of moderate to severe intensity. The study lasted 28 days.
The study’s primary outcome was the mean number of cluster headache attacks during the first week of treatment with prednisone versus placebo.
The mean number of attacks during the first week of treatment was 7.1 in the prednisone group and 9.5 in the placebo group, for a difference of –2.4 attacks (95% confidence interval, –4.8 to –0.03; P = .002). “This might not sound like much,” but reducing the number of daily attacks from, say, eight to six “really makes a difference because the attacks are so painful,” said Dr. Obermann.
The prednisone group also came out on top for a number secondary outcomes. After the first 7 days, attacks ceased in 35% of the prednisone group versus 7% in the placebo group.
‘Clear evidence’ of efficacy
About 49% of patients who took prednisone reported a reduction of at least 50% in attack frequency at day 7. By comparison, 15% of patients who received placebo reported such a reduction. The number of cluster attacks at day 28 was less in the prednisone group than in the patients who received placebo.
With respect to treatment effect, the difference between prednisone and placebo gradually lessened over time “in parallel to the verapamil dose reaching its therapeutic effect,” the investigators noted. “Therefore, attack frequency reduction slowly converged between groups,” they added.
The study results provide “clear evidence” and should reassure clinicians that short-term prednisone early in a cluster headache attack is effective, said Dr. Obermann.
Adverse events, which included headache, palpitations, dizziness, and nausea, were as expected and were similar in the two groups. There were only two severe adverse events, both of which occurred in participants in the placebo group.
Dr. Obermann said the investigators were surprised that so many patients in the study were taking analgesics. “Analgesics don’t work in cluster headache; they just don’t work in this kind of pain.”
He noted that prednisone exposure of study patients spanned only 19 days and amounted to only 1,100 mg, which he believes is safe.
The prednisone dose used in the study is “what most clinicians use in clinical practice,” although there have been reports of success using 500 mg of IV prednisone over 5 days, said Dr. Obermann. He added that it would be “interesting to see if 50 mg would be just as good” as a starting dose.
Potential limitations of the study include the fact that the majority of participants were White, so the findings may not be generalizable to other populations.
Long-awaited results
In an accompanying editorial, Anne Ducros, MD, PhD, professor of neurology and director of the Headache Center, Montpellier (France) University Hospital, said the study provides “strong and long-awaited evidence supporting the use of oral steroids as a transitional treatment option.”
The trial “raises many topics for future research,” one of which is the long-term safety of prednisone for patients with cluster headache, said Dr. Ducros. She noted that use of high-dose steroids once or twice a year for 15 years or more “has the potential for severe systemic toxic effects,” such as corticosteroid-induced osteonecrosis of the femoral head.
Other questions about corticosteroid use for patients with cluster headache remain. These include understanding whether these agents provide better efficacy than occipital nerve injections and determining the optimal verapamil regimen, she noted.
In addition, the risk for oral steroid misuse needs to be studied, she said. She noted that drug misuse is common among patients with cluster headache.
Despite these questions, the results of this new study “provide an important step forward for patients with cluster headache, for whom safe and effective transitional therapies are much needed,” Dr. Ducros wrote.
Dr. Obermann has received fees from Sanofi, Biogen, Novartis, Teva Pharmaceuticals, and Eli Lilly and grants from Allergan and Heel Pharmaceuticals outside of this work. Dr. Ducros has received fees from Amgen, Novartis, Teva, and Eli Lilly; grants from the Programme Hospitalier de Recherche Clinique and from the Appel d’Offre Interne of Montpellier University Hospital; and nonfinancial support from SOS Oxygene.
A version of this article originally appeared on Medscape.com.
Adjunctive oral prednisone appears to significantly reduce cluster headache attacks, new research shows. Results of the multicenter, randomized, double-blind trial show that patients who received the steroid had 25% fewer attacks in the first week of therapy, compared with their counterparts who received placebo.
In addition, more than a third of patients in the prednisone group were pain free, and for almost half, headache frequency was reduced by at least 50% at day 7 of treatment.
These findings provide clear evidence that prednisone, in conjunction with the use of verapamil, is effective in cluster headache, said lead author Mark Obermann, MD, director, Center for Neurology, Asklepios Hospitals Seesen (Germany), and associate professor, University of Duisburg-Essen (Germany).
The key message, he added, is that all patients with cluster headache should receive prednisone at the start of an episode.
The study was published online Nov. 24 in the Lancet Neurology.
‘Suicide headaches’
Cluster headaches are intense unilateral attacks of facial and head pain. They last 15-180 minutes and predominantly affect men. They are accompanied by trigeminal autonomic symptoms and are extremely painful. “They’re referred to as ‘suicide headaches’ because the pain is so severe that patients often report they think about killing themselves to get rid of the pain,” said Dr. Obermann.
The cause is unclear, although there is some evidence that the hypothalamus is involved. The headaches sometimes follow a “strict circadian pattern,” said Dr. Obermann. He noted that the attacks might occur over a few weeks or months and then not return for months or even years.
An estimated 1 in 1,000 people experience cluster headache, but the condition is underrecognized, and research is scarce and poorly funded. Previous research does show that the calcium channel blocker verapamil, which is used to treat high blood pressure, is effective in cluster headache. However, it takes about 14 days to work and has to be slowly titrated because of cardiac side effects, said Dr. Obermann. For these reasons, international guidelines recommend initiating short-term preventive treatment with corticosteroids to suppress, or at least lessen, cluster headache attacks until long-term prevention is effective.
Although some clinicians treat cluster headaches with corticosteroids, others don’t because of a lack of evidence that shows they are effective. “There’s no evidence whatsoever on what the correct dose is or whether it helps at all. This is the gap we wanted to close,” said Dr. Obermann.
The study included 116 adult patients with cluster headache from 10 centers who were experiencing a cluster headache episode and were not taking prophylactic medication.
The trial only included patients who had an attack within 30 days of their current episode. The investigators included this restriction to reduce the possibility of spontaneous remission, which is “a big problem” in cluster headache trials, he said. To confirm that episodes were cluster headache attacks, patients were also required to have moderate to severe pain, indicated by a score of at least 5 on a numerical rating scale in which 0 indicates no pain and 10 indicates the worse imaginable pain.
Participants were allowed to use treatments for acute attack, but these therapies were limited to triptans, high-flow oxygen, intranasal lidocaine, ergotamine, and oral analgesics.
Debilitating pain
Patients were randomly assigned to receive oral prednisone (n = 53) or placebo (n = 56). The study groups were matched with respect to demographic and clinical characteristics. Prednisone was initiated at 100 mg/d for 5 days and was then tapered by 20 mg every 3 days in the active-treatment group. All patients also received oral verapamil at a starting dose of 40 mg three times per day. The dose was increased every 3 days by 40 mg to a maximum of 360 mg/d.
All participants received pantoprazole 20 mg to prevent the gastric side effects of prednisone. An attack was defined as a unilateral headache of moderate to severe intensity. The study lasted 28 days.
The study’s primary outcome was the mean number of cluster headache attacks during the first week of treatment with prednisone versus placebo.
The mean number of attacks during the first week of treatment was 7.1 in the prednisone group and 9.5 in the placebo group, for a difference of –2.4 attacks (95% confidence interval, –4.8 to –0.03; P = .002). “This might not sound like much,” but reducing the number of daily attacks from, say, eight to six “really makes a difference because the attacks are so painful,” said Dr. Obermann.
The prednisone group also came out on top for a number secondary outcomes. After the first 7 days, attacks ceased in 35% of the prednisone group versus 7% in the placebo group.
‘Clear evidence’ of efficacy
About 49% of patients who took prednisone reported a reduction of at least 50% in attack frequency at day 7. By comparison, 15% of patients who received placebo reported such a reduction. The number of cluster attacks at day 28 was less in the prednisone group than in the patients who received placebo.
With respect to treatment effect, the difference between prednisone and placebo gradually lessened over time “in parallel to the verapamil dose reaching its therapeutic effect,” the investigators noted. “Therefore, attack frequency reduction slowly converged between groups,” they added.
The study results provide “clear evidence” and should reassure clinicians that short-term prednisone early in a cluster headache attack is effective, said Dr. Obermann.
Adverse events, which included headache, palpitations, dizziness, and nausea, were as expected and were similar in the two groups. There were only two severe adverse events, both of which occurred in participants in the placebo group.
Dr. Obermann said the investigators were surprised that so many patients in the study were taking analgesics. “Analgesics don’t work in cluster headache; they just don’t work in this kind of pain.”
He noted that prednisone exposure of study patients spanned only 19 days and amounted to only 1,100 mg, which he believes is safe.
The prednisone dose used in the study is “what most clinicians use in clinical practice,” although there have been reports of success using 500 mg of IV prednisone over 5 days, said Dr. Obermann. He added that it would be “interesting to see if 50 mg would be just as good” as a starting dose.
Potential limitations of the study include the fact that the majority of participants were White, so the findings may not be generalizable to other populations.
Long-awaited results
In an accompanying editorial, Anne Ducros, MD, PhD, professor of neurology and director of the Headache Center, Montpellier (France) University Hospital, said the study provides “strong and long-awaited evidence supporting the use of oral steroids as a transitional treatment option.”
The trial “raises many topics for future research,” one of which is the long-term safety of prednisone for patients with cluster headache, said Dr. Ducros. She noted that use of high-dose steroids once or twice a year for 15 years or more “has the potential for severe systemic toxic effects,” such as corticosteroid-induced osteonecrosis of the femoral head.
Other questions about corticosteroid use for patients with cluster headache remain. These include understanding whether these agents provide better efficacy than occipital nerve injections and determining the optimal verapamil regimen, she noted.
In addition, the risk for oral steroid misuse needs to be studied, she said. She noted that drug misuse is common among patients with cluster headache.
Despite these questions, the results of this new study “provide an important step forward for patients with cluster headache, for whom safe and effective transitional therapies are much needed,” Dr. Ducros wrote.
Dr. Obermann has received fees from Sanofi, Biogen, Novartis, Teva Pharmaceuticals, and Eli Lilly and grants from Allergan and Heel Pharmaceuticals outside of this work. Dr. Ducros has received fees from Amgen, Novartis, Teva, and Eli Lilly; grants from the Programme Hospitalier de Recherche Clinique and from the Appel d’Offre Interne of Montpellier University Hospital; and nonfinancial support from SOS Oxygene.
A version of this article originally appeared on Medscape.com.
NHS England starts pilot trial of blood test for many cancers
“Early detection, particularly for hard-to-treat conditions like ovarian and pancreatic cancer, has the potential to save many lives,” said NHS Chief Executive Sir Simon Stevens in a statement.
The pilot trial will use the Galleri blood test, developed by Grail. Sir Stevens described the blood test as “promising” and said it could “be a game changer in cancer care, helping thousands more people to get successful treatment.”
However, some clinicians have expressed concerns over the potential for false-positive results with the test.
Results of a study of the Galleri blood test, published earlier this year, showed that the test detected 50 types of cancer with a specificity of 99.3% and a false positive rate of 0.7%.
It also correctly identified the originating tissue in 90% of cases. However, the sensitivity was lower, at 67%, for the 12 most common cancers, as reported at the time.
The senior author of that study, Michael Seiden, MD, PhD, president of the U.S. Oncology Network, The Woodlands, Tex., noted that it was not a screening study: the test had been used in patients with cancer and in healthy volunteers. He said the test “is intended to be complementary to, and not replace, existing guideline-recommended screening tests and might provide new avenues of investigation for cancers that don’t currently have screening tests.”
The Galleri test uses next-generation sequencing to analyze the arrangement of methyl groups on circulating cell-free DNA in a blood sample.
Several other blood tests for cancer are under development, including the CancerSEEK test, which has been reported to be able to identify eight common cancers. It measures circulating tumor DNA from 16 genes and eight protein biomarkers and then uses machine learning to analyze the data.
Improving early detection rates
The pilot trial of the blood test is due to start in mid-2021 and will involve 165,000 people.
