Nephrology

Clinical question: To determine the incidence and consequences of acute kidney injury among children hospitalized with diarrheal illness in the United States.

Background: Diarrheal illness is the fourth leading cause of death for children younger than 5 years and the fifth leading cause of years of life lost globally. In the United States, diarrheal illness remains a leading cause of hospital admission among young children. Complications of severe diarrheal illness include hypovolemic acute kidney injury (AKI). Hospitalized children who develop AKI experience longer hospital stays and higher mortality. Additionally, children who experience AKI are at increased risk for chronic kidney disease (CKD), hypertension, and proteinuria.

Study design: Retrospective cohort study.

Setting: Kids’ Inpatient Database (KID) from 2009 and 2012. The authors used secondary International Classification of Diseases, Ninth Revision (ICD-9) diagnoses of AKI to identify patients.

Synopsis: The authors reviewed all patients with diarrhea and found that the incidence of AKI in children hospitalized was 0.8%. Those with infectious diarrhea had an incidence of 1% and with noninfectious diarrhea had an incidence of 0.6%. There was a higher incidence of dialysis-requiring AKI in patients with infectious diarrhea. The odds of developing AKI increased with older age in both infectious and noninfectious diarrheal illnesses. As compared with noninfectious diarrheal illness, infectious diarrheal illness was associated with higher odds of AKI (odds ratio, 2.1; 95% confidence interval, 1.7-2.7). Irrespective of diarrhea type, hematologic and rheumatologic conditions, solid organ transplant, CKD, and hypertension were associated with higher odds of developing AKI. AKI in infectious diarrheal illness was also associated with other renal or genitourinary abnormalities, whereas AKI in noninfectious diarrheal illness was associated with diabetes, cardiovascular, and neurologic conditions.

Hospitalizations for diarrheal illness complicated by AKI were associated with higher mortality, prolonged LOS, and higher hospital cost with odds of death increased eightfold with AKI, mean hospital stay was prolonged by 3 days, and costs increased by greater than $9,000 per hospital stay. The development of AKI in hospitalized diarrheal illness was associated with an up to 11-fold increase in the odds of in-hospital mortality for infectious (OR, 10.8; 95% CI, 3.4-34.3) and noninfectious diarrheal illness (OR, 7.0; 95% CI, 3.1-15.7).

The strengths of this study include broad representation of hospitals caring for children across the United States. The study was limited by its use of ICD-9 codes which may misidentify AKI. The authors were unable to determine if identifying AKI could improve outcomes for patients with diarrheal illness.

Bottom line: AKI in diarrhea illnesses is relatively rare. Close attention should be given to AKI in patients with certain serious comorbid illnesses.

Article citation: Bradshaw C, Han J, Chertow GM, Long J, Sutherland SM, Anand S. Acute Kidney Injury in Children Hospitalized With Diarrheal Illness in the United States. Hosp Pediatr. 2019 Dec;9(12):933-941.

Dr. Kumar is a pediatric hospitalist at Cleveland Clinic Children’s. She is a clinical assistant professor of pediatrics at Case Western Reserve University, and serves as the pediatrics editor for The Hospitalist.

Clinical question: To determine the incidence and consequences of acute kidney injury among children hospitalized with diarrheal illness in the United States.

Background: Diarrheal illness is the fourth leading cause of death for children younger than 5 years and the fifth leading cause of years of life lost globally. In the United States, diarrheal illness remains a leading cause of hospital admission among young children. Complications of severe diarrheal illness include hypovolemic acute kidney injury (AKI). Hospitalized children who develop AKI experience longer hospital stays and higher mortality. Additionally, children who experience AKI are at increased risk for chronic kidney disease (CKD), hypertension, and proteinuria.

Study design: Retrospective cohort study.

Setting: Kids’ Inpatient Database (KID) from 2009 and 2012. The authors used secondary International Classification of Diseases, Ninth Revision (ICD-9) diagnoses of AKI to identify patients.

Synopsis: The authors reviewed all patients with diarrhea and found that the incidence of AKI in children hospitalized was 0.8%. Those with infectious diarrhea had an incidence of 1% and with noninfectious diarrhea had an incidence of 0.6%. There was a higher incidence of dialysis-requiring AKI in patients with infectious diarrhea. The odds of developing AKI increased with older age in both infectious and noninfectious diarrheal illnesses. As compared with noninfectious diarrheal illness, infectious diarrheal illness was associated with higher odds of AKI (odds ratio, 2.1; 95% confidence interval, 1.7-2.7). Irrespective of diarrhea type, hematologic and rheumatologic conditions, solid organ transplant, CKD, and hypertension were associated with higher odds of developing AKI. AKI in infectious diarrheal illness was also associated with other renal or genitourinary abnormalities, whereas AKI in noninfectious diarrheal illness was associated with diabetes, cardiovascular, and neurologic conditions.

Hospitalizations for diarrheal illness complicated by AKI were associated with higher mortality, prolonged LOS, and higher hospital cost with odds of death increased eightfold with AKI, mean hospital stay was prolonged by 3 days, and costs increased by greater than $9,000 per hospital stay. The development of AKI in hospitalized diarrheal illness was associated with an up to 11-fold increase in the odds of in-hospital mortality for infectious (OR, 10.8; 95% CI, 3.4-34.3) and noninfectious diarrheal illness (OR, 7.0; 95% CI, 3.1-15.7).

The strengths of this study include broad representation of hospitals caring for children across the United States. The study was limited by its use of ICD-9 codes which may misidentify AKI. The authors were unable to determine if identifying AKI could improve outcomes for patients with diarrheal illness.

Bottom line: AKI in diarrhea illnesses is relatively rare. Close attention should be given to AKI in patients with certain serious comorbid illnesses.

