Does adherence to a Mediterranean diet reduce the risk of Parkinson’s disease? ‘Telereferrals’ improved mental health referral follow-through for children. How to take action to cut cardiovascular disease risk in rheumatoid patients. And the U.S. Preventive Services Task Force recommends counseling for perinatal depression prevention.
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Does adherence to a Mediterranean diet reduce the risk of Parkinson’s disease? ‘Telereferrals’ improved mental health referral follow-through for children. How to take action to cut cardiovascular disease risk in rheumatoid patients. And the U.S. Preventive Services Task Force recommends counseling for perinatal depression prevention.
Amazon Alexa
Apple Podcasts
Google Podcasts
Spotify

Does adherence to a Mediterranean diet reduce the risk of Parkinson’s disease? ‘Telereferrals’ improved mental health referral follow-through for children. How to take action to cut cardiovascular disease risk in rheumatoid patients. And the U.S. Preventive Services Task Force recommends counseling for perinatal depression prevention.
Amazon Alexa
Apple Podcasts
Google Podcasts
Spotify

LAS VEGAS – Umbilical cord milking can cause severe intraventricular hemorrhage (IVH) in very premature neonates and should not be performed on these cerebrovascularly fragile premature babies.

Michele G. Sullivan/MDedge News

Just six of these procedures would be needed to cause a case of severe IVH in neonates born at 23-27 weeks’ gestation, Michael W. Varner, MD, said at the meeting sponsored by the Society for Maternal-Fetal Medicine.

“Centers practicing umbilical cord milking should consider discontinuing this practice in infants 23-27 weeks’ gestation,” said Dr. Varner of the University of Utah, Salt Lake City.

The damage to the brains of very young preemies appears to be a direct result of the fluid overload caused by milking, he said. “From a mechanistic perspective, we can intuit that these findings are consistent with cord milking. This causes increasing venous return to the right atrium where it enters the foramen ovale and aorta. These very premature babies have more pulmonary vasoconstriction, which shunts more blood toward the brain. This results in fluctuations in flow in an immature brain with fragile germinal matrices and perhaps further compromised by chorioamnionitis inflammation, resulting in IVH.”

Premature Infants Receiving Milking or Delayed Cord Clamping (PREMOD2) was a noninferiority trial of umbilical cord milking compared to delayed cord clamping and cutting in preterm infants. Conducted at 11 sites in the United States and Europe, the study was halted prematurely when the data safety monitoring board determined that cord milking increased the risk of IVH in younger preemies and was no better than delayed cutting in the older preemies. The analysis presented at the meeting is the first public discussion of the data details.

The trial involved 474 premature neonates. They were randomized to placental transfusion via a 60-second delay in cord clamping and cutting or to umbilical cord milking, which involved grasping the cord and manually pushing the cord blood toward the infant four times before clamping. All participating sites received a video demonstrating the proper procedure. The cohort also was divided by gestational age: 23-27 weeks and 28-31 weeks.

SOURCE: Katheria AC et al. The Pregnancy Meeting, late breaking abstract 1.

LAS VEGAS – Umbilical cord milking can cause severe intraventricular hemorrhage (IVH) in very premature neonates and should not be performed on these cerebrovascularly fragile premature babies.

Michele G. Sullivan/MDedge News

Just six of these procedures would be needed to cause a case of severe IVH in neonates born at 23-27 weeks’ gestation, Michael W. Varner, MD, said at the meeting sponsored by the Society for Maternal-Fetal Medicine.

“Centers practicing umbilical cord milking should consider discontinuing this practice in infants 23-27 weeks’ gestation,” said Dr. Varner of the University of Utah, Salt Lake City.

The damage to the brains of very young preemies appears to be a direct result of the fluid overload caused by milking, he said. “From a mechanistic perspective, we can intuit that these findings are consistent with cord milking. This causes increasing venous return to the right atrium where it enters the foramen ovale and aorta. These very premature babies have more pulmonary vasoconstriction, which shunts more blood toward the brain. This results in fluctuations in flow in an immature brain with fragile germinal matrices and perhaps further compromised by chorioamnionitis inflammation, resulting in IVH.”

Premature Infants Receiving Milking or Delayed Cord Clamping (PREMOD2) was a noninferiority trial of umbilical cord milking compared to delayed cord clamping and cutting in preterm infants. Conducted at 11 sites in the United States and Europe, the study was halted prematurely when the data safety monitoring board determined that cord milking increased the risk of IVH in younger preemies and was no better than delayed cutting in the older preemies. The analysis presented at the meeting is the first public discussion of the data details.

The trial involved 474 premature neonates. They were randomized to placental transfusion via a 60-second delay in cord clamping and cutting or to umbilical cord milking, which involved grasping the cord and manually pushing the cord blood toward the infant four times before clamping. All participating sites received a video demonstrating the proper procedure. The cohort also was divided by gestational age: 23-27 weeks and 28-31 weeks.

SOURCE: Katheria AC et al. The Pregnancy Meeting, late breaking abstract 1.

LAS VEGAS – Umbilical cord milking can cause severe intraventricular hemorrhage (IVH) in very premature neonates and should not be performed on these cerebrovascularly fragile premature babies.

Michele G. Sullivan/MDedge News

Just six of these procedures would be needed to cause a case of severe IVH in neonates born at 23-27 weeks’ gestation, Michael W. Varner, MD, said at the meeting sponsored by the Society for Maternal-Fetal Medicine.

“Centers practicing umbilical cord milking should consider discontinuing this practice in infants 23-27 weeks’ gestation,” said Dr. Varner of the University of Utah, Salt Lake City.

The damage to the brains of very young preemies appears to be a direct result of the fluid overload caused by milking, he said. “From a mechanistic perspective, we can intuit that these findings are consistent with cord milking. This causes increasing venous return to the right atrium where it enters the foramen ovale and aorta. These very premature babies have more pulmonary vasoconstriction, which shunts more blood toward the brain. This results in fluctuations in flow in an immature brain with fragile germinal matrices and perhaps further compromised by chorioamnionitis inflammation, resulting in IVH.”

Premature Infants Receiving Milking or Delayed Cord Clamping (PREMOD2) was a noninferiority trial of umbilical cord milking compared to delayed cord clamping and cutting in preterm infants. Conducted at 11 sites in the United States and Europe, the study was halted prematurely when the data safety monitoring board determined that cord milking increased the risk of IVH in younger preemies and was no better than delayed cutting in the older preemies. The analysis presented at the meeting is the first public discussion of the data details.

The trial involved 474 premature neonates. They were randomized to placental transfusion via a 60-second delay in cord clamping and cutting or to umbilical cord milking, which involved grasping the cord and manually pushing the cord blood toward the infant four times before clamping. All participating sites received a video demonstrating the proper procedure. The cohort also was divided by gestational age: 23-27 weeks and 28-31 weeks.

SOURCE: Katheria AC et al. The Pregnancy Meeting, late breaking abstract 1.

Researchers say they have characterized a subtype of diffuse large B-cell lymphoma (DLBCL) with distinct molecular features and poor prognosis.

Patients with this subtype, dubbed “molecular high-grade” (MHG) DLBCL, were more likely to have germinal center B-cell-like (GCB) DLBCL, MYC rearrangements, and double-hit lymphoma.

When compared to other DLBCL patients, those with MHG DLBCL had inferior progression-free and overall survival.

Chulin Sha, PhD, of the University of Leeds (England), and colleagues reported these findings in the Journal of Clinical Oncology. The findings were published alongside a related editorial and a similar study from another group.

Dr. Sha and colleagues began their study by applying a previously developed gene expression classifier (Genome Med. 2015 Jul 1;7[1]:64) to 928 DLBCL patients enrolled in the REMoDL-B trial. REMoDL-B was designed to compare rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisolone (R-CHOP) to R-CHOP plus bortezomib (Hematol Oncol. 2017;35:130-1).

Dr. Sha and colleagues looked for somatic mutations in 400 REMoDL-B patient samples that were sequenced for a 70-gene panel.

The team also tested 360 samples for MYC, BCL2, and BCL6 chromosomal rearrangements using fluorescent in situ hybridization, and they tested 355 samples for MYC and BCL2 protein expression with immunohistochemistry.

Characteristics of MHG DLBCL

The researchers identified 83 REMoDL-B patients as having MHG DLBCL (9%). Most of the MHG patients had GCB DLBCL (90%), 48.6% had MYC rearrangements, and 36.1% had double-hit lymphoma.

Patients with MHG DLBCL had higher International Prognostic Index scores (P = .004), greater tumor bulk (P = .007), higher disease stage (P = .06), and higher lactate dehydrogenase levels (P less than .001) than patients with non-MHG DLBCL.