The trial will include 140,000 individuals aged 50-79 years who were identified through their health records and who have no cancer symptoms. They will undergo blood tests annually for 3 years and will be referred for investigation if a test result is positive.
A second group will include 25,000 people with potential cancer symptoms. These patients will be offered the blood test to speed up their diagnosis after referral to a hospital via the normal channels.
The results of the pilot are expected in 2023. If successful, the test will be rolled out to 1 million individuals from 2024 to 2025.
The pilot trial is part of the NHS Long Term Plan, which aims to increase early detection of cancer. At present, around half of cancers in England are diagnosed in stage I or II; the NHS aims to increase this to 75% by 2028.
“The NHS has set itself an ambitious target,” commented Peter Johnson, MD, PhD, national clinical director for cancer at NHS England and Improvement.
“Tests like this may help us get there far faster, and I am excited to see how this cutting-edge technology will work out as we test it in clinics across the NHS,” he added.
Lord David Prior, chair of NHS England, noted that almost 200,000 people die from cancer in the United Kingdom every year and that “many of these people are diagnosed too late for treatment to be effective.
“This collaboration between the NHS and Grail offers the chance for a wide range of cancers to be diagnosed much earlier and could fundamentally change the outlook for people with cancer,” he said.
However, some clinicians raised potential concerns.
Stephen Duffy, PhD, Center for Cancer Prevention, Queen Mary University of London, described the pilot as “very exciting,” but cautioned: “We will need to find out just how early the test detects cancers and whether it can it be used in a way which minimizes anxiety from false positives.”
Yong-Jie Lu, MD, PhD, also at Queen Mary University of London, said: “It is not clear how early it aims to catch cancer. For a cancer screen test, it needs very high specificity (>99%), otherwise it may end up in a similar situation as the PSA [prostate-specific antigen] test for prostate cancer, or even worse.”
Mangesh Thorat, MD, Cancer Prevention Trials Unit, King’s College London, warned: “It is likely that for every testing round ... there will be about 1,000 false-positive results, and the test may not be able to pinpoint the location of cancer in 3%-4% of those with a true positive result, necessitating a range of imaging and other investigations in these participants.”
No funding for the study has been declared. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
“Early detection, particularly for hard-to-treat conditions like ovarian and pancreatic cancer, has the potential to save many lives,” said NHS Chief Executive Sir Simon Stevens in a statement.
The pilot trial will use the Galleri blood test, developed by Grail. Sir Stevens described the blood test as “promising” and said it could “be a game changer in cancer care, helping thousands more people to get successful treatment.”
However, some clinicians have expressed concerns over the potential for false-positive results with the test.
Results of a study of the Galleri blood test, published earlier this year, showed that the test detected 50 types of cancer with a specificity of 99.3% and a false positive rate of 0.7%.
It also correctly identified the originating tissue in 90% of cases. However, the sensitivity was lower, at 67%, for the 12 most common cancers, as reported at the time.
The senior author of that study, Michael Seiden, MD, PhD, president of the U.S. Oncology Network, The Woodlands, Tex., noted that it was not a screening study: the test had been used in patients with cancer and in healthy volunteers. He said the test “is intended to be complementary to, and not replace, existing guideline-recommended screening tests and might provide new avenues of investigation for cancers that don’t currently have screening tests.”
The Galleri test uses next-generation sequencing to analyze the arrangement of methyl groups on circulating cell-free DNA in a blood sample.
Several other blood tests for cancer are under development, including the CancerSEEK test, which has been reported to be able to identify eight common cancers. It measures circulating tumor DNA from 16 genes and eight protein biomarkers and then uses machine learning to analyze the data.
Improving early detection rates
The pilot trial of the blood test is due to start in mid-2021 and will involve 165,000 people.
The trial will include 140,000 individuals aged 50-79 years who were identified through their health records and who have no cancer symptoms. They will undergo blood tests annually for 3 years and will be referred for investigation if a test result is positive.
A second group will include 25,000 people with potential cancer symptoms. These patients will be offered the blood test to speed up their diagnosis after referral to a hospital via the normal channels.
The results of the pilot are expected in 2023. If successful, the test will be rolled out to 1 million individuals from 2024 to 2025.
The pilot trial is part of the NHS Long Term Plan, which aims to increase early detection of cancer. At present, around half of cancers in England are diagnosed in stage I or II; the NHS aims to increase this to 75% by 2028.
“The NHS has set itself an ambitious target,” commented Peter Johnson, MD, PhD, national clinical director for cancer at NHS England and Improvement.
“Tests like this may help us get there far faster, and I am excited to see how this cutting-edge technology will work out as we test it in clinics across the NHS,” he added.
Lord David Prior, chair of NHS England, noted that almost 200,000 people die from cancer in the United Kingdom every year and that “many of these people are diagnosed too late for treatment to be effective.
“This collaboration between the NHS and Grail offers the chance for a wide range of cancers to be diagnosed much earlier and could fundamentally change the outlook for people with cancer,” he said.
However, some clinicians raised potential concerns.
Stephen Duffy, PhD, Center for Cancer Prevention, Queen Mary University of London, described the pilot as “very exciting,” but cautioned: “We will need to find out just how early the test detects cancers and whether it can it be used in a way which minimizes anxiety from false positives.”
Yong-Jie Lu, MD, PhD, also at Queen Mary University of London, said: “It is not clear how early it aims to catch cancer. For a cancer screen test, it needs very high specificity (>99%), otherwise it may end up in a similar situation as the PSA [prostate-specific antigen] test for prostate cancer, or even worse.”
Mangesh Thorat, MD, Cancer Prevention Trials Unit, King’s College London, warned: “It is likely that for every testing round ... there will be about 1,000 false-positive results, and the test may not be able to pinpoint the location of cancer in 3%-4% of those with a true positive result, necessitating a range of imaging and other investigations in these participants.”
No funding for the study has been declared. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
“Early detection, particularly for hard-to-treat conditions like ovarian and pancreatic cancer, has the potential to save many lives,” said NHS Chief Executive Sir Simon Stevens in a statement.
The pilot trial will use the Galleri blood test, developed by Grail. Sir Stevens described the blood test as “promising” and said it could “be a game changer in cancer care, helping thousands more people to get successful treatment.”
However, some clinicians have expressed concerns over the potential for false-positive results with the test.
Results of a study of the Galleri blood test, published earlier this year, showed that the test detected 50 types of cancer with a specificity of 99.3% and a false positive rate of 0.7%.
It also correctly identified the originating tissue in 90% of cases. However, the sensitivity was lower, at 67%, for the 12 most common cancers, as reported at the time.
The senior author of that study, Michael Seiden, MD, PhD, president of the U.S. Oncology Network, The Woodlands, Tex., noted that it was not a screening study: the test had been used in patients with cancer and in healthy volunteers. He said the test “is intended to be complementary to, and not replace, existing guideline-recommended screening tests and might provide new avenues of investigation for cancers that don’t currently have screening tests.”
The Galleri test uses next-generation sequencing to analyze the arrangement of methyl groups on circulating cell-free DNA in a blood sample.
Several other blood tests for cancer are under development, including the CancerSEEK test, which has been reported to be able to identify eight common cancers. It measures circulating tumor DNA from 16 genes and eight protein biomarkers and then uses machine learning to analyze the data.
Improving early detection rates
The pilot trial of the blood test is due to start in mid-2021 and will involve 165,000 people.
The trial will include 140,000 individuals aged 50-79 years who were identified through their health records and who have no cancer symptoms. They will undergo blood tests annually for 3 years and will be referred for investigation if a test result is positive.
A second group will include 25,000 people with potential cancer symptoms. These patients will be offered the blood test to speed up their diagnosis after referral to a hospital via the normal channels.
The results of the pilot are expected in 2023. If successful, the test will be rolled out to 1 million individuals from 2024 to 2025.
The pilot trial is part of the NHS Long Term Plan, which aims to increase early detection of cancer. At present, around half of cancers in England are diagnosed in stage I or II; the NHS aims to increase this to 75% by 2028.
“The NHS has set itself an ambitious target,” commented Peter Johnson, MD, PhD, national clinical director for cancer at NHS England and Improvement.
“Tests like this may help us get there far faster, and I am excited to see how this cutting-edge technology will work out as we test it in clinics across the NHS,” he added.
Lord David Prior, chair of NHS England, noted that almost 200,000 people die from cancer in the United Kingdom every year and that “many of these people are diagnosed too late for treatment to be effective.
“This collaboration between the NHS and Grail offers the chance for a wide range of cancers to be diagnosed much earlier and could fundamentally change the outlook for people with cancer,” he said.
However, some clinicians raised potential concerns.
Stephen Duffy, PhD, Center for Cancer Prevention, Queen Mary University of London, described the pilot as “very exciting,” but cautioned: “We will need to find out just how early the test detects cancers and whether it can it be used in a way which minimizes anxiety from false positives.”
Yong-Jie Lu, MD, PhD, also at Queen Mary University of London, said: “It is not clear how early it aims to catch cancer. For a cancer screen test, it needs very high specificity (>99%), otherwise it may end up in a similar situation as the PSA [prostate-specific antigen] test for prostate cancer, or even worse.”
Mangesh Thorat, MD, Cancer Prevention Trials Unit, King’s College London, warned: “It is likely that for every testing round ... there will be about 1,000 false-positive results, and the test may not be able to pinpoint the location of cancer in 3%-4% of those with a true positive result, necessitating a range of imaging and other investigations in these participants.”
No funding for the study has been declared. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
SABCS 2020: What’s hot, including a major chemotherapy trial
That’s the word from Virginia Kaklamani, MD, from the University of Texas Health Sciences Center San Antonio. Dr. Kaklamani, a professor of medicine in the division of hematology/oncology, is codirector of the meeting that runs online Dec. 8-11.
If the new trial sounds familiar, that’s because it’s a lot like the TAILORx trial, the results of which were first presented in 2018 and have changed practice in women with early-stage disease and no lymph node involvement.
“This is the lymph-node positive TAILORx. It’s extremely important,” Dr. Kaklamani said in an interview, adding that both trials involved women with hormone receptor (HR)–positive, HER2-negative disease.
If the RxPONDER trial shows similar outcomes between women randomized to adjuvant endocrine therapy alone versus endocrine therapy plus chemotherapy, then clinicians “can potentially avoid giving chemotherapy to a large number of women who are currently receiving it,” she explained.
Because women with nodal involvement (one to three positive axillary nodes) are at a higher risk of recurrence, RxPONDER may provide needed insight on the management of these types of breast cancers, Dr. Kaklamani suggested.
Both trials have used the 21-tumor gene expression assay (Oncotype Dx) to determine recurrence-risk status.
Dr. Kaklamani also spotlighted the phase 3 CONTESSA trial (abstract GS4-01) in 600+ patients with locally advanced or metastatic breast cancer that is HR positive and HER2 negative and has been previously treated with a taxane.
The trial features an experimental oral taxane, tesetaxel. The primary objective is to compare the efficacy of tesetaxel plus a reduced dose of capecitabine (Xeloda) versus the approved dose of capecitabine alone. Presented data will include progression-free survival results, indicating about a 3-month PFS advantage with tesetaxel, which is taken once every 3 weeks.
“Oral drugs are convenient for patients and, despite limitations, they are, all in all, a revolution in cancer treatment,” noted Dr. Kaklamani, adding that they beneficially eliminate the need for time-consuming infusions and related clinic visits as well as drug ports.
It will be interesting to see what Steven Vogl, MD, a private practitioner in New Yorky, has to say about CONTESSA and the rest of the SABCS.
He is usually a commentator from the meeting floor, whose self-introduction, “Vogl, New York,” is well known to perennial meeting attendees, according to a profile piece published some years ago.
This year the medical oncologist will also serve as the chair of the “View from the Trenches” session, which is devoted to summarizing the meeting’s most important findings for everyday practitioners.