Article citation: Bradshaw C, Han J, Chertow GM, Long J, Sutherland SM, Anand S. Acute Kidney Injury in Children Hospitalized With Diarrheal Illness in the United States. Hosp Pediatr. 2019 Dec;9(12):933-941.

Dr. Kumar is a pediatric hospitalist at Cleveland Clinic Children’s. She is a clinical assistant professor of pediatrics at Case Western Reserve University, and serves as the pediatrics editor for The Hospitalist.

Clinical question: To determine the incidence and consequences of acute kidney injury among children hospitalized with diarrheal illness in the United States.

Background: Diarrheal illness is the fourth leading cause of death for children younger than 5 years and the fifth leading cause of years of life lost globally. In the United States, diarrheal illness remains a leading cause of hospital admission among young children. Complications of severe diarrheal illness include hypovolemic acute kidney injury (AKI). Hospitalized children who develop AKI experience longer hospital stays and higher mortality. Additionally, children who experience AKI are at increased risk for chronic kidney disease (CKD), hypertension, and proteinuria.

Study design: Retrospective cohort study.

Setting: Kids’ Inpatient Database (KID) from 2009 and 2012. The authors used secondary International Classification of Diseases, Ninth Revision (ICD-9) diagnoses of AKI to identify patients.

Synopsis: The authors reviewed all patients with diarrhea and found that the incidence of AKI in children hospitalized was 0.8%. Those with infectious diarrhea had an incidence of 1% and with noninfectious diarrhea had an incidence of 0.6%. There was a higher incidence of dialysis-requiring AKI in patients with infectious diarrhea. The odds of developing AKI increased with older age in both infectious and noninfectious diarrheal illnesses. As compared with noninfectious diarrheal illness, infectious diarrheal illness was associated with higher odds of AKI (odds ratio, 2.1; 95% confidence interval, 1.7-2.7). Irrespective of diarrhea type, hematologic and rheumatologic conditions, solid organ transplant, CKD, and hypertension were associated with higher odds of developing AKI. AKI in infectious diarrheal illness was also associated with other renal or genitourinary abnormalities, whereas AKI in noninfectious diarrheal illness was associated with diabetes, cardiovascular, and neurologic conditions.

Hospitalizations for diarrheal illness complicated by AKI were associated with higher mortality, prolonged LOS, and higher hospital cost with odds of death increased eightfold with AKI, mean hospital stay was prolonged by 3 days, and costs increased by greater than $9,000 per hospital stay. The development of AKI in hospitalized diarrheal illness was associated with an up to 11-fold increase in the odds of in-hospital mortality for infectious (OR, 10.8; 95% CI, 3.4-34.3) and noninfectious diarrheal illness (OR, 7.0; 95% CI, 3.1-15.7).

The strengths of this study include broad representation of hospitals caring for children across the United States. The study was limited by its use of ICD-9 codes which may misidentify AKI. The authors were unable to determine if identifying AKI could improve outcomes for patients with diarrheal illness.

Bottom line: AKI in diarrhea illnesses is relatively rare. Close attention should be given to AKI in patients with certain serious comorbid illnesses.

Article citation: Bradshaw C, Han J, Chertow GM, Long J, Sutherland SM, Anand S. Acute Kidney Injury in Children Hospitalized With Diarrheal Illness in the United States. Hosp Pediatr. 2019 Dec;9(12):933-941.

Dr. Kumar is a pediatric hospitalist at Cleveland Clinic Children’s. She is a clinical assistant professor of pediatrics at Case Western Reserve University, and serves as the pediatrics editor for The Hospitalist.

For patients with lupus nephritis, kidney response improves when voclosporin (Aurinia Pharmaceuticals) is added to mycophenolate and low-dose corticosteroids, results from the phase 3 AURORA trial show.
 

The calcineurin inhibitor is the first novel agent to demonstrate effectiveness in the treatment of people with lupus nephritis, a disease that can lead to irreversible kidney damage, kidney failure, and even death.

“We believe that voclosporin – as an add-on therapy – will help more patients achieve remission,” said Keisha Gibson, MD, MPH, chief of pediatric nephrology at the UNC Kidney Center in Chapel Hill, North Carolina, who led the study and presented the findings during a virtual session at the National Kidney Foundation 2020 Spring Clinical Meetings.

The burden that lupus places on patients and the health system is high, she reported. Patients with lupus and uncontrolled kidney disease frequently have complications that require hospitalization, can suffer complete or partial loss of income, and can become temporarily disabled. And up to 50% of lupus patients will develop lupus nephritis.

“When we are lucky and see early treatment responses in our patients, we know that their long-term outcomes, measured by proteinuria reduction, are quite good,” said Gibson. “Unfortunately, in 10% to 30% of patients, despite standard-of-care therapies, we see progression to end-stage kidney disease within 15 years of diagnosis. This confers a huge cost to overall health and quality of life, and is an excess burden to the healthcare system.

“It is clear that one of the biggest risk factors for these patients who have kidney disease that is progressing to kidney failure is an inability to control the inflammation and chronic damage from uncontrolled disease,” she told Medscape Medical News.

“While there have certainly been a few advances in the care of patients with lupus disease, I believe that this therapy may help move the needle, specifically for patients with kidney involvement from their lupus disease,” she added.

Renal Response Much Higher With Voclosporin

The typical standard of care for patients with active lupus and kidney disease is either a combination of cyclophosphamide plus steroids or a combination of mycophenolate mofetil plus steroids.

The global, double-blind, randomized, placebo-controlled trial compared the effectiveness and safety of twice-daily oral voclosporin 23.7 mg with placebo. All 357 study participants also received mycophenolate 2 g daily and rapidly tapered low-dose oral corticosteroids.