Although most MHG patients had GCB DLBCL, the researchers found key differences between patients with MHG DLBCL and non-MHG GCB DLBCL. MHG patients were significantly more likely than patients with non-MHG GCB DLBCL to have mutations in KMT2D, BCL2, MYC, and DDX3X. Additionally, some genes frequently mutated in GCB DLBCL — such as B2M, SGK1, and NFKBIA — were rare in MHG DLBCL.

Dr. Sha and colleagues also compared the MHG patients to 70 patients with Burkitt lymphoma (BL) who had been analyzed in a previous study (Genome Med. 2015 Jul 1;7[1]:64).

The researchers found that BL has more upregulated genes than GCB (2,483 genes) and MHG DLBCL (1,784 genes), and MHG DLBCL has more upregulated genes than GCB DLBCL (382 genes). The team observed a similar pattern with downregulated genes and said this suggests “MHG is an intermediate group but closer to GCB than to BL.”

• 37% for MHG patients
• 78% for patients with GCB DLBCL
• 64% for patients with activated B-cell like (ABC) DLBCL
• 65% for patients with unclassified DLBCL.

Among patients who received bortezomib plus R-CHOP, there was a trend toward improved PFS for patients with MHG DLBCL (58%; P = .08).

Validation cohort

Dr. Sha and colleagues validated their initial findings using RNA sequencing data from another group of DLBCL patients (Cell. 2017 Oct 5;171[2]:481-94.e15). This data set included 624 patients who received rituximab-based therapy.

Seventy-two patients in this group had MHG DLBCL (11.5%), and most MHG patients had GCB DLBCL (82%).

The researchers said the MHG group in this cohort “showed similar associations with clinical variables” and a “similar mutation spectrum” as the MHG group in the REMoDL-B cohort. Additionally, MHG patients in the validation cohort had inferior overall survival (P less than .001) compared to patients with non-MHG GCB DLBCL.

Dr. Sha and colleagues said the poor prognosis in MHG patients in both cohorts suggests a need for different treatment approaches in this group.

In the related editorial, Wing C. Chan, MD, of City of Hope Medical Center in Duarte, Calif., echoed that sentiment and said it will be important to include patients with high-risk DLBCL in clinical trials.

“Their tumors should be comprehensively characterize[d] for correlative analysis to determine the molecular lesions that underlie their biology and response to treatment,” Dr. Chan wrote.

Dr. Chan disclosed a patent for a diagnostic algorithm on GCB/ABC-type DLBCL and a patent on a diagnostic algorithm for peripheral T-cell lymphoma.

Dr. Sha and colleagues disclosed relationships with a range of pharmaceutical companies. The team’s research was supported by a grant from Bloodwise.

The REMoDL-B trial was endorsed by Cancer Research UK and was funded by Janssen-Cillag.

[email protected]

SOURCES: Sha C et al. J Clin Oncol. 2019 Jan 20;37(3):202-12. doi: 10.1200/JCO.18.01314; Chan WC. J Clin Oncol. 2019 Jan 20;37(3):175-7. doi: 10.1200/JCO.18.01910; Ennishi D et al. J Clin Oncol. 2019 Jan 20;37(3):190-201. doi: 10.1200/JCO.18.01583

Researchers say they have characterized a subtype of diffuse large B-cell lymphoma (DLBCL) with distinct molecular features and poor prognosis.

Patients with this subtype, dubbed “molecular high-grade” (MHG) DLBCL, were more likely to have germinal center B-cell-like (GCB) DLBCL, MYC rearrangements, and double-hit lymphoma.

When compared to other DLBCL patients, those with MHG DLBCL had inferior progression-free and overall survival.

Chulin Sha, PhD, of the University of Leeds (England), and colleagues reported these findings in the Journal of Clinical Oncology. The findings were published alongside a related editorial and a similar study from another group.

Dr. Sha and colleagues began their study by applying a previously developed gene expression classifier (Genome Med. 2015 Jul 1;7[1]:64) to 928 DLBCL patients enrolled in the REMoDL-B trial. REMoDL-B was designed to compare rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisolone (R-CHOP) to R-CHOP plus bortezomib (Hematol Oncol. 2017;35:130-1).

Dr. Sha and colleagues looked for somatic mutations in 400 REMoDL-B patient samples that were sequenced for a 70-gene panel.

The team also tested 360 samples for MYC, BCL2, and BCL6 chromosomal rearrangements using fluorescent in situ hybridization, and they tested 355 samples for MYC and BCL2 protein expression with immunohistochemistry.

Characteristics of MHG DLBCL

The researchers identified 83 REMoDL-B patients as having MHG DLBCL (9%). Most of the MHG patients had GCB DLBCL (90%), 48.6% had MYC rearrangements, and 36.1% had double-hit lymphoma.

Patients with MHG DLBCL had higher International Prognostic Index scores (P = .004), greater tumor bulk (P = .007), higher disease stage (P = .06), and higher lactate dehydrogenase levels (P less than .001) than patients with non-MHG DLBCL.

Although most MHG patients had GCB DLBCL, the researchers found key differences between patients with MHG DLBCL and non-MHG GCB DLBCL. MHG patients were significantly more likely than patients with non-MHG GCB DLBCL to have mutations in KMT2D, BCL2, MYC, and DDX3X. Additionally, some genes frequently mutated in GCB DLBCL — such as B2M, SGK1, and NFKBIA — were rare in MHG DLBCL.

Dr. Sha and colleagues also compared the MHG patients to 70 patients with Burkitt lymphoma (BL) who had been analyzed in a previous study (Genome Med. 2015 Jul 1;7[1]:64).

The researchers found that BL has more upregulated genes than GCB (2,483 genes) and MHG DLBCL (1,784 genes), and MHG DLBCL has more upregulated genes than GCB DLBCL (382 genes). The team observed a similar pattern with downregulated genes and said this suggests “MHG is an intermediate group but closer to GCB than to BL.”

• 37% for MHG patients
• 78% for patients with GCB DLBCL
• 64% for patients with activated B-cell like (ABC) DLBCL
• 65% for patients with unclassified DLBCL.

Among patients who received bortezomib plus R-CHOP, there was a trend toward improved PFS for patients with MHG DLBCL (58%; P = .08).

Validation cohort

Dr. Sha and colleagues validated their initial findings using RNA sequencing data from another group of DLBCL patients (Cell. 2017 Oct 5;171[2]:481-94.e15). This data set included 624 patients who received rituximab-based therapy.

Seventy-two patients in this group had MHG DLBCL (11.5%), and most MHG patients had GCB DLBCL (82%).

The researchers said the MHG group in this cohort “showed similar associations with clinical variables” and a “similar mutation spectrum” as the MHG group in the REMoDL-B cohort. Additionally, MHG patients in the validation cohort had inferior overall survival (P less than .001) compared to patients with non-MHG GCB DLBCL.

Dr. Sha and colleagues said the poor prognosis in MHG patients in both cohorts suggests a need for different treatment approaches in this group.

In the related editorial, Wing C. Chan, MD, of City of Hope Medical Center in Duarte, Calif., echoed that sentiment and said it will be important to include patients with high-risk DLBCL in clinical trials.

“Their tumors should be comprehensively characterize[d] for correlative analysis to determine the molecular lesions that underlie their biology and response to treatment,” Dr. Chan wrote.

Dr. Chan disclosed a patent for a diagnostic algorithm on GCB/ABC-type DLBCL and a patent on a diagnostic algorithm for peripheral T-cell lymphoma.

Dr. Sha and colleagues disclosed relationships with a range of pharmaceutical companies. The team’s research was supported by a grant from Bloodwise.

The REMoDL-B trial was endorsed by Cancer Research UK and was funded by Janssen-Cillag.

[email protected]

SOURCES: Sha C et al. J Clin Oncol. 2019 Jan 20;37(3):202-12. doi: 10.1200/JCO.18.01314; Chan WC. J Clin Oncol. 2019 Jan 20;37(3):175-7. doi: 10.1200/JCO.18.01910; Ennishi D et al. J Clin Oncol. 2019 Jan 20;37(3):190-201. doi: 10.1200/JCO.18.01583

Researchers say they have characterized a subtype of diffuse large B-cell lymphoma (DLBCL) with distinct molecular features and poor prognosis.

Patients with this subtype, dubbed “molecular high-grade” (MHG) DLBCL, were more likely to have germinal center B-cell-like (GCB) DLBCL, MYC rearrangements, and double-hit lymphoma.

When compared to other DLBCL patients, those with MHG DLBCL had inferior progression-free and overall survival.

Chulin Sha, PhD, of the University of Leeds (England), and colleagues reported these findings in the Journal of Clinical Oncology. The findings were published alongside a related editorial and a similar study from another group.