A number of years ago, Dr. Vogl proposed the idea of this where-the-rubber-meets-the-road session to SABCS meeting planners, which they then adopted. This year, Dr. Kaklamani invited Dr. Vogl to run the session and he accepted.
Dr. Vogl is a “really smart guy who is always right on” with his comments and questions, and he will be the first-ever independent, community-based oncologist to chair a meeting session, said Dr. Kaklamani.
Other hot topics
Another hot topic featured at the meeting will be the use of CDK4/6 inhibitors in the adjuvant treatment of HR-positive and HER2-negative disease that has a high risk of recurrence, Dr. Kaklamani said. New data from two trials, monarchE and PENELOPE-B, will be presented.
First, there will be an update from the monarchE trial (abstract GS1-01). The first results from this trial were reported in September at the European Society for Medical Oncology Virtual Congress 2020. They showed that adding abemaciclib (Verzenio) to endocrine therapy reduced the risk of early recurrence. The positive outcome represented the first treatment improvement in this high-risk setting in more than 20 years, according to experts.
A similar trial, PENELOPE-B (abstract GS1-02), looks at palbociclib (Ibrance) in a somewhat different population – those patients with high relapse risk after neoadjuvant chemotherapy. “These are even higher risk ER+ patients [than those in monarchE], which is why they received chemotherapy before surgery,” commented Dr. Kaklamani.
In triple-negative disease, there will be overall survival (OS) results from the phase 3 KEYNOTE-355 study (abstract GS3-01) of pembrolizumab (Keytruda) versus placebo (plus chemotherapy for all patients) as first-line therapy for locally recurrent inoperable or metastatic triple-negative breast cancer. “It’s potentially a huge deal,” said Dr. Kaklamani about the OS data, if they are statistically significant.
A meta-analysis (abstract GS4-08) of data on circulating tumor cells (CTCs), which are shed from the primary tumor into the bloodstream, may point to their value as a tool to determine whether or not a breast cancer treatment is effective. “CTCs allow you to assess how a treatment is doing before you do scans, which typically occur 3 months or so later,” explained Dr. Kaklamani.
CTC results can be assessed in 3-4 weeks and allow clinicians to change treatments if CTC volume increases. However, a previous study of CTCs did not show a clinical benefit with the tool among patients treated mainly with chemotherapies. What’s different about the new study, which is from an international group of investigators, is in the treatments patients with metastatic breast cancer received. “This study is from a different era – with targeted therapies,” said Dr. Kaklamani.
In the new study, changes in CTC levels (with a reduction being a good result) between baseline (pretreatment) and follow-up were analyzed to determine whether they were associated with overall survival.
COVID sessions
On the meeting’s first day, SABCS will feature a special session on COVID-19 and breast cancer. The meeting organizers sought to separate the wheat from the chaff in this subject, as much has already been written, published, or presented.
“We received a lot of abstracts on COVID that were studies that were poorly done. We tried to tease through them and select the well-researched ones,” acknowledged Dr. Kaklamani.
The organizers included two patient advocates who have had COVID-19, including during treatment for breast cancer, as participants in the meeting session. The session will also feature global perspectives, with presenters from Brazil, Italy, and the Netherlands.
Plenary lectures
The meeting’s two plenary lectures will focus, respectively, on the increasingly used clinical approach of neoadjuvant therapy in breast cancer, and research in the time of a pandemic.
Elizabeth Mittendorf, MD, PhD, a surgical oncologist and director of the Breast lmmuno-Oncology program and co-director of the Breast Cancer Clinical Research Program at the Dana-Farber/Brigham and Women’s Cancer Center, Boston, will present “Local regional management following neoadjuvant therapy: Minding the knowledge gaps.”
Ned Sharpless, MD, director of the National Cancer Institute, will present “Advancing cancer research during challenging times.”
Dr. Kaklamani disclosed recieving consulting fees with Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; receiving fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and contracted research with Eisai.
This article first appeared on Medscape.com.
That’s the word from Virginia Kaklamani, MD, from the University of Texas Health Sciences Center San Antonio. Dr. Kaklamani, a professor of medicine in the division of hematology/oncology, is codirector of the meeting that runs online Dec. 8-11.
If the new trial sounds familiar, that’s because it’s a lot like the TAILORx trial, the results of which were first presented in 2018 and have changed practice in women with early-stage disease and no lymph node involvement.
“This is the lymph-node positive TAILORx. It’s extremely important,” Dr. Kaklamani said in an interview, adding that both trials involved women with hormone receptor (HR)–positive, HER2-negative disease.
If the RxPONDER trial shows similar outcomes between women randomized to adjuvant endocrine therapy alone versus endocrine therapy plus chemotherapy, then clinicians “can potentially avoid giving chemotherapy to a large number of women who are currently receiving it,” she explained.
Because women with nodal involvement (one to three positive axillary nodes) are at a higher risk of recurrence, RxPONDER may provide needed insight on the management of these types of breast cancers, Dr. Kaklamani suggested.
Both trials have used the 21-tumor gene expression assay (Oncotype Dx) to determine recurrence-risk status.
Dr. Kaklamani also spotlighted the phase 3 CONTESSA trial (abstract GS4-01) in 600+ patients with locally advanced or metastatic breast cancer that is HR positive and HER2 negative and has been previously treated with a taxane.
The trial features an experimental oral taxane, tesetaxel. The primary objective is to compare the efficacy of tesetaxel plus a reduced dose of capecitabine (Xeloda) versus the approved dose of capecitabine alone. Presented data will include progression-free survival results, indicating about a 3-month PFS advantage with tesetaxel, which is taken once every 3 weeks.
“Oral drugs are convenient for patients and, despite limitations, they are, all in all, a revolution in cancer treatment,” noted Dr. Kaklamani, adding that they beneficially eliminate the need for time-consuming infusions and related clinic visits as well as drug ports.
It will be interesting to see what Steven Vogl, MD, a private practitioner in New Yorky, has to say about CONTESSA and the rest of the SABCS.
He is usually a commentator from the meeting floor, whose self-introduction, “Vogl, New York,” is well known to perennial meeting attendees, according to a profile piece published some years ago.
This year the medical oncologist will also serve as the chair of the “View from the Trenches” session, which is devoted to summarizing the meeting’s most important findings for everyday practitioners.
A number of years ago, Dr. Vogl proposed the idea of this where-the-rubber-meets-the-road session to SABCS meeting planners, which they then adopted. This year, Dr. Kaklamani invited Dr. Vogl to run the session and he accepted.
Dr. Vogl is a “really smart guy who is always right on” with his comments and questions, and he will be the first-ever independent, community-based oncologist to chair a meeting session, said Dr. Kaklamani.
Other hot topics
Another hot topic featured at the meeting will be the use of CDK4/6 inhibitors in the adjuvant treatment of HR-positive and HER2-negative disease that has a high risk of recurrence, Dr. Kaklamani said. New data from two trials, monarchE and PENELOPE-B, will be presented.
First, there will be an update from the monarchE trial (abstract GS1-01). The first results from this trial were reported in September at the European Society for Medical Oncology Virtual Congress 2020. They showed that adding abemaciclib (Verzenio) to endocrine therapy reduced the risk of early recurrence. The positive outcome represented the first treatment improvement in this high-risk setting in more than 20 years, according to experts.
A similar trial, PENELOPE-B (abstract GS1-02), looks at palbociclib (Ibrance) in a somewhat different population – those patients with high relapse risk after neoadjuvant chemotherapy. “These are even higher risk ER+ patients [than those in monarchE], which is why they received chemotherapy before surgery,” commented Dr. Kaklamani.
In triple-negative disease, there will be overall survival (OS) results from the phase 3 KEYNOTE-355 study (abstract GS3-01) of pembrolizumab (Keytruda) versus placebo (plus chemotherapy for all patients) as first-line therapy for locally recurrent inoperable or metastatic triple-negative breast cancer. “It’s potentially a huge deal,” said Dr. Kaklamani about the OS data, if they are statistically significant.
A meta-analysis (abstract GS4-08) of data on circulating tumor cells (CTCs), which are shed from the primary tumor into the bloodstream, may point to their value as a tool to determine whether or not a breast cancer treatment is effective. “CTCs allow you to assess how a treatment is doing before you do scans, which typically occur 3 months or so later,” explained Dr. Kaklamani.
CTC results can be assessed in 3-4 weeks and allow clinicians to change treatments if CTC volume increases. However, a previous study of CTCs did not show a clinical benefit with the tool among patients treated mainly with chemotherapies. What’s different about the new study, which is from an international group of investigators, is in the treatments patients with metastatic breast cancer received. “This study is from a different era – with targeted therapies,” said Dr. Kaklamani.
In the new study, changes in CTC levels (with a reduction being a good result) between baseline (pretreatment) and follow-up were analyzed to determine whether they were associated with overall survival.
COVID sessions
On the meeting’s first day, SABCS will feature a special session on COVID-19 and breast cancer. The meeting organizers sought to separate the wheat from the chaff in this subject, as much has already been written, published, or presented.
“We received a lot of abstracts on COVID that were studies that were poorly done. We tried to tease through them and select the well-researched ones,” acknowledged Dr. Kaklamani.
The organizers included two patient advocates who have had COVID-19, including during treatment for breast cancer, as participants in the meeting session. The session will also feature global perspectives, with presenters from Brazil, Italy, and the Netherlands.
Plenary lectures
The meeting’s two plenary lectures will focus, respectively, on the increasingly used clinical approach of neoadjuvant therapy in breast cancer, and research in the time of a pandemic.
Elizabeth Mittendorf, MD, PhD, a surgical oncologist and director of the Breast lmmuno-Oncology program and co-director of the Breast Cancer Clinical Research Program at the Dana-Farber/Brigham and Women’s Cancer Center, Boston, will present “Local regional management following neoadjuvant therapy: Minding the knowledge gaps.”
Ned Sharpless, MD, director of the National Cancer Institute, will present “Advancing cancer research during challenging times.”
Dr. Kaklamani disclosed recieving consulting fees with Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; receiving fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and contracted research with Eisai.
This article first appeared on Medscape.com.
That’s the word from Virginia Kaklamani, MD, from the University of Texas Health Sciences Center San Antonio. Dr. Kaklamani, a professor of medicine in the division of hematology/oncology, is codirector of the meeting that runs online Dec. 8-11.
If the new trial sounds familiar, that’s because it’s a lot like the TAILORx trial, the results of which were first presented in 2018 and have changed practice in women with early-stage disease and no lymph node involvement.
“This is the lymph-node positive TAILORx. It’s extremely important,” Dr. Kaklamani said in an interview, adding that both trials involved women with hormone receptor (HR)–positive, HER2-negative disease.
If the RxPONDER trial shows similar outcomes between women randomized to adjuvant endocrine therapy alone versus endocrine therapy plus chemotherapy, then clinicians “can potentially avoid giving chemotherapy to a large number of women who are currently receiving it,” she explained.
Because women with nodal involvement (one to three positive axillary nodes) are at a higher risk of recurrence, RxPONDER may provide needed insight on the management of these types of breast cancers, Dr. Kaklamani suggested.
Both trials have used the 21-tumor gene expression assay (Oncotype Dx) to determine recurrence-risk status.
Dr. Kaklamani also spotlighted the phase 3 CONTESSA trial (abstract GS4-01) in 600+ patients with locally advanced or metastatic breast cancer that is HR positive and HER2 negative and has been previously treated with a taxane.
The trial features an experimental oral taxane, tesetaxel. The primary objective is to compare the efficacy of tesetaxel plus a reduced dose of capecitabine (Xeloda) versus the approved dose of capecitabine alone. Presented data will include progression-free survival results, indicating about a 3-month PFS advantage with tesetaxel, which is taken once every 3 weeks.
“Oral drugs are convenient for patients and, despite limitations, they are, all in all, a revolution in cancer treatment,” noted Dr. Kaklamani, adding that they beneficially eliminate the need for time-consuming infusions and related clinic visits as well as drug ports.
It will be interesting to see what Steven Vogl, MD, a private practitioner in New Yorky, has to say about CONTESSA and the rest of the SABCS.