At 1 year, the renal response rate was higher in the voclosporin group than in the placebo group (40.8% vs 22.5%; odds ratio, 2.65; P < .001).

“AURORA patients achieved low levels of protein twice as quickly as patients on standard of care,” the researchers write in their abstract. Median time to the achievement of a urine protein to creatinine ratio below 0.5 mg/mg was significantly and clinically better with voclosporin than with placebo (169 vs 372 days; log rank P < .001).

And voclosporin was well tolerated. The percentage of serious adverse events was similar in the voclosporin and placebo groups (20.8% vs 21.3%), with infection being the most common serious event (10.1% vs 11.2%).

In the voclosporin group, there were no significant differences between baseline and 1 year estimated glomerular filtration rates (eGFR), blood pressure, lipid levels, or sugar levels.

And there were fewer deaths in the voclosporin group than in the placebo group (1 vs 5).

Benefits were seen in all subgroups, including age, sex, race, biopsy class, geographic region of origin, and mycophenolate exposure at screening, Gibson reported.

Promise of a New Treatment

The promise of a new treatment is exciting for the field, said Joseph Vassalotti, MD, chief medical officer of the National Kidney Foundation.

However, it’s important to note that “this study is applicable only to patients with lupus nephritis with preserved kidney function,” he added.

An “eGFR less than 45 mL/min per 1.73 m² was implied as an exclusion criteria, so I would say it certainly doesn’t apply to patients with impaired kidney function,” he said, pointing out that this will be clearer when the final data are published.

The study cohort was heterogeneous; 86% of participants had class 3 or 4 biopsy findings and 14% had class 5, so the superiority of voclosporin is convincing, he said.

“We look forward to full publication and more details,” he told Medscape Medical News. “They do have an extension study, and it will be interesting to see how that plays out.”

Voclosporin was granted Fast Track designation by the US Food and Drug Administration in 2016, and these positive phase 3 results mean that a New Drug Application will likely be filed in the next few months. If approved, the drug could be on the market by 2021, according to a press release from Aurinia.

Nephrologists are familiar with calcineurin inhibitors, so it will be interesting to see, given the success of this trial, if voclosporin has a potential role in other kidney diseases, “such as minimal change disease,” said Vassalotti.

He added that there are concerns, unrelated to the AURORA trial, about the supply of hydroxychloroquine, which is also used for the treatment of lupus nephritis. “An overarching concern is that the supply will be limited now that the drug is being studied and used as prophylaxis after exposure to SARS-CoV-2 and as a treatment for COVID-19, creating challenges for patients with lupus nephritis trying to obtain their needed medication,” he said.

Gibson reports no relevant financial relationships. Two coauthors work for the drugmaker, Aurinia. Vassalotti reports no relevant financial relationships.
 

This article first appeared on Medscape.com.

For patients with lupus nephritis, kidney response improves when voclosporin (Aurinia Pharmaceuticals) is added to mycophenolate and low-dose corticosteroids, results from the phase 3 AURORA trial show.
 

The calcineurin inhibitor is the first novel agent to demonstrate effectiveness in the treatment of people with lupus nephritis, a disease that can lead to irreversible kidney damage, kidney failure, and even death.

“We believe that voclosporin – as an add-on therapy – will help more patients achieve remission,” said Keisha Gibson, MD, MPH, chief of pediatric nephrology at the UNC Kidney Center in Chapel Hill, North Carolina, who led the study and presented the findings during a virtual session at the National Kidney Foundation 2020 Spring Clinical Meetings.

The burden that lupus places on patients and the health system is high, she reported. Patients with lupus and uncontrolled kidney disease frequently have complications that require hospitalization, can suffer complete or partial loss of income, and can become temporarily disabled. And up to 50% of lupus patients will develop lupus nephritis.

“When we are lucky and see early treatment responses in our patients, we know that their long-term outcomes, measured by proteinuria reduction, are quite good,” said Gibson. “Unfortunately, in 10% to 30% of patients, despite standard-of-care therapies, we see progression to end-stage kidney disease within 15 years of diagnosis. This confers a huge cost to overall health and quality of life, and is an excess burden to the healthcare system.

“It is clear that one of the biggest risk factors for these patients who have kidney disease that is progressing to kidney failure is an inability to control the inflammation and chronic damage from uncontrolled disease,” she told Medscape Medical News.

“While there have certainly been a few advances in the care of patients with lupus disease, I believe that this therapy may help move the needle, specifically for patients with kidney involvement from their lupus disease,” she added.

Renal Response Much Higher With Voclosporin

The typical standard of care for patients with active lupus and kidney disease is either a combination of cyclophosphamide plus steroids or a combination of mycophenolate mofetil plus steroids.

The global, double-blind, randomized, placebo-controlled trial compared the effectiveness and safety of twice-daily oral voclosporin 23.7 mg with placebo. All 357 study participants also received mycophenolate 2 g daily and rapidly tapered low-dose oral corticosteroids.

At 1 year, the renal response rate was higher in the voclosporin group than in the placebo group (40.8% vs 22.5%; odds ratio, 2.65; P < .001).

“AURORA patients achieved low levels of protein twice as quickly as patients on standard of care,” the researchers write in their abstract. Median time to the achievement of a urine protein to creatinine ratio below 0.5 mg/mg was significantly and clinically better with voclosporin than with placebo (169 vs 372 days; log rank P < .001).

And voclosporin was well tolerated. The percentage of serious adverse events was similar in the voclosporin and placebo groups (20.8% vs 21.3%), with infection being the most common serious event (10.1% vs 11.2%).