Dr. Sha and colleagues began their study by applying a previously developed gene expression classifier (Genome Med. 2015 Jul 1;7[1]:64) to 928 DLBCL patients enrolled in the REMoDL-B trial. REMoDL-B was designed to compare rituximab, cyclophosphamide, doxorubicin, vincristine, and prednisolone (R-CHOP) to R-CHOP plus bortezomib (Hematol Oncol. 2017;35:130-1).

Dr. Sha and colleagues looked for somatic mutations in 400 REMoDL-B patient samples that were sequenced for a 70-gene panel.

The team also tested 360 samples for MYC, BCL2, and BCL6 chromosomal rearrangements using fluorescent in situ hybridization, and they tested 355 samples for MYC and BCL2 protein expression with immunohistochemistry.

Characteristics of MHG DLBCL

The researchers identified 83 REMoDL-B patients as having MHG DLBCL (9%). Most of the MHG patients had GCB DLBCL (90%), 48.6% had MYC rearrangements, and 36.1% had double-hit lymphoma.

Patients with MHG DLBCL had higher International Prognostic Index scores (P = .004), greater tumor bulk (P = .007), higher disease stage (P = .06), and higher lactate dehydrogenase levels (P less than .001) than patients with non-MHG DLBCL.

Although most MHG patients had GCB DLBCL, the researchers found key differences between patients with MHG DLBCL and non-MHG GCB DLBCL. MHG patients were significantly more likely than patients with non-MHG GCB DLBCL to have mutations in KMT2D, BCL2, MYC, and DDX3X. Additionally, some genes frequently mutated in GCB DLBCL — such as B2M, SGK1, and NFKBIA — were rare in MHG DLBCL.

Dr. Sha and colleagues also compared the MHG patients to 70 patients with Burkitt lymphoma (BL) who had been analyzed in a previous study (Genome Med. 2015 Jul 1;7[1]:64).

The researchers found that BL has more upregulated genes than GCB (2,483 genes) and MHG DLBCL (1,784 genes), and MHG DLBCL has more upregulated genes than GCB DLBCL (382 genes). The team observed a similar pattern with downregulated genes and said this suggests “MHG is an intermediate group but closer to GCB than to BL.”

• 37% for MHG patients
• 78% for patients with GCB DLBCL
• 64% for patients with activated B-cell like (ABC) DLBCL
• 65% for patients with unclassified DLBCL.

Among patients who received bortezomib plus R-CHOP, there was a trend toward improved PFS for patients with MHG DLBCL (58%; P = .08).

Validation cohort

Dr. Sha and colleagues validated their initial findings using RNA sequencing data from another group of DLBCL patients (Cell. 2017 Oct 5;171[2]:481-94.e15). This data set included 624 patients who received rituximab-based therapy.

Seventy-two patients in this group had MHG DLBCL (11.5%), and most MHG patients had GCB DLBCL (82%).

The researchers said the MHG group in this cohort “showed similar associations with clinical variables” and a “similar mutation spectrum” as the MHG group in the REMoDL-B cohort. Additionally, MHG patients in the validation cohort had inferior overall survival (P less than .001) compared to patients with non-MHG GCB DLBCL.

Dr. Sha and colleagues said the poor prognosis in MHG patients in both cohorts suggests a need for different treatment approaches in this group.

In the related editorial, Wing C. Chan, MD, of City of Hope Medical Center in Duarte, Calif., echoed that sentiment and said it will be important to include patients with high-risk DLBCL in clinical trials.

“Their tumors should be comprehensively characterize[d] for correlative analysis to determine the molecular lesions that underlie their biology and response to treatment,” Dr. Chan wrote.

Dr. Chan disclosed a patent for a diagnostic algorithm on GCB/ABC-type DLBCL and a patent on a diagnostic algorithm for peripheral T-cell lymphoma.

Dr. Sha and colleagues disclosed relationships with a range of pharmaceutical companies. The team’s research was supported by a grant from Bloodwise.

The REMoDL-B trial was endorsed by Cancer Research UK and was funded by Janssen-Cillag.

[email protected]

SOURCES: Sha C et al. J Clin Oncol. 2019 Jan 20;37(3):202-12. doi: 10.1200/JCO.18.01314; Chan WC. J Clin Oncol. 2019 Jan 20;37(3):175-7. doi: 10.1200/JCO.18.01910; Ennishi D et al. J Clin Oncol. 2019 Jan 20;37(3):190-201. doi: 10.1200/JCO.18.01583

LONDON – A concerted effort is needed by everyone to address gender inequality in science and medicine, a group of prominent female physicians and thought-leaders said at a recent event hosted by The Lancet.

Sara Freeman/MDedge News

“Gender equality is everyone’s business,” Sarah Hawkes, MBBS, PhD, a professor of global public health at University College London (England), said at the event.

“We’re not talking about women taking over the shop, but women being given an equal opportunity to run the shop. It doesn’t matter where we place ourselves on the gender spectrum as far as advancing equality in science is concerned. What matters is that we all, irrespective of gender, call ourselves feminists.”

For years, women have been “underrepresented in positions of power and leadership, undervalued, and experience discrimination and gender-based violence in scientific and health disciplines across the world,” according to an editorial in the British-based journal (Lancet. 2019;393:493). Such inequalities are compounded and hard to separate from other inequalities, including ethnicity, disability, class, geography, and sexuality.

Despite efforts to readdress the predominantly male culture of medicine, the problem of gender inequality remains “stubbornly persistent,” the editorial said.

“We have spent years being told that the problem lies with us as individuals and that we just need to be better, stronger, more vocal, as women,” Dr. Hawkes observed. “But what really needs to happen is for change to happen in places that hold power.” She further argued: “We don’t need any more individual change; we need organizational and institutional norm change.”

Gender inequality has a long history, and not just in medicine, said British journalist Caroline Criado-Perez OBE, who gave a keynote speech. Ms. Criado-Perez, who is a well-respected feminist campaigner, noted that the world was largely “modeled to fit men.” From architecture to transport, and even crash-test dummies, everything was largely modeled on, or to accommodate, the male rather than the female body.

“I don’t need to tell you that women are 50% more likely to be misdiagnosed following a heart attack” than men. There is no more urgent need to challenge gender inequality than in medicine, Women are dying because of the gender data gap in medicine,” she asserted. “In medical research, in medical education, in medical practice, it needs to be closed as a matter of urgency.”

Original data published in the Advancing Women in Science, Medicine and Global Health special edition of The Lancet found that only 31% of biomedical research papers published in 2016 reported outcomes for both men and women (Lancet. 2019;393:550-9). Reporting of sex differences was somewhat better in clinical or public health-related research papers, at 67% and 69%, respectively. Sex-differences were more likely to be reported if a woman was one of the key authors, Cassidy R. Sugimoto, PhD, associate professor of informatics at Indiana University in Bloomington, and associates, observed in their paper.

That said, women often have to fight to be included as an author on a paper, even when they have done the majority of the work, the event participants highlighted. Women were still less likely than men to be named as the first or last author on a paper, as well as be less likely to receive research funding to enable them to do the work in the first place (Lancet. 2018;393:531-40).

“Was it really you?” was a question sometimes asked of a woman named as a lead or first author, noted Sonia Gandhi, MD, PhD, group leader of the Neurodegeneration Biology Laboratory at the Francis Crick Institute in Cambridge (England). Women network differently to men, Dr. Gandhi observed, and not necessarily in networks that forward careers. Women were also often questioned about their productivity, and regardless of any training on unconscious bias, women were still at a disadvantage if they took a career break to have children.

Female representation is so important, said F. Gigi Osler, MD, head of otolaryngology-head and neck surgery at St. Boniface Hospital in Winnipeg. Dr. Osler is the 2018-2019 president of the Canadian Medical Association, the eighth woman to hold this prestigious position in the organization’s 151 years of operation. She also happens to be the first female surgeon and the first woman of color in the role. “When I stepped into the presidency last August, I thought very long and very hard about how I was going to use my voice and this platform,” Dr. Osler said. “It became very clear to me after I started how important representation was. I can’t tell you how many women, young women, and women of color...have come up to me to say, ‘I’m so excited to have you in this position. I’ve never seen someone who looks like me in that type of leadership position,’ ” she observed.

“As leaders, I think we can advocate for structures and processes,” Dr. Osler added, “I think we set the culture.” Leaders have the responsibility for creating and nurturing and fostering a professional, respectful, and inclusive environment, she said.

“We need more strong leaders, we need more diversity in leadership.” Dr. Osler was keen to point out that greater diversity does not mean only women, but other groups as well. “Look around the room. Who is not here? How can I make it easier for them to get here?”

Another strong female role model at the event was Dame Sally Davies, the Chief Medical Officer for England, a hematologist by training. Not only is she the first female in that role, she will also become the first female Master of Trinity College Cambridge starting in October 2019, a role dominated by men for more than 500 years.