He is usually a commentator from the meeting floor, whose self-introduction, “Vogl, New York,” is well known to perennial meeting attendees, according to a profile piece published some years ago.
This year the medical oncologist will also serve as the chair of the “View from the Trenches” session, which is devoted to summarizing the meeting’s most important findings for everyday practitioners.
A number of years ago, Dr. Vogl proposed the idea of this where-the-rubber-meets-the-road session to SABCS meeting planners, which they then adopted. This year, Dr. Kaklamani invited Dr. Vogl to run the session and he accepted.
Dr. Vogl is a “really smart guy who is always right on” with his comments and questions, and he will be the first-ever independent, community-based oncologist to chair a meeting session, said Dr. Kaklamani.
Other hot topics
Another hot topic featured at the meeting will be the use of CDK4/6 inhibitors in the adjuvant treatment of HR-positive and HER2-negative disease that has a high risk of recurrence, Dr. Kaklamani said. New data from two trials, monarchE and PENELOPE-B, will be presented.
First, there will be an update from the monarchE trial (abstract GS1-01). The first results from this trial were reported in September at the European Society for Medical Oncology Virtual Congress 2020. They showed that adding abemaciclib (Verzenio) to endocrine therapy reduced the risk of early recurrence. The positive outcome represented the first treatment improvement in this high-risk setting in more than 20 years, according to experts.
A similar trial, PENELOPE-B (abstract GS1-02), looks at palbociclib (Ibrance) in a somewhat different population – those patients with high relapse risk after neoadjuvant chemotherapy. “These are even higher risk ER+ patients [than those in monarchE], which is why they received chemotherapy before surgery,” commented Dr. Kaklamani.
In triple-negative disease, there will be overall survival (OS) results from the phase 3 KEYNOTE-355 study (abstract GS3-01) of pembrolizumab (Keytruda) versus placebo (plus chemotherapy for all patients) as first-line therapy for locally recurrent inoperable or metastatic triple-negative breast cancer. “It’s potentially a huge deal,” said Dr. Kaklamani about the OS data, if they are statistically significant.
A meta-analysis (abstract GS4-08) of data on circulating tumor cells (CTCs), which are shed from the primary tumor into the bloodstream, may point to their value as a tool to determine whether or not a breast cancer treatment is effective. “CTCs allow you to assess how a treatment is doing before you do scans, which typically occur 3 months or so later,” explained Dr. Kaklamani.
CTC results can be assessed in 3-4 weeks and allow clinicians to change treatments if CTC volume increases. However, a previous study of CTCs did not show a clinical benefit with the tool among patients treated mainly with chemotherapies. What’s different about the new study, which is from an international group of investigators, is in the treatments patients with metastatic breast cancer received. “This study is from a different era – with targeted therapies,” said Dr. Kaklamani.
In the new study, changes in CTC levels (with a reduction being a good result) between baseline (pretreatment) and follow-up were analyzed to determine whether they were associated with overall survival.
COVID sessions
On the meeting’s first day, SABCS will feature a special session on COVID-19 and breast cancer. The meeting organizers sought to separate the wheat from the chaff in this subject, as much has already been written, published, or presented.
“We received a lot of abstracts on COVID that were studies that were poorly done. We tried to tease through them and select the well-researched ones,” acknowledged Dr. Kaklamani.
The organizers included two patient advocates who have had COVID-19, including during treatment for breast cancer, as participants in the meeting session. The session will also feature global perspectives, with presenters from Brazil, Italy, and the Netherlands.
Plenary lectures
The meeting’s two plenary lectures will focus, respectively, on the increasingly used clinical approach of neoadjuvant therapy in breast cancer, and research in the time of a pandemic.
Elizabeth Mittendorf, MD, PhD, a surgical oncologist and director of the Breast lmmuno-Oncology program and co-director of the Breast Cancer Clinical Research Program at the Dana-Farber/Brigham and Women’s Cancer Center, Boston, will present “Local regional management following neoadjuvant therapy: Minding the knowledge gaps.”
Ned Sharpless, MD, director of the National Cancer Institute, will present “Advancing cancer research during challenging times.”
Dr. Kaklamani disclosed recieving consulting fees with Amgen, Eisai, Puma, Celldex, AstraZeneca, and Athenex; receiving fees for non-CME services received directly from commercial interest or their agents from Pfizer, Celgene, Genentech, Genomic Health, Puma, Eisai, and Novartis; and contracted research with Eisai.
This article first appeared on Medscape.com.
FROM SABCS 2020
Cancer rates on the rise in adolescents and young adults
Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.
There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.
Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.
The report was published online December 1 in JAMA Network Open.
“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.
“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.
The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.
The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.
It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.
“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.
Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.
The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.
Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).
Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).
Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.
Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.
Higher rates of melanoma could be related to tanning bed use.
Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.
Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.
Almost 80% of the patients were White; 10.3% were Black.
The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.
There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.
Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.
The report was published online December 1 in JAMA Network Open.
“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.
“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.
The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.
The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.
It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.
“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.
Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.
The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.
Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).
Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).
Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.
Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.
Higher rates of melanoma could be related to tanning bed use.
Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.
Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.
Almost 80% of the patients were White; 10.3% were Black.
The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
Rates of cancer increased by 30% from 1973 to 2015 in adolescents and young adults (AYAs) aged 15–39 years in the United States, according to a review of almost a half million cases in the National Institutes of Health’s Surveillance, Epidemiology, and End Results database.
There was an annual increase of 0.537 new cases per 100,000 people, from 57.2 cases per 100,000 in 1973 to 74.2 in 2015.
Kidney carcinoma led with the highest rate increase. There were also marked increases in thyroid and colorectal carcinoma, germ cell and trophoblastic neoplasms, and melanoma, among others.
The report was published online December 1 in JAMA Network Open.
“Clinicians should be on the lookout for these cancers in their adolescent and young adult patients,” said senior investigator Nicholas Zaorsky, MD, an assistant professor of radiation oncology and public health sciences at the Penn State Cancer Institute, Hershey, Pennsylvania.
“Now that there is a better understanding of the types of cancer that are prevalent and rising in this age group, prevention, screening, diagnosis and treatment protocols specifically targeted to this population should be developed,” he said in a press release.
The reasons for the increases are unclear, but environmental and dietary factors, increasing obesity, and changing screening practices are likely in play, the authors comment. In addition, “cancer screening and overdiagnosis are thought to account for much of the increasing rates of thyroid and kidney carcinoma, among others,” they add.
The American Cancer Society (ACS) recently found similar increases in thyroid, kidney, and colorectal cancer among AYAs, as well as an increase in uterine cancer.
It’s important to note, however, that “this phenomenon is largely driven by trends for thyroid cancer, which is thought to be a result of overdiagnosis,” said ACS surveillance researcher Kimberly Miller, MPH, when asked to comment on the new study.
“As such, it is extremely important to also consider trends in cancer mortality rates among this age group, which are declining overall but are increasing for colorectal and uterine cancers. The fact that both incidence and mortality rates are increasing for these two cancers suggests a true increase in disease burden and certainly requires further attention and research,” she said.
Historically, management of cancer in AYAs has fallen somewhere between pediatric and adult oncology, neither of which capture the distinct biological, social, and economic needs of AYAs. Research has also focused on childhood and adult cancers, leaving cancer in AYAs inadequately studied.
The new findings are “valuable to guide more targeted research and interventions specifically to AYAs,” Zaorsky and colleagues say in their report.
Among female patients ― 59.1% of the study population ― incidence increased for 15 cancers, including kidney carcinoma (annual percent change [APC], 3.632), thyroid carcinoma (APC, 3.456), and myeloma, mast cell, and miscellaneous lymphoreticular neoplasms not otherwise specified (APC, 2.805). Rates of five cancers declined, led by astrocytoma not otherwise specified (APC, –3.369) and carcinoma of the gonads (APC, –1.743).
Among male patients, incidence increased for 14 cancers, including kidney carcinoma (APC, 3.572), unspecified soft tissue sarcoma (APC 2.543), and thyroid carcinoma (APC, 2.273). Incidence fell for seven, led by astrocytoma not otherwise specified (APC, –3.759) and carcinoma of the trachea, bronchus, and lung (APC, –2.635).
Increased testicular cancer rates (APC, 1.246) could be related to greater prenatal exposure to estrogen and progesterone or through dairy consumption; increasing survival of premature infants; and greater exposure to cannabis, among other possibilities, the investigators say.
Increases in colorectal cancer might be related to fewer vegetables and more fat and processed meat in the diet; lack of exercise; and increasing obesity. Human papillomavirus infection has also been implicated.
Higher rates of melanoma could be related to tanning bed use.
Declines in some cancers could be related to greater use of oral contraceptives; laws reducing exposure to benzene and other chemicals; and fewer people smoking.
Although kidney carcinoma has increased at the greatest rate, it’s uncommon. Colorectal and thyroid carcinoma, melanoma, non-Hodgkin lymphoma, and germ cell and trophoblastic neoplasms of the gonads contribute more to the overall increase in cancers among AYAs, the investigators note.
Almost 80% of the patients were White; 10.3% were Black.
The study was funded by the National Center for Advancing Translational Sciences. The investigators have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
Should CTCs guide treatment choice in HR+, HER2– breast cancer?
investigators wrote in JAMA Oncology.
However, authors of a related editorial suggested CTC counts are not adequate for guiding treatment choice in this population.
In a phase 3 trial, investigators compared the use of CTC counts and the use of clinical factors to guide the decision between chemotherapy and endocrine therapy. Results showed similar progression-free survival (PFS) and overall survival (OS) with both methods but more chemotherapy use with the CTC method.
“The results of this trial demonstrate the reliability and clinical utility of CTC count to guide the choice between single-agent endocrine therapy and chemotherapy as first-line treatment,” but “at the cost of a higher proportion of patients treated with chemotherapy,” study author François-Clement Bidard, MD, PhD, of Institut Curie in Saint-Cloud, France, and colleagues wrote.
The investigators explained that endocrine therapy is the preferred first-line treatment option in this patient population, but chemotherapy is used when women are in visceral crisis, with rapidly progressive, symptomatic disease. The decision usually rests on clinical factors, such as tumor subtype and performance status, but there’s interphysician variability.
The team hoped to find a “more reliable, standardized, and reproducible” biomarker to help remove some of the uncertainty from the situation. They tested CTC count, a well-established prognostic indicator of PFS and OS, as a candidate.
Study results
The trial included 755 patients with hormone receptor–positive, HER2-negative breast cancer in the per-protocol population. The patients’ median age was 63 years (range, 30-88 years).
Among the 377 patients randomized to the CTC arm, those with counts at or above 5 CTCs per 7.5 mL received chemotherapy, while those with a lower count received endocrine therapy.
The 378 patients in the standard-care group received endocrine therapy or chemotherapy based on provider choice guided by clinical factors.
Chemotherapy was given to 37% of patients in the CTC arm and 27% of those in the standard arm.
The median PFS was 15.5 months in the CTC arm and 13.9 months in the standard arm, which meant the primary endpoint of noninferiority was met (hazard ratio, 0.94; 90% confidence interval, 0.81-1.09).
Age older than 60 years was the only baseline characteristic associated with better PFS with CTC-driven decision-making. This may be because of the greater “use of endocrine therapy as the clinically favored treatment, whatever the other clinicopathologic characteristics,” in older subjects, the investigators wrote.
As with PFS, the median OS was similar between the study arms – 47.3 months in the CTC arm and 42.8 months in the standard arm (HR, 0.91; 95% CI, 0.71-1.16).
‘Not good enough’
The investigators behind this study had “a worthy goal,” according to authors of a related editorial.
Without “predictive biomarkers, we are left with our clinical knowledge, experience, and intuition. Patients are left with uncertainty, doubt, and fear,” Tarah Ballinger, MD,, of Indiana University, Indianapolis, and colleagues wrote in the editorial.