In the voclosporin group, there were no significant differences between baseline and 1 year estimated glomerular filtration rates (eGFR), blood pressure, lipid levels, or sugar levels.

And there were fewer deaths in the voclosporin group than in the placebo group (1 vs 5).

Benefits were seen in all subgroups, including age, sex, race, biopsy class, geographic region of origin, and mycophenolate exposure at screening, Gibson reported.

Promise of a New Treatment

The promise of a new treatment is exciting for the field, said Joseph Vassalotti, MD, chief medical officer of the National Kidney Foundation.

However, it’s important to note that “this study is applicable only to patients with lupus nephritis with preserved kidney function,” he added.

An “eGFR less than 45 mL/min per 1.73 m² was implied as an exclusion criteria, so I would say it certainly doesn’t apply to patients with impaired kidney function,” he said, pointing out that this will be clearer when the final data are published.

The study cohort was heterogeneous; 86% of participants had class 3 or 4 biopsy findings and 14% had class 5, so the superiority of voclosporin is convincing, he said.

“We look forward to full publication and more details,” he told Medscape Medical News. “They do have an extension study, and it will be interesting to see how that plays out.”

Voclosporin was granted Fast Track designation by the US Food and Drug Administration in 2016, and these positive phase 3 results mean that a New Drug Application will likely be filed in the next few months. If approved, the drug could be on the market by 2021, according to a press release from Aurinia.

Nephrologists are familiar with calcineurin inhibitors, so it will be interesting to see, given the success of this trial, if voclosporin has a potential role in other kidney diseases, “such as minimal change disease,” said Vassalotti.

He added that there are concerns, unrelated to the AURORA trial, about the supply of hydroxychloroquine, which is also used for the treatment of lupus nephritis. “An overarching concern is that the supply will be limited now that the drug is being studied and used as prophylaxis after exposure to SARS-CoV-2 and as a treatment for COVID-19, creating challenges for patients with lupus nephritis trying to obtain their needed medication,” he said.

Gibson reports no relevant financial relationships. Two coauthors work for the drugmaker, Aurinia. Vassalotti reports no relevant financial relationships.
 

This article first appeared on Medscape.com.

For patients with lupus nephritis, kidney response improves when voclosporin (Aurinia Pharmaceuticals) is added to mycophenolate and low-dose corticosteroids, results from the phase 3 AURORA trial show.
 

The calcineurin inhibitor is the first novel agent to demonstrate effectiveness in the treatment of people with lupus nephritis, a disease that can lead to irreversible kidney damage, kidney failure, and even death.

“We believe that voclosporin – as an add-on therapy – will help more patients achieve remission,” said Keisha Gibson, MD, MPH, chief of pediatric nephrology at the UNC Kidney Center in Chapel Hill, North Carolina, who led the study and presented the findings during a virtual session at the National Kidney Foundation 2020 Spring Clinical Meetings.

The burden that lupus places on patients and the health system is high, she reported. Patients with lupus and uncontrolled kidney disease frequently have complications that require hospitalization, can suffer complete or partial loss of income, and can become temporarily disabled. And up to 50% of lupus patients will develop lupus nephritis.

“When we are lucky and see early treatment responses in our patients, we know that their long-term outcomes, measured by proteinuria reduction, are quite good,” said Gibson. “Unfortunately, in 10% to 30% of patients, despite standard-of-care therapies, we see progression to end-stage kidney disease within 15 years of diagnosis. This confers a huge cost to overall health and quality of life, and is an excess burden to the healthcare system.

“It is clear that one of the biggest risk factors for these patients who have kidney disease that is progressing to kidney failure is an inability to control the inflammation and chronic damage from uncontrolled disease,” she told Medscape Medical News.

“While there have certainly been a few advances in the care of patients with lupus disease, I believe that this therapy may help move the needle, specifically for patients with kidney involvement from their lupus disease,” she added.

Renal Response Much Higher With Voclosporin

The typical standard of care for patients with active lupus and kidney disease is either a combination of cyclophosphamide plus steroids or a combination of mycophenolate mofetil plus steroids.

The global, double-blind, randomized, placebo-controlled trial compared the effectiveness and safety of twice-daily oral voclosporin 23.7 mg with placebo. All 357 study participants also received mycophenolate 2 g daily and rapidly tapered low-dose oral corticosteroids.

At 1 year, the renal response rate was higher in the voclosporin group than in the placebo group (40.8% vs 22.5%; odds ratio, 2.65; P < .001).

“AURORA patients achieved low levels of protein twice as quickly as patients on standard of care,” the researchers write in their abstract. Median time to the achievement of a urine protein to creatinine ratio below 0.5 mg/mg was significantly and clinically better with voclosporin than with placebo (169 vs 372 days; log rank P < .001).

And voclosporin was well tolerated. The percentage of serious adverse events was similar in the voclosporin and placebo groups (20.8% vs 21.3%), with infection being the most common serious event (10.1% vs 11.2%).

In the voclosporin group, there were no significant differences between baseline and 1 year estimated glomerular filtration rates (eGFR), blood pressure, lipid levels, or sugar levels.

And there were fewer deaths in the voclosporin group than in the placebo group (1 vs 5).

Benefits were seen in all subgroups, including age, sex, race, biopsy class, geographic region of origin, and mycophenolate exposure at screening, Gibson reported.

Promise of a New Treatment

The promise of a new treatment is exciting for the field, said Joseph Vassalotti, MD, chief medical officer of the National Kidney Foundation.

However, it’s important to note that “this study is applicable only to patients with lupus nephritis with preserved kidney function,” he added.