All people, women and men, need to be given fair opportunity, Dame Sally said. Addressing structural issues can help, she said. “We need role models, mentors, and champions,” she said, noting that there were differences between the three. “Mentors give you advice, they get to know you, and they help you think through your issue. Champions may not have time for that, but they know you are good,” and they are putting you forward for opportunities.

“If the system isn’t right, or we are treated badly, we need to call it out,” Dame Sally said. “I do think that we often let things pass that we shouldn’t.” A classic situation is where a woman may suggest something at a meeting and it is ignored, but when a man says the same thing it is taken on board. That kind of behavior needs to stop and be addressed when it happens, by everyone at the table, she said.

Dr. Hawkes observed in her summing up of the day: “Throughout the history of health, change comes about not just through action at the top, but also from action from the bottom up.” She added: “The question is how do we make that change happen?” That’s where the next phase of research needs to take place, she suggested, “we need to actually see, in a very evidence-informed way, what actually works to make and sustain change.”

No financial disclosures were reported by any of the speakers quoted.

SOURCE: Lancet. 2019;393:493–610, e6-e28

LONDON – A concerted effort is needed by everyone to address gender inequality in science and medicine, a group of prominent female physicians and thought-leaders said at a recent event hosted by The Lancet.

Sara Freeman/MDedge News

“Gender equality is everyone’s business,” Sarah Hawkes, MBBS, PhD, a professor of global public health at University College London (England), said at the event.

“We’re not talking about women taking over the shop, but women being given an equal opportunity to run the shop. It doesn’t matter where we place ourselves on the gender spectrum as far as advancing equality in science is concerned. What matters is that we all, irrespective of gender, call ourselves feminists.”

For years, women have been “underrepresented in positions of power and leadership, undervalued, and experience discrimination and gender-based violence in scientific and health disciplines across the world,” according to an editorial in the British-based journal (Lancet. 2019;393:493). Such inequalities are compounded and hard to separate from other inequalities, including ethnicity, disability, class, geography, and sexuality.

Despite efforts to readdress the predominantly male culture of medicine, the problem of gender inequality remains “stubbornly persistent,” the editorial said.

“We have spent years being told that the problem lies with us as individuals and that we just need to be better, stronger, more vocal, as women,” Dr. Hawkes observed. “But what really needs to happen is for change to happen in places that hold power.” She further argued: “We don’t need any more individual change; we need organizational and institutional norm change.”

Gender inequality has a long history, and not just in medicine, said British journalist Caroline Criado-Perez OBE, who gave a keynote speech. Ms. Criado-Perez, who is a well-respected feminist campaigner, noted that the world was largely “modeled to fit men.” From architecture to transport, and even crash-test dummies, everything was largely modeled on, or to accommodate, the male rather than the female body.

“I don’t need to tell you that women are 50% more likely to be misdiagnosed following a heart attack” than men. There is no more urgent need to challenge gender inequality than in medicine, Women are dying because of the gender data gap in medicine,” she asserted. “In medical research, in medical education, in medical practice, it needs to be closed as a matter of urgency.”

Original data published in the Advancing Women in Science, Medicine and Global Health special edition of The Lancet found that only 31% of biomedical research papers published in 2016 reported outcomes for both men and women (Lancet. 2019;393:550-9). Reporting of sex differences was somewhat better in clinical or public health-related research papers, at 67% and 69%, respectively. Sex-differences were more likely to be reported if a woman was one of the key authors, Cassidy R. Sugimoto, PhD, associate professor of informatics at Indiana University in Bloomington, and associates, observed in their paper.

That said, women often have to fight to be included as an author on a paper, even when they have done the majority of the work, the event participants highlighted. Women were still less likely than men to be named as the first or last author on a paper, as well as be less likely to receive research funding to enable them to do the work in the first place (Lancet. 2018;393:531-40).

“Was it really you?” was a question sometimes asked of a woman named as a lead or first author, noted Sonia Gandhi, MD, PhD, group leader of the Neurodegeneration Biology Laboratory at the Francis Crick Institute in Cambridge (England). Women network differently to men, Dr. Gandhi observed, and not necessarily in networks that forward careers. Women were also often questioned about their productivity, and regardless of any training on unconscious bias, women were still at a disadvantage if they took a career break to have children.

Female representation is so important, said F. Gigi Osler, MD, head of otolaryngology-head and neck surgery at St. Boniface Hospital in Winnipeg. Dr. Osler is the 2018-2019 president of the Canadian Medical Association, the eighth woman to hold this prestigious position in the organization’s 151 years of operation. She also happens to be the first female surgeon and the first woman of color in the role. “When I stepped into the presidency last August, I thought very long and very hard about how I was going to use my voice and this platform,” Dr. Osler said. “It became very clear to me after I started how important representation was. I can’t tell you how many women, young women, and women of color...have come up to me to say, ‘I’m so excited to have you in this position. I’ve never seen someone who looks like me in that type of leadership position,’ ” she observed.

“As leaders, I think we can advocate for structures and processes,” Dr. Osler added, “I think we set the culture.” Leaders have the responsibility for creating and nurturing and fostering a professional, respectful, and inclusive environment, she said.

“We need more strong leaders, we need more diversity in leadership.” Dr. Osler was keen to point out that greater diversity does not mean only women, but other groups as well. “Look around the room. Who is not here? How can I make it easier for them to get here?”

Another strong female role model at the event was Dame Sally Davies, the Chief Medical Officer for England, a hematologist by training. Not only is she the first female in that role, she will also become the first female Master of Trinity College Cambridge starting in October 2019, a role dominated by men for more than 500 years.

All people, women and men, need to be given fair opportunity, Dame Sally said. Addressing structural issues can help, she said. “We need role models, mentors, and champions,” she said, noting that there were differences between the three. “Mentors give you advice, they get to know you, and they help you think through your issue. Champions may not have time for that, but they know you are good,” and they are putting you forward for opportunities.

“If the system isn’t right, or we are treated badly, we need to call it out,” Dame Sally said. “I do think that we often let things pass that we shouldn’t.” A classic situation is where a woman may suggest something at a meeting and it is ignored, but when a man says the same thing it is taken on board. That kind of behavior needs to stop and be addressed when it happens, by everyone at the table, she said.

Dr. Hawkes observed in her summing up of the day: “Throughout the history of health, change comes about not just through action at the top, but also from action from the bottom up.” She added: “The question is how do we make that change happen?” That’s where the next phase of research needs to take place, she suggested, “we need to actually see, in a very evidence-informed way, what actually works to make and sustain change.”

No financial disclosures were reported by any of the speakers quoted.

SOURCE: Lancet. 2019;393:493–610, e6-e28

LONDON – A concerted effort is needed by everyone to address gender inequality in science and medicine, a group of prominent female physicians and thought-leaders said at a recent event hosted by The Lancet.

Sara Freeman/MDedge News

“Gender equality is everyone’s business,” Sarah Hawkes, MBBS, PhD, a professor of global public health at University College London (England), said at the event.

“We’re not talking about women taking over the shop, but women being given an equal opportunity to run the shop. It doesn’t matter where we place ourselves on the gender spectrum as far as advancing equality in science is concerned. What matters is that we all, irrespective of gender, call ourselves feminists.”

For years, women have been “underrepresented in positions of power and leadership, undervalued, and experience discrimination and gender-based violence in scientific and health disciplines across the world,” according to an editorial in the British-based journal (Lancet. 2019;393:493). Such inequalities are compounded and hard to separate from other inequalities, including ethnicity, disability, class, geography, and sexuality.

Despite efforts to readdress the predominantly male culture of medicine, the problem of gender inequality remains “stubbornly persistent,” the editorial said.

“We have spent years being told that the problem lies with us as individuals and that we just need to be better, stronger, more vocal, as women,” Dr. Hawkes observed. “But what really needs to happen is for change to happen in places that hold power.” She further argued: “We don’t need any more individual change; we need organizational and institutional norm change.”

Gender inequality has a long history, and not just in medicine, said British journalist Caroline Criado-Perez OBE, who gave a keynote speech. Ms. Criado-Perez, who is a well-respected feminist campaigner, noted that the world was largely “modeled to fit men.” From architecture to transport, and even crash-test dummies, everything was largely modeled on, or to accommodate, the male rather than the female body.

“I don’t need to tell you that women are 50% more likely to be misdiagnosed following a heart attack” than men. There is no more urgent need to challenge gender inequality than in medicine, Women are dying because of the gender data gap in medicine,” she asserted. “In medical research, in medical education, in medical practice, it needs to be closed as a matter of urgency.”

Original data published in the Advancing Women in Science, Medicine and Global Health special edition of The Lancet found that only 31% of biomedical research papers published in 2016 reported outcomes for both men and women (Lancet. 2019;393:550-9). Reporting of sex differences was somewhat better in clinical or public health-related research papers, at 67% and 69%, respectively. Sex-differences were more likely to be reported if a woman was one of the key authors, Cassidy R. Sugimoto, PhD, associate professor of informatics at Indiana University in Bloomington, and associates, observed in their paper.