However, the editorialists had concerns about the findings. For one thing, the investigators hypothesized that relying on CTC would lead to a deescalation from chemotherapy to endocrine therapy, but use of chemotherapy was actually 10% higher in the CTC arm.
“Adding to or replacing the parameters we use to make a clinical decision should help us improve the lives of patients. ... We should demand an improvement in outcomes before accepting a strategy that exposes more patients to more toxic therapy. Not worse simply is not good enough,” the editorialists wrote.
In addition, the trial was completed before CDK4/6 inhibitors became a standard add-on with endocrine therapy for hormone receptor–positive, HER2-negative patients.
“The overall response rate to CDK4/6 inhibitor therapy is higher than with traditional chemotherapy, and several randomized trials have failed to show a survival benefit of upfront chemotherapy compared with CDK4/6 inhibitor use. ... Thus, it is even less likely that we can assume that baseline high CTC count corresponds to a need for chemotherapy in a modern treatment landscape that offers more patients more benefit from hormone therapy,” Dr. Ballinger and colleagues wrote.
The editorialists concluded that CTC count “alone at baseline primarily reflects disease bulk, much like anatomic staging, rather than disease biology. As treatments become more rooted in our knowledge of breast cancer biology, decisions based on disease bulk are decidedly out of place.”
Perhaps a better use, they suggested, is for treatment personalization. For instance, patients with persistently elevated CTCs despite standard approaches could consider trials of novel targeted therapies, or CTCs could be sequenced to identify actionable molecular targets, achieving a “clinical utility that merely counting CTCs lacks,” the editorialists wrote.
This study was funded by the Institut Curie, the French National Cancer Institute, and Menarini Silicon Biosystems, the maker of the CTC assay used in the trial. The investigators disclosed relationships with Menarini and many other companies. Dr. Ballinger receives honoraria from Medscape, which is owned by the same company as this news organization.
SOURCE: Bidard FC et al. JAMA Oncol. 2020 Nov 5. doi: 10.1001/jamaoncol.2020.5660.
investigators wrote in JAMA Oncology.
However, authors of a related editorial suggested CTC counts are not adequate for guiding treatment choice in this population.
In a phase 3 trial, investigators compared the use of CTC counts and the use of clinical factors to guide the decision between chemotherapy and endocrine therapy. Results showed similar progression-free survival (PFS) and overall survival (OS) with both methods but more chemotherapy use with the CTC method.
“The results of this trial demonstrate the reliability and clinical utility of CTC count to guide the choice between single-agent endocrine therapy and chemotherapy as first-line treatment,” but “at the cost of a higher proportion of patients treated with chemotherapy,” study author François-Clement Bidard, MD, PhD, of Institut Curie in Saint-Cloud, France, and colleagues wrote.
The investigators explained that endocrine therapy is the preferred first-line treatment option in this patient population, but chemotherapy is used when women are in visceral crisis, with rapidly progressive, symptomatic disease. The decision usually rests on clinical factors, such as tumor subtype and performance status, but there’s interphysician variability.
The team hoped to find a “more reliable, standardized, and reproducible” biomarker to help remove some of the uncertainty from the situation. They tested CTC count, a well-established prognostic indicator of PFS and OS, as a candidate.
Study results
The trial included 755 patients with hormone receptor–positive, HER2-negative breast cancer in the per-protocol population. The patients’ median age was 63 years (range, 30-88 years).
Among the 377 patients randomized to the CTC arm, those with counts at or above 5 CTCs per 7.5 mL received chemotherapy, while those with a lower count received endocrine therapy.
The 378 patients in the standard-care group received endocrine therapy or chemotherapy based on provider choice guided by clinical factors.
Chemotherapy was given to 37% of patients in the CTC arm and 27% of those in the standard arm.
The median PFS was 15.5 months in the CTC arm and 13.9 months in the standard arm, which meant the primary endpoint of noninferiority was met (hazard ratio, 0.94; 90% confidence interval, 0.81-1.09).
Age older than 60 years was the only baseline characteristic associated with better PFS with CTC-driven decision-making. This may be because of the greater “use of endocrine therapy as the clinically favored treatment, whatever the other clinicopathologic characteristics,” in older subjects, the investigators wrote.
As with PFS, the median OS was similar between the study arms – 47.3 months in the CTC arm and 42.8 months in the standard arm (HR, 0.91; 95% CI, 0.71-1.16).
‘Not good enough’
The investigators behind this study had “a worthy goal,” according to authors of a related editorial.
Without “predictive biomarkers, we are left with our clinical knowledge, experience, and intuition. Patients are left with uncertainty, doubt, and fear,” Tarah Ballinger, MD,, of Indiana University, Indianapolis, and colleagues wrote in the editorial.
However, the editorialists had concerns about the findings. For one thing, the investigators hypothesized that relying on CTC would lead to a deescalation from chemotherapy to endocrine therapy, but use of chemotherapy was actually 10% higher in the CTC arm.
“Adding to or replacing the parameters we use to make a clinical decision should help us improve the lives of patients. ... We should demand an improvement in outcomes before accepting a strategy that exposes more patients to more toxic therapy. Not worse simply is not good enough,” the editorialists wrote.
In addition, the trial was completed before CDK4/6 inhibitors became a standard add-on with endocrine therapy for hormone receptor–positive, HER2-negative patients.
“The overall response rate to CDK4/6 inhibitor therapy is higher than with traditional chemotherapy, and several randomized trials have failed to show a survival benefit of upfront chemotherapy compared with CDK4/6 inhibitor use. ... Thus, it is even less likely that we can assume that baseline high CTC count corresponds to a need for chemotherapy in a modern treatment landscape that offers more patients more benefit from hormone therapy,” Dr. Ballinger and colleagues wrote.
The editorialists concluded that CTC count “alone at baseline primarily reflects disease bulk, much like anatomic staging, rather than disease biology. As treatments become more rooted in our knowledge of breast cancer biology, decisions based on disease bulk are decidedly out of place.”
Perhaps a better use, they suggested, is for treatment personalization. For instance, patients with persistently elevated CTCs despite standard approaches could consider trials of novel targeted therapies, or CTCs could be sequenced to identify actionable molecular targets, achieving a “clinical utility that merely counting CTCs lacks,” the editorialists wrote.
This study was funded by the Institut Curie, the French National Cancer Institute, and Menarini Silicon Biosystems, the maker of the CTC assay used in the trial. The investigators disclosed relationships with Menarini and many other companies. Dr. Ballinger receives honoraria from Medscape, which is owned by the same company as this news organization.
SOURCE: Bidard FC et al. JAMA Oncol. 2020 Nov 5. doi: 10.1001/jamaoncol.2020.5660.
investigators wrote in JAMA Oncology.
However, authors of a related editorial suggested CTC counts are not adequate for guiding treatment choice in this population.
In a phase 3 trial, investigators compared the use of CTC counts and the use of clinical factors to guide the decision between chemotherapy and endocrine therapy. Results showed similar progression-free survival (PFS) and overall survival (OS) with both methods but more chemotherapy use with the CTC method.
“The results of this trial demonstrate the reliability and clinical utility of CTC count to guide the choice between single-agent endocrine therapy and chemotherapy as first-line treatment,” but “at the cost of a higher proportion of patients treated with chemotherapy,” study author François-Clement Bidard, MD, PhD, of Institut Curie in Saint-Cloud, France, and colleagues wrote.
The investigators explained that endocrine therapy is the preferred first-line treatment option in this patient population, but chemotherapy is used when women are in visceral crisis, with rapidly progressive, symptomatic disease. The decision usually rests on clinical factors, such as tumor subtype and performance status, but there’s interphysician variability.
The team hoped to find a “more reliable, standardized, and reproducible” biomarker to help remove some of the uncertainty from the situation. They tested CTC count, a well-established prognostic indicator of PFS and OS, as a candidate.
Study results
The trial included 755 patients with hormone receptor–positive, HER2-negative breast cancer in the per-protocol population. The patients’ median age was 63 years (range, 30-88 years).
Among the 377 patients randomized to the CTC arm, those with counts at or above 5 CTCs per 7.5 mL received chemotherapy, while those with a lower count received endocrine therapy.
The 378 patients in the standard-care group received endocrine therapy or chemotherapy based on provider choice guided by clinical factors.
Chemotherapy was given to 37% of patients in the CTC arm and 27% of those in the standard arm.
The median PFS was 15.5 months in the CTC arm and 13.9 months in the standard arm, which meant the primary endpoint of noninferiority was met (hazard ratio, 0.94; 90% confidence interval, 0.81-1.09).
Age older than 60 years was the only baseline characteristic associated with better PFS with CTC-driven decision-making. This may be because of the greater “use of endocrine therapy as the clinically favored treatment, whatever the other clinicopathologic characteristics,” in older subjects, the investigators wrote.
As with PFS, the median OS was similar between the study arms – 47.3 months in the CTC arm and 42.8 months in the standard arm (HR, 0.91; 95% CI, 0.71-1.16).
‘Not good enough’
The investigators behind this study had “a worthy goal,” according to authors of a related editorial.
Without “predictive biomarkers, we are left with our clinical knowledge, experience, and intuition. Patients are left with uncertainty, doubt, and fear,” Tarah Ballinger, MD,, of Indiana University, Indianapolis, and colleagues wrote in the editorial.
However, the editorialists had concerns about the findings. For one thing, the investigators hypothesized that relying on CTC would lead to a deescalation from chemotherapy to endocrine therapy, but use of chemotherapy was actually 10% higher in the CTC arm.
“Adding to or replacing the parameters we use to make a clinical decision should help us improve the lives of patients. ... We should demand an improvement in outcomes before accepting a strategy that exposes more patients to more toxic therapy. Not worse simply is not good enough,” the editorialists wrote.
In addition, the trial was completed before CDK4/6 inhibitors became a standard add-on with endocrine therapy for hormone receptor–positive, HER2-negative patients.
“The overall response rate to CDK4/6 inhibitor therapy is higher than with traditional chemotherapy, and several randomized trials have failed to show a survival benefit of upfront chemotherapy compared with CDK4/6 inhibitor use. ... Thus, it is even less likely that we can assume that baseline high CTC count corresponds to a need for chemotherapy in a modern treatment landscape that offers more patients more benefit from hormone therapy,” Dr. Ballinger and colleagues wrote.
The editorialists concluded that CTC count “alone at baseline primarily reflects disease bulk, much like anatomic staging, rather than disease biology. As treatments become more rooted in our knowledge of breast cancer biology, decisions based on disease bulk are decidedly out of place.”
Perhaps a better use, they suggested, is for treatment personalization. For instance, patients with persistently elevated CTCs despite standard approaches could consider trials of novel targeted therapies, or CTCs could be sequenced to identify actionable molecular targets, achieving a “clinical utility that merely counting CTCs lacks,” the editorialists wrote.
This study was funded by the Institut Curie, the French National Cancer Institute, and Menarini Silicon Biosystems, the maker of the CTC assay used in the trial. The investigators disclosed relationships with Menarini and many other companies. Dr. Ballinger receives honoraria from Medscape, which is owned by the same company as this news organization.
SOURCE: Bidard FC et al. JAMA Oncol. 2020 Nov 5. doi: 10.1001/jamaoncol.2020.5660.
FROM JAMA ONCOLOGY
First guidelines for keto diets in adults with epilepsy released
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Just as in children with epilepsy, ketogenic diet therapies can be safe and effective in adults with epilepsy but should only be undertaken with the support of medical professionals trained in their use, the group said.
“Motivation is the key to successful ketogenic diet therapy adherence,” first author Mackenzie Cervenka, MD, director of the Adult Epilepsy Diet Center and associate professor of neurology at Johns Hopkins University, Baltimore, said in an interview.
“Patients who are autonomous require self-motivation and having a strong support structure is important as well. For those patients who are dependents, their caregivers need to be motivated to manage their diet,” said Dr. Cervenka.
The guidelines were published online Oct. 30 in Neurology Clinical Practice.