An “eGFR less than 45 mL/min per 1.73 m² was implied as an exclusion criteria, so I would say it certainly doesn’t apply to patients with impaired kidney function,” he said, pointing out that this will be clearer when the final data are published.

The study cohort was heterogeneous; 86% of participants had class 3 or 4 biopsy findings and 14% had class 5, so the superiority of voclosporin is convincing, he said.

“We look forward to full publication and more details,” he told Medscape Medical News. “They do have an extension study, and it will be interesting to see how that plays out.”

Voclosporin was granted Fast Track designation by the US Food and Drug Administration in 2016, and these positive phase 3 results mean that a New Drug Application will likely be filed in the next few months. If approved, the drug could be on the market by 2021, according to a press release from Aurinia.

Nephrologists are familiar with calcineurin inhibitors, so it will be interesting to see, given the success of this trial, if voclosporin has a potential role in other kidney diseases, “such as minimal change disease,” said Vassalotti.

He added that there are concerns, unrelated to the AURORA trial, about the supply of hydroxychloroquine, which is also used for the treatment of lupus nephritis. “An overarching concern is that the supply will be limited now that the drug is being studied and used as prophylaxis after exposure to SARS-CoV-2 and as a treatment for COVID-19, creating challenges for patients with lupus nephritis trying to obtain their needed medication,” he said.

Gibson reports no relevant financial relationships. Two coauthors work for the drugmaker, Aurinia. Vassalotti reports no relevant financial relationships.
 

This article first appeared on Medscape.com.

AstraZeneca has announced that the phase 3 DAPA-CKD trial for dapagliflozin (Farxiga) in patients with chronic kidney disease has been halted early because of overwhelming efficacy of the drug, at the recommendation of an independent data monitoring committee.

DAPA-CKD is an international, multicenter, randomized, double-blinded trial in 4,245 patients with stage 2-4 chronic kidney disease. Patients received either 10 mg of the dapagliflozin once-daily or a placebo. The primary composite endpoint is worsening of renal function, defined as a composite of an estimated glomerular filtration rate decline of at least 50%, onset of end-stage kidney disease, and death from cardiovascular or renal cause.

The decision to stop the trial came after a routine assessment of efficacy and safety that showed dapagliflozin’s benefits significantly earlier than expected. AstraZeneca will initiate closure of the study, and results will be published and submitted for presentation at a forthcoming medical meeting.

Dapagliflozin is a sodium-glucose transporter 2 inhibitor currently indicated for the treatment type 2 diabetes patients with inadequately controlled type 2 diabetes and for reduction of the risk of hospitalization for heart failure. In August 2019, the drug was granted Fast Track status by the Food and Drug Administration for the treatment of chronic kidney disease. In January 2020, the agency also granted Fast Track status for the reduction of risk of cardiovascular death or worsening of heart failure in adult patients, regardless of diabetes status, with heart failure with reduced ejection fraction.

“Chronic kidney disease patients have limited treatment options, particularly those without type-2 diabetes. We are very pleased the data monitoring committee concluded that patients experienced overwhelming benefit. Farxiga has the potential to change the management of chronic kidney disease for patients around the world,” Mene Pangalos, executive vice president of BioPharmaceuticals R&D, said in the press release.

[email protected]

AstraZeneca has announced that the phase 3 DAPA-CKD trial for dapagliflozin (Farxiga) in patients with chronic kidney disease has been halted early because of overwhelming efficacy of the drug, at the recommendation of an independent data monitoring committee.

DAPA-CKD is an international, multicenter, randomized, double-blinded trial in 4,245 patients with stage 2-4 chronic kidney disease. Patients received either 10 mg of the dapagliflozin once-daily or a placebo. The primary composite endpoint is worsening of renal function, defined as a composite of an estimated glomerular filtration rate decline of at least 50%, onset of end-stage kidney disease, and death from cardiovascular or renal cause.

The decision to stop the trial came after a routine assessment of efficacy and safety that showed dapagliflozin’s benefits significantly earlier than expected. AstraZeneca will initiate closure of the study, and results will be published and submitted for presentation at a forthcoming medical meeting.

Dapagliflozin is a sodium-glucose transporter 2 inhibitor currently indicated for the treatment type 2 diabetes patients with inadequately controlled type 2 diabetes and for reduction of the risk of hospitalization for heart failure. In August 2019, the drug was granted Fast Track status by the Food and Drug Administration for the treatment of chronic kidney disease. In January 2020, the agency also granted Fast Track status for the reduction of risk of cardiovascular death or worsening of heart failure in adult patients, regardless of diabetes status, with heart failure with reduced ejection fraction.

“Chronic kidney disease patients have limited treatment options, particularly those without type-2 diabetes. We are very pleased the data monitoring committee concluded that patients experienced overwhelming benefit. Farxiga has the potential to change the management of chronic kidney disease for patients around the world,” Mene Pangalos, executive vice president of BioPharmaceuticals R&D, said in the press release.

[email protected]

AstraZeneca has announced that the phase 3 DAPA-CKD trial for dapagliflozin (Farxiga) in patients with chronic kidney disease has been halted early because of overwhelming efficacy of the drug, at the recommendation of an independent data monitoring committee.

DAPA-CKD is an international, multicenter, randomized, double-blinded trial in 4,245 patients with stage 2-4 chronic kidney disease. Patients received either 10 mg of the dapagliflozin once-daily or a placebo. The primary composite endpoint is worsening of renal function, defined as a composite of an estimated glomerular filtration rate decline of at least 50%, onset of end-stage kidney disease, and death from cardiovascular or renal cause.

The decision to stop the trial came after a routine assessment of efficacy and safety that showed dapagliflozin’s benefits significantly earlier than expected. AstraZeneca will initiate closure of the study, and results will be published and submitted for presentation at a forthcoming medical meeting.