That said, women often have to fight to be included as an author on a paper, even when they have done the majority of the work, the event participants highlighted. Women were still less likely than men to be named as the first or last author on a paper, as well as be less likely to receive research funding to enable them to do the work in the first place (Lancet. 2018;393:531-40).

“Was it really you?” was a question sometimes asked of a woman named as a lead or first author, noted Sonia Gandhi, MD, PhD, group leader of the Neurodegeneration Biology Laboratory at the Francis Crick Institute in Cambridge (England). Women network differently to men, Dr. Gandhi observed, and not necessarily in networks that forward careers. Women were also often questioned about their productivity, and regardless of any training on unconscious bias, women were still at a disadvantage if they took a career break to have children.

Female representation is so important, said F. Gigi Osler, MD, head of otolaryngology-head and neck surgery at St. Boniface Hospital in Winnipeg. Dr. Osler is the 2018-2019 president of the Canadian Medical Association, the eighth woman to hold this prestigious position in the organization’s 151 years of operation. She also happens to be the first female surgeon and the first woman of color in the role. “When I stepped into the presidency last August, I thought very long and very hard about how I was going to use my voice and this platform,” Dr. Osler said. “It became very clear to me after I started how important representation was. I can’t tell you how many women, young women, and women of color...have come up to me to say, ‘I’m so excited to have you in this position. I’ve never seen someone who looks like me in that type of leadership position,’ ” she observed.

“As leaders, I think we can advocate for structures and processes,” Dr. Osler added, “I think we set the culture.” Leaders have the responsibility for creating and nurturing and fostering a professional, respectful, and inclusive environment, she said.

“We need more strong leaders, we need more diversity in leadership.” Dr. Osler was keen to point out that greater diversity does not mean only women, but other groups as well. “Look around the room. Who is not here? How can I make it easier for them to get here?”

Another strong female role model at the event was Dame Sally Davies, the Chief Medical Officer for England, a hematologist by training. Not only is she the first female in that role, she will also become the first female Master of Trinity College Cambridge starting in October 2019, a role dominated by men for more than 500 years.

All people, women and men, need to be given fair opportunity, Dame Sally said. Addressing structural issues can help, she said. “We need role models, mentors, and champions,” she said, noting that there were differences between the three. “Mentors give you advice, they get to know you, and they help you think through your issue. Champions may not have time for that, but they know you are good,” and they are putting you forward for opportunities.

“If the system isn’t right, or we are treated badly, we need to call it out,” Dame Sally said. “I do think that we often let things pass that we shouldn’t.” A classic situation is where a woman may suggest something at a meeting and it is ignored, but when a man says the same thing it is taken on board. That kind of behavior needs to stop and be addressed when it happens, by everyone at the table, she said.

Dr. Hawkes observed in her summing up of the day: “Throughout the history of health, change comes about not just through action at the top, but also from action from the bottom up.” She added: “The question is how do we make that change happen?” That’s where the next phase of research needs to take place, she suggested, “we need to actually see, in a very evidence-informed way, what actually works to make and sustain change.”

No financial disclosures were reported by any of the speakers quoted.

SOURCE: Lancet. 2019;393:493–610, e6-e28

LAS VEGAS – Women with Ehlers-Danlos syndrome who became pregnant were more likely to experience antepartum hemorrhage, placenta previa, cervical incompetence, and preterm birth, according to a retrospective cohort study of national birth data. Long hospital stays also were more likely among these women.

Kari Oakes/MDedge News

Infants born to women with Ehlers-Danlos syndrome (EDS) were significantly more likely to have intrauterine growth retardation (IUGR) as well, an unexpected and as-yet unexplained finding, said the study’s first author, Laura Nicholls-Dempsey, MD, speaking at a poster session at the meeting sponsored by the Society for Maternal-Fetal Medicine.

Complications were infrequent overall, with a very low rate of intrauterine demise and no maternal mortality seen in the 910 women with EDS who were studied, said Dr. Nicholls-Dempsey, an ob.gyn. resident at McGill University, Montreal.

In counseling women with EDS, Dr. Nicholls-Dempsey said that she would advise them that “these are the types of things we’re going to watch out for, and we’ll see how the pregnancy goes. But we have to be careful about these: preterm birth, antepartum bleeding, placenta previa. We’ll watch the growth of the baby; we just have to be more careful about these specific things.”

Compared with women without EDS, those with the inherited connective tissue disorder had adjusted odds ratios (AORs) of 3.2 for cervical incompetence (95% confidence interval, 2.0-5.1) and 2.2 for placenta previa (95% CI, 1.3-3.9; P less than .01 for both). Absolute rates for these complications were 0.8% and 0.7% for women without EDS and 2.1% and 1.4% for women with EDS, respectively.

[email protected]

SOURCE: Nicholls-Dempsey L et al. Am J Obstet Gynecol. 2019 Jan;220(1):S381-382. Abstract 574

LAS VEGAS – Women with Ehlers-Danlos syndrome who became pregnant were more likely to experience antepartum hemorrhage, placenta previa, cervical incompetence, and preterm birth, according to a retrospective cohort study of national birth data. Long hospital stays also were more likely among these women.

Kari Oakes/MDedge News

Infants born to women with Ehlers-Danlos syndrome (EDS) were significantly more likely to have intrauterine growth retardation (IUGR) as well, an unexpected and as-yet unexplained finding, said the study’s first author, Laura Nicholls-Dempsey, MD, speaking at a poster session at the meeting sponsored by the Society for Maternal-Fetal Medicine.

Complications were infrequent overall, with a very low rate of intrauterine demise and no maternal mortality seen in the 910 women with EDS who were studied, said Dr. Nicholls-Dempsey, an ob.gyn. resident at McGill University, Montreal.

In counseling women with EDS, Dr. Nicholls-Dempsey said that she would advise them that “these are the types of things we’re going to watch out for, and we’ll see how the pregnancy goes. But we have to be careful about these: preterm birth, antepartum bleeding, placenta previa. We’ll watch the growth of the baby; we just have to be more careful about these specific things.”

Compared with women without EDS, those with the inherited connective tissue disorder had adjusted odds ratios (AORs) of 3.2 for cervical incompetence (95% confidence interval, 2.0-5.1) and 2.2 for placenta previa (95% CI, 1.3-3.9; P less than .01 for both). Absolute rates for these complications were 0.8% and 0.7% for women without EDS and 2.1% and 1.4% for women with EDS, respectively.

[email protected]

SOURCE: Nicholls-Dempsey L et al. Am J Obstet Gynecol. 2019 Jan;220(1):S381-382. Abstract 574

LAS VEGAS – Women with Ehlers-Danlos syndrome who became pregnant were more likely to experience antepartum hemorrhage, placenta previa, cervical incompetence, and preterm birth, according to a retrospective cohort study of national birth data. Long hospital stays also were more likely among these women.

Kari Oakes/MDedge News

Infants born to women with Ehlers-Danlos syndrome (EDS) were significantly more likely to have intrauterine growth retardation (IUGR) as well, an unexpected and as-yet unexplained finding, said the study’s first author, Laura Nicholls-Dempsey, MD, speaking at a poster session at the meeting sponsored by the Society for Maternal-Fetal Medicine.

Complications were infrequent overall, with a very low rate of intrauterine demise and no maternal mortality seen in the 910 women with EDS who were studied, said Dr. Nicholls-Dempsey, an ob.gyn. resident at McGill University, Montreal.

In counseling women with EDS, Dr. Nicholls-Dempsey said that she would advise them that “these are the types of things we’re going to watch out for, and we’ll see how the pregnancy goes. But we have to be careful about these: preterm birth, antepartum bleeding, placenta previa. We’ll watch the growth of the baby; we just have to be more careful about these specific things.”

Compared with women without EDS, those with the inherited connective tissue disorder had adjusted odds ratios (AORs) of 3.2 for cervical incompetence (95% confidence interval, 2.0-5.1) and 2.2 for placenta previa (95% CI, 1.3-3.9; P less than .01 for both). Absolute rates for these complications were 0.8% and 0.7% for women without EDS and 2.1% and 1.4% for women with EDS, respectively.

[email protected]

SOURCE: Nicholls-Dempsey L et al. Am J Obstet Gynecol. 2019 Jan;220(1):S381-382. Abstract 574

One chimeric antigen receptor (CAR) T-cell therapy may appear better than another, but confounding factors make it difficult to compare these therapies effectively, according to a review published in the Journal of Clinical Oncology.

Caron A. Jacobson, MD, of the Dana-Farber Cancer Institute in Boston, reviewed results from three trials of CAR T-cell therapies in patients with B-cell non-Hodgkin lymphoma (B-NHL).