Novel in adult neurology
Ketogenic diet therapies are high-fat, low-carbohydrate, and adequate-protein diets that induce fat metabolism and ketone production. Despite its use as an effective antiseizure therapy since the 1920s, ketogenic diet therapies remain novel in adult neurology.
Furthermore, while there are established guidelines for ketogenic diet therapies to reduce seizures in children, there were no formal recommendations for adults, until now.
Drawing on the experience of experts at 20 centers using ketogenic diet therapies in more than 2,100 adults with epilepsy in 10 countries, Dr. Cervenka and an international team developed recommendations on use of ketogenic diet therapies in adults.
The panel noted, “with a relatively mild side effect profile and the potential to reduce seizures in nearly 60% of adults with drug-resistant epilepsy, ketogenic diet therapies should be part of the repertoire of available options.”
Ketogenic diet therapies are appropriate to offer to adults with seizure types and epilepsy syndromes for which these treatments are known to be effective in children, they said. These include tuberous sclerosis complex, Rett syndrome, Lennox-Gastaut syndrome, glucose transporter type 1 deficiency syndrome, genetic generalized epilepsies, and focal epilepsies caused by underlying migrational disorders and resistant to antiseizure medication.
However, adults with drug-resistant focal epilepsy should be offered surgical evaluation first, given the higher anticipated rate of seizure freedom via this route, the panel said.
A focus on compliance
Experts at nearly all of the centers report using two or more ketogenic diet therapies. Ninety percent use the modified Atkins diet, 84% use the classic ketogenic diet, and 63% use the modified ketogenic diet and/or low glycemic index treatment. More than half of the centers (58%) use medium-chain triglyceride oil in combination with another ketogenic diet therapy to boost ketone body production.
The most important factors influencing the choice of ketogenic diet therapy are ease of diet application for the patient (100%) and patient and/or caregiver preference, home setting, and mode of feeding (90% each).
The panel recommended that ketogenic diet therapies be tailored to fit the needs of the individual, taking into account his or her physical and mental characteristics, underlying medical conditions, food preferences, type and amount of support from family and others, level of self-sufficiency, feeding habits, and ease of following the diet.
“Most of the differences between the child and adult recommendations have to do with compliance. Often, it’s more of a challenge for adults than for children,” said Dr. Cervenka.
The panel recommended providing adult patients with recipe ideas, individualized training on the ketogenic diet lifestyle from a dietitian or nutritionist, and guidance for meal planning and preparation before starting the diet. This will provide the greatest likelihood of success, as patients often report difficulties coping with carbohydrate restriction.
“In pediatric practice, positive responders typically remain on a ketogenic diet therapy for 2 years before considering weaning. Ketogenic diet therapy in adults is not time-limited. However, a minimum of 3 months of ketogenic diet therapy is recommended before any judgment of response is made,” the panel advised.
The panel pointed out the absolute metabolic contraindications and cautions related to feeding difficulties, gastrointestinal dysfunction, and digestion remain the same for both children and adults. However, they added that a range of common adult conditions such as hyperlipidemia, heart disease, diabetes, low bone density, and pregnancy “bring additional consideration, caution, and monitoring to ketogenic diet therapy use.”
Beyond epilepsy
The guidelines also call for pre–ketogenic diet therapy biochemical studies to screen adults for preexisting abnormalities and establish a reference for comparing follow-up results after 3, 6, and 12 months, and then annually or as needed.
They also noted that metabolic studies such as urine organic acid and serum amino acid levels are generally not needed in adults unless there is a strong clinical suspicion for an underlying metabolic disorder.
Updated genetic evaluation may also be considered in adults with intellectual disability and epilepsy of unknown etiology. Serial bone mineral density scans may be obtained every 5 years.
The guidelines also call for ketone monitoring (blood beta-hydroxybutyrate or urine amino acids) during the early months of ketogenic diet therapy as an objective indication of compliance and biochemical response.
Dietary adjustments should focus on optimizing the treatment response, minimizing side effects, and maximizing sustainability.
Adults on a ketogenic diet therapy should also be advised to take multivitamin and mineral supplements and drink plenty of fluids.
The panel said emerging evidence also supports the use of ketogenic diet therapies in other adult neurologic disorders such as migraine, Parkinson’s disease, dementia, and multiple sclerosis.
However, the panel said further evidence is needed to guide recommendations on use of ketogenic diet therapies in other neurologic conditions.
The research had no targeted funding. Dr. Cervenka has reported receiving grants from Nutricia, Vitaflo, BrightFocus Foundation, and Army Research Laboratory; honoraria from the American Epilepsy Society, the Neurology Center, Epigenix, LivaNova, and Nutricia; royalties from Demos; and consulting for Nutricia, Glut1 Deficiency Foundation, and Sage Therapeutics. Disclosures for the other authors are listed in the article.
A version of this article originally appeared on Medscape.com.
Reduced cancer mortality with Medicaid expansion
Researchers reviewed data on 523,802 patients in the National Cancer Database who were diagnosed with cancer from 2012 through 2015. Slightly more than half of patients (55.2%) lived in Medicaid expansion states.
After expansion, mortality significantly decreased in expansion states (hazard ratio, 0.98; P = .008) but not in nonexpansion states (HR, 1.01; P = .43). The difference was significant in a difference-in-difference analysis (HR, 1.03; P = .01).
Across 69,000 patients with newly diagnosed cancer in Medicaid expansion states, the 2% decrease in the hazard of death would translate to 1,384 lives saved annually.
The benefit was primarily observed in patients with nonmetastatic cancer. For patients with stage I-III cancer, the risk of death was increased in nonexpansion states (HR, 1.05; P < .001) and unchanged in expansion states (HR, 0.99; P = .64). Mortality significantly improved in expansion states vs. nonexpansion states (HR, 1.05; P = .003).
For patients with stage IV cancer, both expansion and nonexpansion states had improvements in mortality, but the differences were not significant.
“Earlier stage at diagnosis appears to explain the mortality improvement,” wrote study author Miranda Lam, MD, of Harvard Medical School, Boston, and colleagues.
Clinical benefits, ‘no economic downside’
Under the Affordable Care Act, passed in 2010, states have the option of expanding Medicaid eligibility to adults with incomes at or below 138% of the federal poverty level. As of March 2020, 36 states and the District of Columbia had expanded Medicaid, with more than 20 million residents obtaining coverage.
Previous studies have associated Medicaid expansion with fewer patients being uninsured, increased cancer screening, and earlier stage of diagnosis, as well as reduced racial disparities in access to high-volume hospitals for cancer surgery and increased rates of cancer surgery among low-income patients.
“This study adds to an increasingly large body of research finding that Medicaid expansion has improved our ability to fight cancer,” said Coleman Drake, PhD, of the University of Pittsburgh, who was not involved in this study.
“Obtaining health insurance through Medicaid allows patients to receive recommended preventive cancer screenings, which explains the increase in early-stage diagnosis rates. Detecting cancer early is critical for successful cancer treatment,” Dr. Drake noted.
“It is hard to overstate the positive effects of Medicaid expansion on health outcomes. At the same time, concerns that Medicaid expansion would be costly to state governments’ budgets have not been realized. In short, Medicaid expansion yields many benefits and has no economic downside for state policymakers. Clinical and economic evidence make an overwhelming case for states to expand Medicaid,” Dr. Drake said.
Significant difference for lung cancer
Most patients in this study were women (73.6%), and the patients’ mean age was 54.8 years (range, 40-64 years). Patients had newly diagnosed breast cancer (52.2%), colorectal cancer (21.3%), and lung cancer (26.5%).
The benefits of Medicaid expansion persisted after adjustment for education, income, insurance, and race.
The lower mortality in expansion states compared with nonexpansion states was similar across all three cancer types. However, in stratified analyses, the difference was significant only for lung cancer (P = .03).
“Lung cancer has a higher mortality rate than breast and colorectal cancer, and with longer follow-up, it is possible that the lower mortality rates seen for breast and colorectal cancer may also become significant,” the authors wrote.
This research was funded by Harvard Catalyst, the Harvard Clinical and Translational Science Center, and the National Center for Advancing Translational Sciences at the National Institutes of Health. The investigators and Dr. Drake had no relevant disclosures.
SOURCE: Lam MB et al. JAMA Netw Open. 2020 Nov 2;3(11):e2024366.
Researchers reviewed data on 523,802 patients in the National Cancer Database who were diagnosed with cancer from 2012 through 2015. Slightly more than half of patients (55.2%) lived in Medicaid expansion states.
After expansion, mortality significantly decreased in expansion states (hazard ratio, 0.98; P = .008) but not in nonexpansion states (HR, 1.01; P = .43). The difference was significant in a difference-in-difference analysis (HR, 1.03; P = .01).
Across 69,000 patients with newly diagnosed cancer in Medicaid expansion states, the 2% decrease in the hazard of death would translate to 1,384 lives saved annually.
The benefit was primarily observed in patients with nonmetastatic cancer. For patients with stage I-III cancer, the risk of death was increased in nonexpansion states (HR, 1.05; P < .001) and unchanged in expansion states (HR, 0.99; P = .64). Mortality significantly improved in expansion states vs. nonexpansion states (HR, 1.05; P = .003).
For patients with stage IV cancer, both expansion and nonexpansion states had improvements in mortality, but the differences were not significant.
“Earlier stage at diagnosis appears to explain the mortality improvement,” wrote study author Miranda Lam, MD, of Harvard Medical School, Boston, and colleagues.
Clinical benefits, ‘no economic downside’
Under the Affordable Care Act, passed in 2010, states have the option of expanding Medicaid eligibility to adults with incomes at or below 138% of the federal poverty level. As of March 2020, 36 states and the District of Columbia had expanded Medicaid, with more than 20 million residents obtaining coverage.
Previous studies have associated Medicaid expansion with fewer patients being uninsured, increased cancer screening, and earlier stage of diagnosis, as well as reduced racial disparities in access to high-volume hospitals for cancer surgery and increased rates of cancer surgery among low-income patients.
“This study adds to an increasingly large body of research finding that Medicaid expansion has improved our ability to fight cancer,” said Coleman Drake, PhD, of the University of Pittsburgh, who was not involved in this study.
“Obtaining health insurance through Medicaid allows patients to receive recommended preventive cancer screenings, which explains the increase in early-stage diagnosis rates. Detecting cancer early is critical for successful cancer treatment,” Dr. Drake noted.
“It is hard to overstate the positive effects of Medicaid expansion on health outcomes. At the same time, concerns that Medicaid expansion would be costly to state governments’ budgets have not been realized. In short, Medicaid expansion yields many benefits and has no economic downside for state policymakers. Clinical and economic evidence make an overwhelming case for states to expand Medicaid,” Dr. Drake said.
Significant difference for lung cancer
Most patients in this study were women (73.6%), and the patients’ mean age was 54.8 years (range, 40-64 years). Patients had newly diagnosed breast cancer (52.2%), colorectal cancer (21.3%), and lung cancer (26.5%).
The benefits of Medicaid expansion persisted after adjustment for education, income, insurance, and race.
The lower mortality in expansion states compared with nonexpansion states was similar across all three cancer types. However, in stratified analyses, the difference was significant only for lung cancer (P = .03).
“Lung cancer has a higher mortality rate than breast and colorectal cancer, and with longer follow-up, it is possible that the lower mortality rates seen for breast and colorectal cancer may also become significant,” the authors wrote.
This research was funded by Harvard Catalyst, the Harvard Clinical and Translational Science Center, and the National Center for Advancing Translational Sciences at the National Institutes of Health. The investigators and Dr. Drake had no relevant disclosures.
SOURCE: Lam MB et al. JAMA Netw Open. 2020 Nov 2;3(11):e2024366.
Researchers reviewed data on 523,802 patients in the National Cancer Database who were diagnosed with cancer from 2012 through 2015. Slightly more than half of patients (55.2%) lived in Medicaid expansion states.
After expansion, mortality significantly decreased in expansion states (hazard ratio, 0.98; P = .008) but not in nonexpansion states (HR, 1.01; P = .43). The difference was significant in a difference-in-difference analysis (HR, 1.03; P = .01).