Dapagliflozin is a sodium-glucose transporter 2 inhibitor currently indicated for the treatment type 2 diabetes patients with inadequately controlled type 2 diabetes and for reduction of the risk of hospitalization for heart failure. In August 2019, the drug was granted Fast Track status by the Food and Drug Administration for the treatment of chronic kidney disease. In January 2020, the agency also granted Fast Track status for the reduction of risk of cardiovascular death or worsening of heart failure in adult patients, regardless of diabetes status, with heart failure with reduced ejection fraction.

“Chronic kidney disease patients have limited treatment options, particularly those without type-2 diabetes. We are very pleased the data monitoring committee concluded that patients experienced overwhelming benefit. Farxiga has the potential to change the management of chronic kidney disease for patients around the world,” Mene Pangalos, executive vice president of BioPharmaceuticals R&D, said in the press release.

[email protected]

Several risk factors, including smoking, a previous severe hypoglycemic event, and poorly functioning kidneys, can lead to vision loss in patients with type 2 diabetes, according to new findings published in the Journal of Diabetes and its Complications.

“Smoking cessation strategies and optimal cardiometabolic risk factor management, including blood glucose lowering regimens that minimize hypoglycemia, appear important in preventing the loss of vision associated with type 2 diabetes,” wrote Jocelyn J. Drinkwater of the University of Western Australia, Perth, and coauthors, noting that all three noted risk factors were “potentially modifiable.”

To investigate the impact of type 2 diabetes and associated risk factors on vision, the researchers recruited 1,732 participants for the Fremantle Diabetes Study Phase II, of whom 1,551 patients had type 2 diabetes and underwent face-to-face and visual acuity assessments at baseline and at 2 and 4 years. Visual acuity was measured via the Bailey Lovie chart at a distance of 3 m in a well-lit room. Normal or near-normal vision was classified as a visual acuity of equal to or less than 6/19; visual impairment, a visual acuity of greater than 6/19 and equal to or less than 6/48; and blindness, a visual acuity of greater than 6/48. A change in vision was classified as a difference in visual acuity of more than 10 letters from baseline measurement.

Of the initial 1,551 participants, 31 were excluded because of missing baseline data for visual acuity. The remaining group comprised 52.2% men, the mean age was 65.6 years, and the median diabetes duration was 8.5 years (interquartile range, 2.9-15.8). At baseline, the prevalence of visual impairment was 1.8% (28 patients), and prevalence of blindness was 0.7% (11 patients), so those 39 patients were also excluded from further analysis.

After 4 years, 599 patients (39%) were excluded because of attrition or missing data; among them, 138 (23%) died before the follow-up.

The remaining 882 participants (58%) had their visual acuity measured. Among these patients, 62.2% were men, with a mean age of 65.1 years and an initial median diabetes duration of 7 years (IQR, 2.0-15.0). Their cumulative incidence of visual impairment was 0.9% (eight patients), and no patients with normal or near-normal vision had developed blindness. Cumulative incidence of vision loss was 2.9% (26), and 1.9% (17) had improved visual acuity.

After multivariable logistic regression to determine predictors for vision loss, the researchers found that participants who smoked at baseline were more than three times more likely to lose their vision (odds ratio, 3.17; 95% confidence interval, 1.15-8.76; P = .026). Although smoking was noted as a “well-recognized risk factor for ocular disease,” the authors added that ex-smokers did not have significantly higher odds of vision loss, compared with nonsmokers, suggesting that the “ocular damage caused by smoking may not be permanent.”

Participants who had suffered a severe hypoglycemic event before the study were five times more likely to lose their vision (OR, 5.59; 95% CI, 1.32-23.61; P = .019). The authors emphasized that severe hypoglycemia can worsen existing ischemic tissue damage or contribute to a long duration of poorly controlled diabetes, each of which could “increase the risk of ocular complications leading to impaired vision.”

The final notable risk factor was compromised kidney function, which is identified as a urinary albumin-creatinine ratio (uACR). The authors noted that the uACR has been associated with other ocular pathologies, such as retinopathy and macular edema, and that uACR may be a “surrogate marker of a variety of ocular diseases with shared risk factors, such as poor metabolic control, which have implications for vision.”

In regard to the possible limitations of the study, they authors noted that they had not used the “gold standard” Early Treatment Diabetic Retinopathy Study chart to assess visual acuity. In addition, although they had details on retinopathy, cataracts, and glaucoma status, they did not also consider less common ophthalmic conditions. Finally, as a survivor cohort, they acknowledged that they may have “underestimated the cumulative incidence” of vision issues in the participants.

The study was supported by the National Health and Medical Research Council of Australia. The authors reported no conflicts of interest.

SOURCE: Drinkwater JJ et al. J Diabetes Complications. 2020 Feb 20. doi: 10.1016/j.jdiacomp.2020.107560.

Several risk factors, including smoking, a previous severe hypoglycemic event, and poorly functioning kidneys, can lead to vision loss in patients with type 2 diabetes, according to new findings published in the Journal of Diabetes and its Complications.

“Smoking cessation strategies and optimal cardiometabolic risk factor management, including blood glucose lowering regimens that minimize hypoglycemia, appear important in preventing the loss of vision associated with type 2 diabetes,” wrote Jocelyn J. Drinkwater of the University of Western Australia, Perth, and coauthors, noting that all three noted risk factors were “potentially modifiable.”