She noted that cross-trial comparisons are always limited, but such comparisons of CAR T-cell therapies are hindered by several confounding factors.

Dr. Jacobson said differences in manufacturing procedures and turnaround time, differences in patient eligibility and management, and the complexity of CAR T-cell therapies make it difficult to compare results from three CAR-T trials in B-NHL:

• The ZUMA-1 trial (NCT02348216) of axicabtagene ciloleucel (axi-cel, Yescarta)
• The JULIET trial (NCT02445248) of tisagenlecleucel (t-cel, Kymriah)
• The TRANSCEND-NHL-001 trial (NCT02631044) of lisocabtagene maraleucel (liso-cel, JCAR017).

Looking at response rates alone, axi-cel appears the most promising. The overall response rate (ORR) was 82% with axi-cel, 75% with liso-cel, and 52% with t-cel.

When considering cytokine release syndrome (CRS), liso-cel appears the safest. The rate of CRS was 93% with axi-cel (13% grade 3 or higher), 58% with t-cel (22% grade 3 or higher), and 39% with liso-cel (1% grade 3 or higher).

However, as Dr. Jacobson pointed out, it’s impossible to know if these differences in efficacy and toxicity are “statistically meaningful.”

[email protected]

SOURCE: Jacobson CA. J Clin Oncol. 2019 Feb 1;37(4):328-35. doi: 10.1200/JCO.18.01457

One chimeric antigen receptor (CAR) T-cell therapy may appear better than another, but confounding factors make it difficult to compare these therapies effectively, according to a review published in the Journal of Clinical Oncology.

Caron A. Jacobson, MD, of the Dana-Farber Cancer Institute in Boston, reviewed results from three trials of CAR T-cell therapies in patients with B-cell non-Hodgkin lymphoma (B-NHL).

She noted that cross-trial comparisons are always limited, but such comparisons of CAR T-cell therapies are hindered by several confounding factors.

Dr. Jacobson said differences in manufacturing procedures and turnaround time, differences in patient eligibility and management, and the complexity of CAR T-cell therapies make it difficult to compare results from three CAR-T trials in B-NHL:

• The ZUMA-1 trial (NCT02348216) of axicabtagene ciloleucel (axi-cel, Yescarta)
• The JULIET trial (NCT02445248) of tisagenlecleucel (t-cel, Kymriah)
• The TRANSCEND-NHL-001 trial (NCT02631044) of lisocabtagene maraleucel (liso-cel, JCAR017).

Looking at response rates alone, axi-cel appears the most promising. The overall response rate (ORR) was 82% with axi-cel, 75% with liso-cel, and 52% with t-cel.

When considering cytokine release syndrome (CRS), liso-cel appears the safest. The rate of CRS was 93% with axi-cel (13% grade 3 or higher), 58% with t-cel (22% grade 3 or higher), and 39% with liso-cel (1% grade 3 or higher).

However, as Dr. Jacobson pointed out, it’s impossible to know if these differences in efficacy and toxicity are “statistically meaningful.”

[email protected]

SOURCE: Jacobson CA. J Clin Oncol. 2019 Feb 1;37(4):328-35. doi: 10.1200/JCO.18.01457

One chimeric antigen receptor (CAR) T-cell therapy may appear better than another, but confounding factors make it difficult to compare these therapies effectively, according to a review published in the Journal of Clinical Oncology.

Caron A. Jacobson, MD, of the Dana-Farber Cancer Institute in Boston, reviewed results from three trials of CAR T-cell therapies in patients with B-cell non-Hodgkin lymphoma (B-NHL).

She noted that cross-trial comparisons are always limited, but such comparisons of CAR T-cell therapies are hindered by several confounding factors.

Dr. Jacobson said differences in manufacturing procedures and turnaround time, differences in patient eligibility and management, and the complexity of CAR T-cell therapies make it difficult to compare results from three CAR-T trials in B-NHL:

• The ZUMA-1 trial (NCT02348216) of axicabtagene ciloleucel (axi-cel, Yescarta)
• The JULIET trial (NCT02445248) of tisagenlecleucel (t-cel, Kymriah)
• The TRANSCEND-NHL-001 trial (NCT02631044) of lisocabtagene maraleucel (liso-cel, JCAR017).

Looking at response rates alone, axi-cel appears the most promising. The overall response rate (ORR) was 82% with axi-cel, 75% with liso-cel, and 52% with t-cel.

When considering cytokine release syndrome (CRS), liso-cel appears the safest. The rate of CRS was 93% with axi-cel (13% grade 3 or higher), 58% with t-cel (22% grade 3 or higher), and 39% with liso-cel (1% grade 3 or higher).

However, as Dr. Jacobson pointed out, it’s impossible to know if these differences in efficacy and toxicity are “statistically meaningful.”

[email protected]

SOURCE: Jacobson CA. J Clin Oncol. 2019 Feb 1;37(4):328-35. doi: 10.1200/JCO.18.01457

Patients with acute major bleeding associated with factor Xa inhibitor usage who received andexanet alfa experienced a significant decrease in anti–factor Xa activity, with more than three-quarters of patients experiencing good or excellent hemostatic efficiency after 12 hours. That finding emerged from the multicenter, prospective, open-label, single-group ANNEXA-4 trial published in the New England Journal of Medicine (2019 Feb 11. doi: 10.1056/NEJMoa1814051).

We reported this story at the annual meeting of the American College of Cardiology before it was published in the journal. Find our coverage at the link below.

[email protected]

Patients with acute major bleeding associated with factor Xa inhibitor usage who received andexanet alfa experienced a significant decrease in anti–factor Xa activity, with more than three-quarters of patients experiencing good or excellent hemostatic efficiency after 12 hours. That finding emerged from the multicenter, prospective, open-label, single-group ANNEXA-4 trial published in the New England Journal of Medicine (2019 Feb 11. doi: 10.1056/NEJMoa1814051).

We reported this story at the annual meeting of the American College of Cardiology before it was published in the journal. Find our coverage at the link below.

[email protected]

Patients with acute major bleeding associated with factor Xa inhibitor usage who received andexanet alfa experienced a significant decrease in anti–factor Xa activity, with more than three-quarters of patients experiencing good or excellent hemostatic efficiency after 12 hours. That finding emerged from the multicenter, prospective, open-label, single-group ANNEXA-4 trial published in the New England Journal of Medicine (2019 Feb 11. doi: 10.1056/NEJMoa1814051).

We reported this story at the annual meeting of the American College of Cardiology before it was published in the journal. Find our coverage at the link below.

[email protected]

The Food and Drug Administration has approved marketing of the Tandem Diabetes Care t:Slim X2 device, the first-ever interoperable, alternate controller–enabled infusion pump, for insulin delivery in children and adults with diabetes.

The pump delivers insulin under the skin at a variable or fixed rate. It can function on its own, or it can be digitally connected to automatically communicate with and receive drug-dosing commands from other diabetes management devices, such as automated insulin-dosing systems, the agency announced.

The approval was based on a review of performance data demonstrating that the device can deliver insulin accurately and reliably and at the rates and volumes programmed by the user. The agency also assessed the pump’s ability to connect reliably with other devices, as well as its cybersecurity and fail-safe modes.

Risks associated with the device were similar to those of other infusion pumps and include infection, bleeding, pain, or skin irritations. Blockages and air bubbles can occur in the tubing, which will affect drug delivery. Risks associated with incorrect drug delivery include hypo- and hyperglycemia as well as diabetic ketoacidosis.

“The marketing authorization of the [pump] has the potential to aid patients who seek more individualized diabetes therapy systems and opens the door for developers of future connected diabetes devices to get other safe and effective products to patients more efficiently,” FDA Commissioner Scott Gottlieb, MD, said in the announcement.

[email protected]

The Food and Drug Administration has approved marketing of the Tandem Diabetes Care t:Slim X2 device, the first-ever interoperable, alternate controller–enabled infusion pump, for insulin delivery in children and adults with diabetes.

The pump delivers insulin under the skin at a variable or fixed rate. It can function on its own, or it can be digitally connected to automatically communicate with and receive drug-dosing commands from other diabetes management devices, such as automated insulin-dosing systems, the agency announced.

The approval was based on a review of performance data demonstrating that the device can deliver insulin accurately and reliably and at the rates and volumes programmed by the user. The agency also assessed the pump’s ability to connect reliably with other devices, as well as its cybersecurity and fail-safe modes.

Risks associated with the device were similar to those of other infusion pumps and include infection, bleeding, pain, or skin irritations. Blockages and air bubbles can occur in the tubing, which will affect drug delivery. Risks associated with incorrect drug delivery include hypo- and hyperglycemia as well as diabetic ketoacidosis.