Across 69,000 patients with newly diagnosed cancer in Medicaid expansion states, the 2% decrease in the hazard of death would translate to 1,384 lives saved annually.
The benefit was primarily observed in patients with nonmetastatic cancer. For patients with stage I-III cancer, the risk of death was increased in nonexpansion states (HR, 1.05; P < .001) and unchanged in expansion states (HR, 0.99; P = .64). Mortality significantly improved in expansion states vs. nonexpansion states (HR, 1.05; P = .003).
For patients with stage IV cancer, both expansion and nonexpansion states had improvements in mortality, but the differences were not significant.
“Earlier stage at diagnosis appears to explain the mortality improvement,” wrote study author Miranda Lam, MD, of Harvard Medical School, Boston, and colleagues.
Clinical benefits, ‘no economic downside’
Under the Affordable Care Act, passed in 2010, states have the option of expanding Medicaid eligibility to adults with incomes at or below 138% of the federal poverty level. As of March 2020, 36 states and the District of Columbia had expanded Medicaid, with more than 20 million residents obtaining coverage.
Previous studies have associated Medicaid expansion with fewer patients being uninsured, increased cancer screening, and earlier stage of diagnosis, as well as reduced racial disparities in access to high-volume hospitals for cancer surgery and increased rates of cancer surgery among low-income patients.
“This study adds to an increasingly large body of research finding that Medicaid expansion has improved our ability to fight cancer,” said Coleman Drake, PhD, of the University of Pittsburgh, who was not involved in this study.
“Obtaining health insurance through Medicaid allows patients to receive recommended preventive cancer screenings, which explains the increase in early-stage diagnosis rates. Detecting cancer early is critical for successful cancer treatment,” Dr. Drake noted.
“It is hard to overstate the positive effects of Medicaid expansion on health outcomes. At the same time, concerns that Medicaid expansion would be costly to state governments’ budgets have not been realized. In short, Medicaid expansion yields many benefits and has no economic downside for state policymakers. Clinical and economic evidence make an overwhelming case for states to expand Medicaid,” Dr. Drake said.
Significant difference for lung cancer
Most patients in this study were women (73.6%), and the patients’ mean age was 54.8 years (range, 40-64 years). Patients had newly diagnosed breast cancer (52.2%), colorectal cancer (21.3%), and lung cancer (26.5%).
The benefits of Medicaid expansion persisted after adjustment for education, income, insurance, and race.
The lower mortality in expansion states compared with nonexpansion states was similar across all three cancer types. However, in stratified analyses, the difference was significant only for lung cancer (P = .03).
“Lung cancer has a higher mortality rate than breast and colorectal cancer, and with longer follow-up, it is possible that the lower mortality rates seen for breast and colorectal cancer may also become significant,” the authors wrote.
This research was funded by Harvard Catalyst, the Harvard Clinical and Translational Science Center, and the National Center for Advancing Translational Sciences at the National Institutes of Health. The investigators and Dr. Drake had no relevant disclosures.
SOURCE: Lam MB et al. JAMA Netw Open. 2020 Nov 2;3(11):e2024366.
FROM JAMA OPEN NETWORK
New findings on ‘exceptional responders’ to cancer therapies
An ongoing research project is studying why some patients have exceptional responses. The researchers have found particular molecular features in the tumors of about a quarter of these patients. In some cases, there are multiple rare genetic changes in the tumor genome. In other cases, the tumors are infiltrated with certain types of immune cells.
The findings were published online November 19 in Cancer Cell. They come from a genomic analysis of tumor biopsy specimens from 111 patients who were identified by the National Cancer Institute’s (NCI’s) Exceptional Responders Initiative, a national project launched in 2014.
An exceptional responder is defined as an individual who achieves a partial or complete response to a treatment that would be effective in fewer than 10% of similar patients. For exceptional response, the duration of response is at least three times longer than the usual median response time.
In this study of 111 such patients, about one quarter (24%, n = 26 patients) were found to have tumors in which there were molecular features that could potentially explain exceptional responses to treatment.
“We won’t be able to identify, in every patient, which particular drugs will be beneficial,” said Louis Staudt, MD, PhD, director of the NCI’s Center for Cancer Genomics, who co-led the study. “We are nowhere near that. But what it does say is that we have identified particular mutations, some of which we knew about in some types of cancer but can also occur less commonly in other cancer types.”
Staudt noted that these mutations can “illuminate” the path that the cancer will take — and potentially can be used to predict whether the cancer will be aggressive and will require treatment or could be managed with surveillance. This is why this research can be useful in the short term, he said.
“In the longer term, this is the kind of research that inspires future work,” he told Medscape Medical News. “That would encompass clinical trials involving drugs that target some of the pathways we found to be genetically inactivated in some of these responders.”
These results support the use of genetic testing in routine clinical care, he said.
Earlier this year, the NCI team published the results of a pilot study that affirmed the feasibility of this approach. Of the more than 100 cases that were analyzed, six were identified as involving potentially clinically actionable germline mutations.
‘Curiosity drove the research’
“We had these wonderful and gratifying experiences with our patients, so we were immediately curious how that happened, so it was pretty much that curiosity that drove a lot of this work,” said Staudt.
In the current study, Staudt and colleagues used multiple genomic methodologies to detect mutations, copy number changes, aberrant methylation, outlier gene expression, and the cellular makeup of the tumor microenvironment.
The hypothesized mechanisms for exceptional responses were broadly divided into the following four categories: DNA damage response (n = 15), intracellular signaling pathway (n = 9), prognostic genetics (n = 9), and immunologic engagement (n = 16). For many patients, two or more of these mechanisms were involved.
The authors note that the “predominance of plausible DNA damage response mechanisms parallels the frequent use of cytotoxic chemotherapy in routine cancer treatment reflected in this cohort.”
Twenty-six patients were identified as exceptional responders. Among these patients, a variety of cancer types was represented: brain (8); gastrointestinal tract (6); breast (4); cholangiocarcinoma (2); lung (2); pancreas, endometrium, ovarian, and bladder (1 each). Many of these patients (65%, n = 17) were treated with chemotherapy that included DNA-damaging agents. For more than half (54%, n = 14), targeted therapies were used, and some patients received both.
The authors highlight several patients as examples of exceptional responders:
- One patient with glioblastoma multiforme (GBM) was treated sequentially with surgery, localized carmustine, and radiotherapy. When the cancer recurred, temozolomide was administered. This induced a complete response that has lasted for more than a decade.
- A patient with metastatic colon adenocarcinoma has had an ongoing and nearly complete response that has lasted 45 months (last follow-up) after receiving temozolomide in combination with the investigational drug TRC102 (methoxyamine, under development by Tracon) in a phase 1 clinical trial. TRC102 is an inhibitor of the DNA base excision repair pathway, which is a pathway that causes resistance to alkylating and antimetabolite chemotherapeutics.
- A patient with metastatic, estrogen receptor–positive breast cancer received trastuzumab because of a high-level ERBB2 amplification, together with anastrozole. This resulted in an ongoing 2.4-year partial response.
- Although the patient was clinically HER2 positive, her tumor had exceedingly low expression of ERBB2 mRNA. Molecular profiling had classified the tumor as of the basal-like subtype rather than the HER2-enriched subtype. This meant that it was unlikely that trastuzumab contributed to the exceptional response, the authors note. Because the patient was estrogen-receptor positive, she received anastrozole, an inhibitor of aromatase (CYP19A), which converts testosterone into estradiol.
- A patient who had a gastrointestinal stromal tumor with a deletion of KIT exon 11 experienced relapse after an initial response to imatinib, which targets KIT and other tyrosine kinases, but then achieved a complete response with sunitinib. Gene expression profiling revealed high expression not only of KIT but also of genes encoding several tyrosine kinases that are targeted by sunitinib (KDR, FLT1, and FLT3). This may have accounted for the patient’s response.
Favorable genomic characteristics
The authors defined a “prognostic genetics” category of tumors, characterized by genetic lesions that are now known to be associated with a favorable prognosis but that were not addressed through routine care that these patients received when they were first diagnosed. Although the patients experienced relapse after first-line treatment, their exceptional survival after salvage therapy could be linked to favorable genomic characteristics.
For example, several of the patients with high-grade GBMs and astrocytomas had genetic lesions that are generally more common in low-grade glioma and that have been associated with an indolent clinical course following standard therapy.
The authors also assessed immune response. Examining immune cell infiltration in responder tumors in comparison with control cases, the team found that signatures of B cells and activated (CD56dim) natural killer cells were higher in exceptional-responder tumors.
In one patient with metastatic urothelial cancer who experienced disease progression after chemotherapy, radiotherapy, and surgery, treatment with nivolumab produced a complete response that lasted 7 months. Such an outcome occurs in only about 3% of bladder cancer patients. The tumor expressed high mRNA levels of PDCD1, which encodes the nivolumab target PD-1, and CD274, which encodes the PD-1 ligand PD-L1. There was also a high level of amplification of IFNG, which encodes interferon-gamma, a cytokine that has been linked to favorable response to immune checkpoint blockade.
Moving to precision medicine
“It is very valuable to be tested up front and again when the disease progresses, because there may have been some genetic changes, and this may change the treatment,” said co–lead author S. Percy Ivy, MD, of the NCI’s Division of Cancer Treatment and Diagnosis.
“The goal of this study was to understand what was unique about these patients and their genetic makeup that led them to be classified as exceptional responders, and hopefully we will be able to tease that out,” she added.
“As researchers, we have a lot to learn from these patients, and they have a lot to teach us,” she added. “In the future, they will help us as we move closer to the goal of delivering precision oncology to all of our patients. We’re not there yet, but every time we study more deeply and learn more, we are able to provide better care.”
To encourage participation in this effort by investigators around the world, the NCI team and their colleagues have made their molecular profiling results and clinical information publicly available in the NCI Genomic Data Commons.
The study was supported by the NCI’s Intramural Research Program, the National Institutes of Health, the Center for Cancer Research, and the NCI’s Center for Cancer Genomics. Staudt and Ivy have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
An ongoing research project is studying why some patients have exceptional responses. The researchers have found particular molecular features in the tumors of about a quarter of these patients. In some cases, there are multiple rare genetic changes in the tumor genome. In other cases, the tumors are infiltrated with certain types of immune cells.
The findings were published online November 19 in Cancer Cell. They come from a genomic analysis of tumor biopsy specimens from 111 patients who were identified by the National Cancer Institute’s (NCI’s) Exceptional Responders Initiative, a national project launched in 2014.
An exceptional responder is defined as an individual who achieves a partial or complete response to a treatment that would be effective in fewer than 10% of similar patients. For exceptional response, the duration of response is at least three times longer than the usual median response time.
In this study of 111 such patients, about one quarter (24%, n = 26 patients) were found to have tumors in which there were molecular features that could potentially explain exceptional responses to treatment.
“We won’t be able to identify, in every patient, which particular drugs will be beneficial,” said Louis Staudt, MD, PhD, director of the NCI’s Center for Cancer Genomics, who co-led the study. “We are nowhere near that. But what it does say is that we have identified particular mutations, some of which we knew about in some types of cancer but can also occur less commonly in other cancer types.”
Staudt noted that these mutations can “illuminate” the path that the cancer will take — and potentially can be used to predict whether the cancer will be aggressive and will require treatment or could be managed with surveillance. This is why this research can be useful in the short term, he said.
“In the longer term, this is the kind of research that inspires future work,” he told Medscape Medical News. “That would encompass clinical trials involving drugs that target some of the pathways we found to be genetically inactivated in some of these responders.”
These results support the use of genetic testing in routine clinical care, he said.
Earlier this year, the NCI team published the results of a pilot study that affirmed the feasibility of this approach. Of the more than 100 cases that were analyzed, six were identified as involving potentially clinically actionable germline mutations.