To investigate the impact of type 2 diabetes and associated risk factors on vision, the researchers recruited 1,732 participants for the Fremantle Diabetes Study Phase II, of whom 1,551 patients had type 2 diabetes and underwent face-to-face and visual acuity assessments at baseline and at 2 and 4 years. Visual acuity was measured via the Bailey Lovie chart at a distance of 3 m in a well-lit room. Normal or near-normal vision was classified as a visual acuity of equal to or less than 6/19; visual impairment, a visual acuity of greater than 6/19 and equal to or less than 6/48; and blindness, a visual acuity of greater than 6/48. A change in vision was classified as a difference in visual acuity of more than 10 letters from baseline measurement.

Of the initial 1,551 participants, 31 were excluded because of missing baseline data for visual acuity. The remaining group comprised 52.2% men, the mean age was 65.6 years, and the median diabetes duration was 8.5 years (interquartile range, 2.9-15.8). At baseline, the prevalence of visual impairment was 1.8% (28 patients), and prevalence of blindness was 0.7% (11 patients), so those 39 patients were also excluded from further analysis.

After 4 years, 599 patients (39%) were excluded because of attrition or missing data; among them, 138 (23%) died before the follow-up.

The remaining 882 participants (58%) had their visual acuity measured. Among these patients, 62.2% were men, with a mean age of 65.1 years and an initial median diabetes duration of 7 years (IQR, 2.0-15.0). Their cumulative incidence of visual impairment was 0.9% (eight patients), and no patients with normal or near-normal vision had developed blindness. Cumulative incidence of vision loss was 2.9% (26), and 1.9% (17) had improved visual acuity.

After multivariable logistic regression to determine predictors for vision loss, the researchers found that participants who smoked at baseline were more than three times more likely to lose their vision (odds ratio, 3.17; 95% confidence interval, 1.15-8.76; P = .026). Although smoking was noted as a “well-recognized risk factor for ocular disease,” the authors added that ex-smokers did not have significantly higher odds of vision loss, compared with nonsmokers, suggesting that the “ocular damage caused by smoking may not be permanent.”

Participants who had suffered a severe hypoglycemic event before the study were five times more likely to lose their vision (OR, 5.59; 95% CI, 1.32-23.61; P = .019). The authors emphasized that severe hypoglycemia can worsen existing ischemic tissue damage or contribute to a long duration of poorly controlled diabetes, each of which could “increase the risk of ocular complications leading to impaired vision.”

The final notable risk factor was compromised kidney function, which is identified as a urinary albumin-creatinine ratio (uACR). The authors noted that the uACR has been associated with other ocular pathologies, such as retinopathy and macular edema, and that uACR may be a “surrogate marker of a variety of ocular diseases with shared risk factors, such as poor metabolic control, which have implications for vision.”

In regard to the possible limitations of the study, they authors noted that they had not used the “gold standard” Early Treatment Diabetic Retinopathy Study chart to assess visual acuity. In addition, although they had details on retinopathy, cataracts, and glaucoma status, they did not also consider less common ophthalmic conditions. Finally, as a survivor cohort, they acknowledged that they may have “underestimated the cumulative incidence” of vision issues in the participants.

The study was supported by the National Health and Medical Research Council of Australia. The authors reported no conflicts of interest.

SOURCE: Drinkwater JJ et al. J Diabetes Complications. 2020 Feb 20. doi: 10.1016/j.jdiacomp.2020.107560.

Several risk factors, including smoking, a previous severe hypoglycemic event, and poorly functioning kidneys, can lead to vision loss in patients with type 2 diabetes, according to new findings published in the Journal of Diabetes and its Complications.

“Smoking cessation strategies and optimal cardiometabolic risk factor management, including blood glucose lowering regimens that minimize hypoglycemia, appear important in preventing the loss of vision associated with type 2 diabetes,” wrote Jocelyn J. Drinkwater of the University of Western Australia, Perth, and coauthors, noting that all three noted risk factors were “potentially modifiable.”

To investigate the impact of type 2 diabetes and associated risk factors on vision, the researchers recruited 1,732 participants for the Fremantle Diabetes Study Phase II, of whom 1,551 patients had type 2 diabetes and underwent face-to-face and visual acuity assessments at baseline and at 2 and 4 years. Visual acuity was measured via the Bailey Lovie chart at a distance of 3 m in a well-lit room. Normal or near-normal vision was classified as a visual acuity of equal to or less than 6/19; visual impairment, a visual acuity of greater than 6/19 and equal to or less than 6/48; and blindness, a visual acuity of greater than 6/48. A change in vision was classified as a difference in visual acuity of more than 10 letters from baseline measurement.

Of the initial 1,551 participants, 31 were excluded because of missing baseline data for visual acuity. The remaining group comprised 52.2% men, the mean age was 65.6 years, and the median diabetes duration was 8.5 years (interquartile range, 2.9-15.8). At baseline, the prevalence of visual impairment was 1.8% (28 patients), and prevalence of blindness was 0.7% (11 patients), so those 39 patients were also excluded from further analysis.

After 4 years, 599 patients (39%) were excluded because of attrition or missing data; among them, 138 (23%) died before the follow-up.

The remaining 882 participants (58%) had their visual acuity measured. Among these patients, 62.2% were men, with a mean age of 65.1 years and an initial median diabetes duration of 7 years (IQR, 2.0-15.0). Their cumulative incidence of visual impairment was 0.9% (eight patients), and no patients with normal or near-normal vision had developed blindness. Cumulative incidence of vision loss was 2.9% (26), and 1.9% (17) had improved visual acuity.

After multivariable logistic regression to determine predictors for vision loss, the researchers found that participants who smoked at baseline were more than three times more likely to lose their vision (odds ratio, 3.17; 95% confidence interval, 1.15-8.76; P = .026). Although smoking was noted as a “well-recognized risk factor for ocular disease,” the authors added that ex-smokers did not have significantly higher odds of vision loss, compared with nonsmokers, suggesting that the “ocular damage caused by smoking may not be permanent.”