“The marketing authorization of the [pump] has the potential to aid patients who seek more individualized diabetes therapy systems and opens the door for developers of future connected diabetes devices to get other safe and effective products to patients more efficiently,” FDA Commissioner Scott Gottlieb, MD, said in the announcement.

[email protected]

The Food and Drug Administration has approved marketing of the Tandem Diabetes Care t:Slim X2 device, the first-ever interoperable, alternate controller–enabled infusion pump, for insulin delivery in children and adults with diabetes.

The pump delivers insulin under the skin at a variable or fixed rate. It can function on its own, or it can be digitally connected to automatically communicate with and receive drug-dosing commands from other diabetes management devices, such as automated insulin-dosing systems, the agency announced.

The approval was based on a review of performance data demonstrating that the device can deliver insulin accurately and reliably and at the rates and volumes programmed by the user. The agency also assessed the pump’s ability to connect reliably with other devices, as well as its cybersecurity and fail-safe modes.

Risks associated with the device were similar to those of other infusion pumps and include infection, bleeding, pain, or skin irritations. Blockages and air bubbles can occur in the tubing, which will affect drug delivery. Risks associated with incorrect drug delivery include hypo- and hyperglycemia as well as diabetic ketoacidosis.

“The marketing authorization of the [pump] has the potential to aid patients who seek more individualized diabetes therapy systems and opens the door for developers of future connected diabetes devices to get other safe and effective products to patients more efficiently,” FDA Commissioner Scott Gottlieb, MD, said in the announcement.

[email protected]

Like an unwelcome guest, the 2018-2019 flu season seems to be settling in for a lengthy stay as three more states have reached the highest level of influenza-like illness (ILI) activity, according to the Centers for Disease Control and Prevention.

There are now 21 states at level 10 on the CDC’s 1-10 scale, with the South showing up almost solidly red on the flu activity map for the week ending Feb. 9. Another five states are at levels 8 and 9, bringing the total in the high range to 26 for the week, compared with 24 the previous week, the CDC’s influenza division reported Feb. 15.

National activity, reflected in the proportion of outpatient visits involving ILI, took a step up from 4.3% the week before to 4.8% for the week ending Feb. 9. The national baseline rate is 2.2% for ILI, which the CDC defines “as fever (temperature of 100°F [37.8°C] or greater) and cough and/or sore throat.”

Two flu-related pediatric deaths occurred during the week ending Feb. 9, and another four were reported from earlier weeks, which brings the total for the 2018-2019 season to 34, the CDC said. At the same point in last year’s flu season, there had been 84 flu-related deaths in children.

In a separate report, the CDC said that, based on data collected from Nov. 23, 2018 to Feb. 2, 2019, “the influenza vaccine has been 47% effective in preventing medically attended acute respiratory virus infection across all age groups and specifically was 46% effective in preventing medical visits associated with influenza A(H1N1)pdm09.” The effectiveness of the vaccine was 61% for children aged 6 months to 17 years, the CDC said (MMWR. 2019 Feb 15;68[6];135-9).

Flu vaccination during the 2017-2018 season prevented 7.1 million illnesses, 3.7 million medical visits, 109,000 hospitalizations, and 8,000 flu-related deaths, the CDC said, adding that “vaccination has been found to reduce deaths, intensive care unit admissions and length of stay, and overall duration of hospitalization among hospitalized influenza patients.”

Forecasts for the rest of the 2018-2019 season “predict that elevated influenza activity in parts of the United States will continue for several more weeks,” the CDC said.

[email protected]

Like an unwelcome guest, the 2018-2019 flu season seems to be settling in for a lengthy stay as three more states have reached the highest level of influenza-like illness (ILI) activity, according to the Centers for Disease Control and Prevention.

There are now 21 states at level 10 on the CDC’s 1-10 scale, with the South showing up almost solidly red on the flu activity map for the week ending Feb. 9. Another five states are at levels 8 and 9, bringing the total in the high range to 26 for the week, compared with 24 the previous week, the CDC’s influenza division reported Feb. 15.

National activity, reflected in the proportion of outpatient visits involving ILI, took a step up from 4.3% the week before to 4.8% for the week ending Feb. 9. The national baseline rate is 2.2% for ILI, which the CDC defines “as fever (temperature of 100°F [37.8°C] or greater) and cough and/or sore throat.”

Two flu-related pediatric deaths occurred during the week ending Feb. 9, and another four were reported from earlier weeks, which brings the total for the 2018-2019 season to 34, the CDC said. At the same point in last year’s flu season, there had been 84 flu-related deaths in children.

In a separate report, the CDC said that, based on data collected from Nov. 23, 2018 to Feb. 2, 2019, “the influenza vaccine has been 47% effective in preventing medically attended acute respiratory virus infection across all age groups and specifically was 46% effective in preventing medical visits associated with influenza A(H1N1)pdm09.” The effectiveness of the vaccine was 61% for children aged 6 months to 17 years, the CDC said (MMWR. 2019 Feb 15;68[6];135-9).

Flu vaccination during the 2017-2018 season prevented 7.1 million illnesses, 3.7 million medical visits, 109,000 hospitalizations, and 8,000 flu-related deaths, the CDC said, adding that “vaccination has been found to reduce deaths, intensive care unit admissions and length of stay, and overall duration of hospitalization among hospitalized influenza patients.”

Forecasts for the rest of the 2018-2019 season “predict that elevated influenza activity in parts of the United States will continue for several more weeks,” the CDC said.

[email protected]

Like an unwelcome guest, the 2018-2019 flu season seems to be settling in for a lengthy stay as three more states have reached the highest level of influenza-like illness (ILI) activity, according to the Centers for Disease Control and Prevention.

There are now 21 states at level 10 on the CDC’s 1-10 scale, with the South showing up almost solidly red on the flu activity map for the week ending Feb. 9. Another five states are at levels 8 and 9, bringing the total in the high range to 26 for the week, compared with 24 the previous week, the CDC’s influenza division reported Feb. 15.

National activity, reflected in the proportion of outpatient visits involving ILI, took a step up from 4.3% the week before to 4.8% for the week ending Feb. 9. The national baseline rate is 2.2% for ILI, which the CDC defines “as fever (temperature of 100°F [37.8°C] or greater) and cough and/or sore throat.”

Two flu-related pediatric deaths occurred during the week ending Feb. 9, and another four were reported from earlier weeks, which brings the total for the 2018-2019 season to 34, the CDC said. At the same point in last year’s flu season, there had been 84 flu-related deaths in children.

In a separate report, the CDC said that, based on data collected from Nov. 23, 2018 to Feb. 2, 2019, “the influenza vaccine has been 47% effective in preventing medically attended acute respiratory virus infection across all age groups and specifically was 46% effective in preventing medical visits associated with influenza A(H1N1)pdm09.” The effectiveness of the vaccine was 61% for children aged 6 months to 17 years, the CDC said (MMWR. 2019 Feb 15;68[6];135-9).

Flu vaccination during the 2017-2018 season prevented 7.1 million illnesses, 3.7 million medical visits, 109,000 hospitalizations, and 8,000 flu-related deaths, the CDC said, adding that “vaccination has been found to reduce deaths, intensive care unit admissions and length of stay, and overall duration of hospitalization among hospitalized influenza patients.”

Forecasts for the rest of the 2018-2019 season “predict that elevated influenza activity in parts of the United States will continue for several more weeks,” the CDC said.

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The Centers for Medicare & Medicaid Services has proposed to cover chimeric antigen receptor (CAR) T-cell therapy for cancer patients participating in clinical trials that study the treatment’s effectiveness, according to a Feb. 15 announcement.

Penn Medicine

The proposed national coverage determination would require CMS to cover CAR T-cell therapies nationwide when the treatment is offered in CMS-approved registries or clinical studies in which patients are monitored for 2 or more years following treatment.

Results from the studies would help CMS identify which patients benefit most from CAR T-cell therapies and inform future coverage decisions, CMS Administrator Seema Verma said.

“CAR T-cell therapy was the first FDA-approved gene therapy, marking the beginning of an entirely new approach to treating serious and even life-threatening diseases,” Ms. Verma said in a statement. “Today’s proposed coverage decision would improve access to this therapy while deepening CMS’s understanding of how patients in Medicare respond to it, so the agency can ensure that it is paying for CAR T-cell therapy for cases in which the benefits outweigh the risks.”

As part of the proposal, CMS would cover autologous treatment with T cells expressing at least one chimeric antigen receptor (CAR) through coverage with evidence development when prescribed by a treating oncologist and performed in a hospital, according to a summary of the proposal.

The patient and hospital must meet specific criteria to be eligible for coverage, including that patients have relapsed or refractory cancer and do not have a comorbidity that would otherwise preclude patient benefit.

Hospitals, meanwhile, must have a cellular therapy program consisting of an integrated medical team that includes a clinical program director, a quality manager, and at least one physician experienced in cellular therapy, among other requirements.