‘Curiosity drove the research’
“We had these wonderful and gratifying experiences with our patients, so we were immediately curious how that happened, so it was pretty much that curiosity that drove a lot of this work,” said Staudt.
In the current study, Staudt and colleagues used multiple genomic methodologies to detect mutations, copy number changes, aberrant methylation, outlier gene expression, and the cellular makeup of the tumor microenvironment.
The hypothesized mechanisms for exceptional responses were broadly divided into the following four categories: DNA damage response (n = 15), intracellular signaling pathway (n = 9), prognostic genetics (n = 9), and immunologic engagement (n = 16). For many patients, two or more of these mechanisms were involved.
The authors note that the “predominance of plausible DNA damage response mechanisms parallels the frequent use of cytotoxic chemotherapy in routine cancer treatment reflected in this cohort.”
Twenty-six patients were identified as exceptional responders. Among these patients, a variety of cancer types was represented: brain (8); gastrointestinal tract (6); breast (4); cholangiocarcinoma (2); lung (2); pancreas, endometrium, ovarian, and bladder (1 each). Many of these patients (65%, n = 17) were treated with chemotherapy that included DNA-damaging agents. For more than half (54%, n = 14), targeted therapies were used, and some patients received both.
The authors highlight several patients as examples of exceptional responders:
- One patient with glioblastoma multiforme (GBM) was treated sequentially with surgery, localized carmustine, and radiotherapy. When the cancer recurred, temozolomide was administered. This induced a complete response that has lasted for more than a decade.
- A patient with metastatic colon adenocarcinoma has had an ongoing and nearly complete response that has lasted 45 months (last follow-up) after receiving temozolomide in combination with the investigational drug TRC102 (methoxyamine, under development by Tracon) in a phase 1 clinical trial. TRC102 is an inhibitor of the DNA base excision repair pathway, which is a pathway that causes resistance to alkylating and antimetabolite chemotherapeutics.
- A patient with metastatic, estrogen receptor–positive breast cancer received trastuzumab because of a high-level ERBB2 amplification, together with anastrozole. This resulted in an ongoing 2.4-year partial response.
- Although the patient was clinically HER2 positive, her tumor had exceedingly low expression of ERBB2 mRNA. Molecular profiling had classified the tumor as of the basal-like subtype rather than the HER2-enriched subtype. This meant that it was unlikely that trastuzumab contributed to the exceptional response, the authors note. Because the patient was estrogen-receptor positive, she received anastrozole, an inhibitor of aromatase (CYP19A), which converts testosterone into estradiol.
- A patient who had a gastrointestinal stromal tumor with a deletion of KIT exon 11 experienced relapse after an initial response to imatinib, which targets KIT and other tyrosine kinases, but then achieved a complete response with sunitinib. Gene expression profiling revealed high expression not only of KIT but also of genes encoding several tyrosine kinases that are targeted by sunitinib (KDR, FLT1, and FLT3). This may have accounted for the patient’s response.
Favorable genomic characteristics
The authors defined a “prognostic genetics” category of tumors, characterized by genetic lesions that are now known to be associated with a favorable prognosis but that were not addressed through routine care that these patients received when they were first diagnosed. Although the patients experienced relapse after first-line treatment, their exceptional survival after salvage therapy could be linked to favorable genomic characteristics.
For example, several of the patients with high-grade GBMs and astrocytomas had genetic lesions that are generally more common in low-grade glioma and that have been associated with an indolent clinical course following standard therapy.
The authors also assessed immune response. Examining immune cell infiltration in responder tumors in comparison with control cases, the team found that signatures of B cells and activated (CD56dim) natural killer cells were higher in exceptional-responder tumors.
In one patient with metastatic urothelial cancer who experienced disease progression after chemotherapy, radiotherapy, and surgery, treatment with nivolumab produced a complete response that lasted 7 months. Such an outcome occurs in only about 3% of bladder cancer patients. The tumor expressed high mRNA levels of PDCD1, which encodes the nivolumab target PD-1, and CD274, which encodes the PD-1 ligand PD-L1. There was also a high level of amplification of IFNG, which encodes interferon-gamma, a cytokine that has been linked to favorable response to immune checkpoint blockade.
Moving to precision medicine
“It is very valuable to be tested up front and again when the disease progresses, because there may have been some genetic changes, and this may change the treatment,” said co–lead author S. Percy Ivy, MD, of the NCI’s Division of Cancer Treatment and Diagnosis.
“The goal of this study was to understand what was unique about these patients and their genetic makeup that led them to be classified as exceptional responders, and hopefully we will be able to tease that out,” she added.
“As researchers, we have a lot to learn from these patients, and they have a lot to teach us,” she added. “In the future, they will help us as we move closer to the goal of delivering precision oncology to all of our patients. We’re not there yet, but every time we study more deeply and learn more, we are able to provide better care.”
To encourage participation in this effort by investigators around the world, the NCI team and their colleagues have made their molecular profiling results and clinical information publicly available in the NCI Genomic Data Commons.
The study was supported by the NCI’s Intramural Research Program, the National Institutes of Health, the Center for Cancer Research, and the NCI’s Center for Cancer Genomics. Staudt and Ivy have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.
An ongoing research project is studying why some patients have exceptional responses. The researchers have found particular molecular features in the tumors of about a quarter of these patients. In some cases, there are multiple rare genetic changes in the tumor genome. In other cases, the tumors are infiltrated with certain types of immune cells.
The findings were published online November 19 in Cancer Cell. They come from a genomic analysis of tumor biopsy specimens from 111 patients who were identified by the National Cancer Institute’s (NCI’s) Exceptional Responders Initiative, a national project launched in 2014.
An exceptional responder is defined as an individual who achieves a partial or complete response to a treatment that would be effective in fewer than 10% of similar patients. For exceptional response, the duration of response is at least three times longer than the usual median response time.
In this study of 111 such patients, about one quarter (24%, n = 26 patients) were found to have tumors in which there were molecular features that could potentially explain exceptional responses to treatment.
“We won’t be able to identify, in every patient, which particular drugs will be beneficial,” said Louis Staudt, MD, PhD, director of the NCI’s Center for Cancer Genomics, who co-led the study. “We are nowhere near that. But what it does say is that we have identified particular mutations, some of which we knew about in some types of cancer but can also occur less commonly in other cancer types.”
Staudt noted that these mutations can “illuminate” the path that the cancer will take — and potentially can be used to predict whether the cancer will be aggressive and will require treatment or could be managed with surveillance. This is why this research can be useful in the short term, he said.
“In the longer term, this is the kind of research that inspires future work,” he told Medscape Medical News. “That would encompass clinical trials involving drugs that target some of the pathways we found to be genetically inactivated in some of these responders.”
These results support the use of genetic testing in routine clinical care, he said.
Earlier this year, the NCI team published the results of a pilot study that affirmed the feasibility of this approach. Of the more than 100 cases that were analyzed, six were identified as involving potentially clinically actionable germline mutations.
‘Curiosity drove the research’
“We had these wonderful and gratifying experiences with our patients, so we were immediately curious how that happened, so it was pretty much that curiosity that drove a lot of this work,” said Staudt.
In the current study, Staudt and colleagues used multiple genomic methodologies to detect mutations, copy number changes, aberrant methylation, outlier gene expression, and the cellular makeup of the tumor microenvironment.
The hypothesized mechanisms for exceptional responses were broadly divided into the following four categories: DNA damage response (n = 15), intracellular signaling pathway (n = 9), prognostic genetics (n = 9), and immunologic engagement (n = 16). For many patients, two or more of these mechanisms were involved.
The authors note that the “predominance of plausible DNA damage response mechanisms parallels the frequent use of cytotoxic chemotherapy in routine cancer treatment reflected in this cohort.”
Twenty-six patients were identified as exceptional responders. Among these patients, a variety of cancer types was represented: brain (8); gastrointestinal tract (6); breast (4); cholangiocarcinoma (2); lung (2); pancreas, endometrium, ovarian, and bladder (1 each). Many of these patients (65%, n = 17) were treated with chemotherapy that included DNA-damaging agents. For more than half (54%, n = 14), targeted therapies were used, and some patients received both.
The authors highlight several patients as examples of exceptional responders:
- One patient with glioblastoma multiforme (GBM) was treated sequentially with surgery, localized carmustine, and radiotherapy. When the cancer recurred, temozolomide was administered. This induced a complete response that has lasted for more than a decade.
- A patient with metastatic colon adenocarcinoma has had an ongoing and nearly complete response that has lasted 45 months (last follow-up) after receiving temozolomide in combination with the investigational drug TRC102 (methoxyamine, under development by Tracon) in a phase 1 clinical trial. TRC102 is an inhibitor of the DNA base excision repair pathway, which is a pathway that causes resistance to alkylating and antimetabolite chemotherapeutics.
- A patient with metastatic, estrogen receptor–positive breast cancer received trastuzumab because of a high-level ERBB2 amplification, together with anastrozole. This resulted in an ongoing 2.4-year partial response.
- Although the patient was clinically HER2 positive, her tumor had exceedingly low expression of ERBB2 mRNA. Molecular profiling had classified the tumor as of the basal-like subtype rather than the HER2-enriched subtype. This meant that it was unlikely that trastuzumab contributed to the exceptional response, the authors note. Because the patient was estrogen-receptor positive, she received anastrozole, an inhibitor of aromatase (CYP19A), which converts testosterone into estradiol.
- A patient who had a gastrointestinal stromal tumor with a deletion of KIT exon 11 experienced relapse after an initial response to imatinib, which targets KIT and other tyrosine kinases, but then achieved a complete response with sunitinib. Gene expression profiling revealed high expression not only of KIT but also of genes encoding several tyrosine kinases that are targeted by sunitinib (KDR, FLT1, and FLT3). This may have accounted for the patient’s response.
Favorable genomic characteristics
The authors defined a “prognostic genetics” category of tumors, characterized by genetic lesions that are now known to be associated with a favorable prognosis but that were not addressed through routine care that these patients received when they were first diagnosed. Although the patients experienced relapse after first-line treatment, their exceptional survival after salvage therapy could be linked to favorable genomic characteristics.
For example, several of the patients with high-grade GBMs and astrocytomas had genetic lesions that are generally more common in low-grade glioma and that have been associated with an indolent clinical course following standard therapy.
The authors also assessed immune response. Examining immune cell infiltration in responder tumors in comparison with control cases, the team found that signatures of B cells and activated (CD56dim) natural killer cells were higher in exceptional-responder tumors.
In one patient with metastatic urothelial cancer who experienced disease progression after chemotherapy, radiotherapy, and surgery, treatment with nivolumab produced a complete response that lasted 7 months. Such an outcome occurs in only about 3% of bladder cancer patients. The tumor expressed high mRNA levels of PDCD1, which encodes the nivolumab target PD-1, and CD274, which encodes the PD-1 ligand PD-L1. There was also a high level of amplification of IFNG, which encodes interferon-gamma, a cytokine that has been linked to favorable response to immune checkpoint blockade.
Moving to precision medicine
“It is very valuable to be tested up front and again when the disease progresses, because there may have been some genetic changes, and this may change the treatment,” said co–lead author S. Percy Ivy, MD, of the NCI’s Division of Cancer Treatment and Diagnosis.
“The goal of this study was to understand what was unique about these patients and their genetic makeup that led them to be classified as exceptional responders, and hopefully we will be able to tease that out,” she added.
“As researchers, we have a lot to learn from these patients, and they have a lot to teach us,” she added. “In the future, they will help us as we move closer to the goal of delivering precision oncology to all of our patients. We’re not there yet, but every time we study more deeply and learn more, we are able to provide better care.”
To encourage participation in this effort by investigators around the world, the NCI team and their colleagues have made their molecular profiling results and clinical information publicly available in the NCI Genomic Data Commons.
The study was supported by the NCI’s Intramural Research Program, the National Institutes of Health, the Center for Cancer Research, and the NCI’s Center for Cancer Genomics. Staudt and Ivy have disclosed no relevant financial relationships.
This article first appeared on Medscape.com.