CMS also would require that treatment is an FDA-approved biologic, providing targeted therapy for a known antigen expressed in the patient’s cancer according to an FDA indication. Repeat treatment would be covered only when a new primary cancer diagnosis is made by the treating oncologist and certain patient conditions are met.

Both inpatient and outpatient settings for the CAR T-cell therapy treatment are acceptable under the proposal. In either case, the patient and the hospital must be participating in a prospective, national, audited registry that consecutively enrolls patients, accepts all manufactured products, follows the patient for at least 2 years, and addresses a set of approved evidence-development questions. Additionally, all registries must be reviewed and approved by CMS.

The proposed national coverage determination was the result of an Aug. 22, 2018 meeting of the Medicare Evidence Development & Coverage Advisory Committee. The committee provides CMS with an external assessment of the appropriateness of therapies under review.

Public comments about the CAR T-cell therapy proposal will be accepted online here until March 15. A final decision on the proposal is expected by May 2019.

The agency’s proposal follows an Aug. 17 final rule by CMS that sets a new payment scheme for inpatient administration of two CAR T-cell therapies. The rule categorizes CAR T-cell therapies under the umbrella of the renamed Medicare Severity–Diagnosis Related Groups 016 – Autologous Bone Marrow Transplant with CC/MCC or T-cell Immunotherapy – and assigns ICD-10 PCS procedure codes XW033C3 and XW043C3 to the use of axicabtagene ciloleucel (Yescarta) and tisagenlecleucel (Kymriah) in the inpatient setting for fiscal year 2019, which began in October 2018. CMS also approved a temporary New Technology Add-On Payment for use of the therapies with a maximum threshold of $186,500.

In April 2018, CMS announced payment rates for outpatient administration of the two drugs, settling on $395,380 for axicabtagene ciloleucel and $500,839 for tisagenlecleucel. The two medications have list prices of $373,000 and $475,000, respectively.

[email protected]

The Centers for Medicare & Medicaid Services has proposed to cover chimeric antigen receptor (CAR) T-cell therapy for cancer patients participating in clinical trials that study the treatment’s effectiveness, according to a Feb. 15 announcement.

Penn Medicine

The proposed national coverage determination would require CMS to cover CAR T-cell therapies nationwide when the treatment is offered in CMS-approved registries or clinical studies in which patients are monitored for 2 or more years following treatment.

Results from the studies would help CMS identify which patients benefit most from CAR T-cell therapies and inform future coverage decisions, CMS Administrator Seema Verma said.

“CAR T-cell therapy was the first FDA-approved gene therapy, marking the beginning of an entirely new approach to treating serious and even life-threatening diseases,” Ms. Verma said in a statement. “Today’s proposed coverage decision would improve access to this therapy while deepening CMS’s understanding of how patients in Medicare respond to it, so the agency can ensure that it is paying for CAR T-cell therapy for cases in which the benefits outweigh the risks.”

As part of the proposal, CMS would cover autologous treatment with T cells expressing at least one chimeric antigen receptor (CAR) through coverage with evidence development when prescribed by a treating oncologist and performed in a hospital, according to a summary of the proposal.

The patient and hospital must meet specific criteria to be eligible for coverage, including that patients have relapsed or refractory cancer and do not have a comorbidity that would otherwise preclude patient benefit.

Hospitals, meanwhile, must have a cellular therapy program consisting of an integrated medical team that includes a clinical program director, a quality manager, and at least one physician experienced in cellular therapy, among other requirements.

CMS also would require that treatment is an FDA-approved biologic, providing targeted therapy for a known antigen expressed in the patient’s cancer according to an FDA indication. Repeat treatment would be covered only when a new primary cancer diagnosis is made by the treating oncologist and certain patient conditions are met.

Both inpatient and outpatient settings for the CAR T-cell therapy treatment are acceptable under the proposal. In either case, the patient and the hospital must be participating in a prospective, national, audited registry that consecutively enrolls patients, accepts all manufactured products, follows the patient for at least 2 years, and addresses a set of approved evidence-development questions. Additionally, all registries must be reviewed and approved by CMS.

The proposed national coverage determination was the result of an Aug. 22, 2018 meeting of the Medicare Evidence Development & Coverage Advisory Committee. The committee provides CMS with an external assessment of the appropriateness of therapies under review.

Public comments about the CAR T-cell therapy proposal will be accepted online here until March 15. A final decision on the proposal is expected by May 2019.

The agency’s proposal follows an Aug. 17 final rule by CMS that sets a new payment scheme for inpatient administration of two CAR T-cell therapies. The rule categorizes CAR T-cell therapies under the umbrella of the renamed Medicare Severity–Diagnosis Related Groups 016 – Autologous Bone Marrow Transplant with CC/MCC or T-cell Immunotherapy – and assigns ICD-10 PCS procedure codes XW033C3 and XW043C3 to the use of axicabtagene ciloleucel (Yescarta) and tisagenlecleucel (Kymriah) in the inpatient setting for fiscal year 2019, which began in October 2018. CMS also approved a temporary New Technology Add-On Payment for use of the therapies with a maximum threshold of $186,500.

In April 2018, CMS announced payment rates for outpatient administration of the two drugs, settling on $395,380 for axicabtagene ciloleucel and $500,839 for tisagenlecleucel. The two medications have list prices of $373,000 and $475,000, respectively.

[email protected]

The Centers for Medicare & Medicaid Services has proposed to cover chimeric antigen receptor (CAR) T-cell therapy for cancer patients participating in clinical trials that study the treatment’s effectiveness, according to a Feb. 15 announcement.

Penn Medicine

The proposed national coverage determination would require CMS to cover CAR T-cell therapies nationwide when the treatment is offered in CMS-approved registries or clinical studies in which patients are monitored for 2 or more years following treatment.

Results from the studies would help CMS identify which patients benefit most from CAR T-cell therapies and inform future coverage decisions, CMS Administrator Seema Verma said.

“CAR T-cell therapy was the first FDA-approved gene therapy, marking the beginning of an entirely new approach to treating serious and even life-threatening diseases,” Ms. Verma said in a statement. “Today’s proposed coverage decision would improve access to this therapy while deepening CMS’s understanding of how patients in Medicare respond to it, so the agency can ensure that it is paying for CAR T-cell therapy for cases in which the benefits outweigh the risks.”

As part of the proposal, CMS would cover autologous treatment with T cells expressing at least one chimeric antigen receptor (CAR) through coverage with evidence development when prescribed by a treating oncologist and performed in a hospital, according to a summary of the proposal.

The patient and hospital must meet specific criteria to be eligible for coverage, including that patients have relapsed or refractory cancer and do not have a comorbidity that would otherwise preclude patient benefit.

Hospitals, meanwhile, must have a cellular therapy program consisting of an integrated medical team that includes a clinical program director, a quality manager, and at least one physician experienced in cellular therapy, among other requirements.

CMS also would require that treatment is an FDA-approved biologic, providing targeted therapy for a known antigen expressed in the patient’s cancer according to an FDA indication. Repeat treatment would be covered only when a new primary cancer diagnosis is made by the treating oncologist and certain patient conditions are met.

Both inpatient and outpatient settings for the CAR T-cell therapy treatment are acceptable under the proposal. In either case, the patient and the hospital must be participating in a prospective, national, audited registry that consecutively enrolls patients, accepts all manufactured products, follows the patient for at least 2 years, and addresses a set of approved evidence-development questions. Additionally, all registries must be reviewed and approved by CMS.

The proposed national coverage determination was the result of an Aug. 22, 2018 meeting of the Medicare Evidence Development & Coverage Advisory Committee. The committee provides CMS with an external assessment of the appropriateness of therapies under review.

Public comments about the CAR T-cell therapy proposal will be accepted online here until March 15. A final decision on the proposal is expected by May 2019.

The agency’s proposal follows an Aug. 17 final rule by CMS that sets a new payment scheme for inpatient administration of two CAR T-cell therapies. The rule categorizes CAR T-cell therapies under the umbrella of the renamed Medicare Severity–Diagnosis Related Groups 016 – Autologous Bone Marrow Transplant with CC/MCC or T-cell Immunotherapy – and assigns ICD-10 PCS procedure codes XW033C3 and XW043C3 to the use of axicabtagene ciloleucel (Yescarta) and tisagenlecleucel (Kymriah) in the inpatient setting for fiscal year 2019, which began in October 2018. CMS also approved a temporary New Technology Add-On Payment for use of the therapies with a maximum threshold of $186,500.

In April 2018, CMS announced payment rates for outpatient administration of the two drugs, settling on $395,380 for axicabtagene ciloleucel and $500,839 for tisagenlecleucel. The two medications have list prices of $373,000 and $475,000, respectively.

[email protected]