Participants who had suffered a severe hypoglycemic event before the study were five times more likely to lose their vision (OR, 5.59; 95% CI, 1.32-23.61; P = .019). The authors emphasized that severe hypoglycemia can worsen existing ischemic tissue damage or contribute to a long duration of poorly controlled diabetes, each of which could “increase the risk of ocular complications leading to impaired vision.”

The final notable risk factor was compromised kidney function, which is identified as a urinary albumin-creatinine ratio (uACR). The authors noted that the uACR has been associated with other ocular pathologies, such as retinopathy and macular edema, and that uACR may be a “surrogate marker of a variety of ocular diseases with shared risk factors, such as poor metabolic control, which have implications for vision.”

In regard to the possible limitations of the study, they authors noted that they had not used the “gold standard” Early Treatment Diabetic Retinopathy Study chart to assess visual acuity. In addition, although they had details on retinopathy, cataracts, and glaucoma status, they did not also consider less common ophthalmic conditions. Finally, as a survivor cohort, they acknowledged that they may have “underestimated the cumulative incidence” of vision issues in the participants.

The study was supported by the National Health and Medical Research Council of Australia. The authors reported no conflicts of interest.

SOURCE: Drinkwater JJ et al. J Diabetes Complications. 2020 Feb 20. doi: 10.1016/j.jdiacomp.2020.107560.

Women who had experienced stillbirth were more than twice as likely to eventually develop end-stage renal disease (ESRD) than were those who had not, and they were also at greater risk for chronic kidney disease (CKD), according to findings published in the American Journal of Obstetrics & Gynecology.

Peter M Barrett, MB, of the University College Cork (Ireland), and colleagues conducted a population-based cohort study using data from the Swedish Medical Birth Register, National Patient Register, and the Swedish Renal Register to identify women who had live births and stillbirths. They then used anonymized unique personal identification numbers to cross-reference the registries.

From a full cohort of nearly 2 million women who gave birth during 1973-2012, and during a median follow-up of 20.7 years, 13,032 women experienced stillbirth, which, until 2008, was defined as fetal death after 28 weeks’ gestation, and after 2008, as occurring after 22 weeks. Women were excluded if they had any diagnosis of renal disease before their first pregnancy, as well as for a history of cardiovascular disease, chronic hypertension, diabetes, and certain other conditions at baseline.

Overall, 18,017 women developed CKD, and 1,283 developed ESRD. The fully adjusted model showed adjusted hazard ratios of 1.26 for CKD (95% confidence interval, 1.09-1.45) and 2.25 for ESRD (95% CI, 1.55-3.25) in women who had experienced stillbirth, compared with those who had not experienced stillbirth.

The researchers reported that associations between stillbirth and renal disease existed independently of underlying medical and obstetric comorbidities, such as congenital malformations, being small for gestational age, and preeclampsia, and that when those comorbidities were excluded, “the associations between stillbirth and maternal renal disease were strengthened (CKD: aHR, 1.33; 95% CI, 1.13-1.57; and ESRD: aHR, 2.95; 95% CI, 1.86-4.68).”

In addition, they noted that there was no significant association between stillbirth and either CKD or ESRD in women who had prepregnancy medical comorbidities (CKD: aHR, 1.13; 95% CI 0.73-1.75; and ESRD: aHR 1.49; 95% CI, 0.78-2.85).

“Further research is required to better understand the underlying pathophysiology of this association and to determine whether affected women would benefit from closer surveillance and follow-up for future hypertension and renal disease,” the authors concluded.

The work was performed within the Irish Clinical Academic Training Programme and was funded by grants from several organizations. The authors reported no conflicts of interest.

[email protected]

SOURCE: Barret PM et al. Am J Obstet Gynecol. 2020 Feb 26. doi: 10.1016/j.ajog.2020.02.031.

Women who had experienced stillbirth were more than twice as likely to eventually develop end-stage renal disease (ESRD) than were those who had not, and they were also at greater risk for chronic kidney disease (CKD), according to findings published in the American Journal of Obstetrics & Gynecology.

Peter M Barrett, MB, of the University College Cork (Ireland), and colleagues conducted a population-based cohort study using data from the Swedish Medical Birth Register, National Patient Register, and the Swedish Renal Register to identify women who had live births and stillbirths. They then used anonymized unique personal identification numbers to cross-reference the registries.

From a full cohort of nearly 2 million women who gave birth during 1973-2012, and during a median follow-up of 20.7 years, 13,032 women experienced stillbirth, which, until 2008, was defined as fetal death after 28 weeks’ gestation, and after 2008, as occurring after 22 weeks. Women were excluded if they had any diagnosis of renal disease before their first pregnancy, as well as for a history of cardiovascular disease, chronic hypertension, diabetes, and certain other conditions at baseline.

Overall, 18,017 women developed CKD, and 1,283 developed ESRD. The fully adjusted model showed adjusted hazard ratios of 1.26 for CKD (95% confidence interval, 1.09-1.45) and 2.25 for ESRD (95% CI, 1.55-3.25) in women who had experienced stillbirth, compared with those who had not experienced stillbirth.

The researchers reported that associations between stillbirth and renal disease existed independently of underlying medical and obstetric comorbidities, such as congenital malformations, being small for gestational age, and preeclampsia, and that when those comorbidities were excluded, “the associations between stillbirth and maternal renal disease were strengthened (CKD: aHR, 1.33; 95% CI, 1.13-1.57; and ESRD: aHR, 2.95; 95% CI, 1.86-4.68).”

In addition, they noted that there was no significant association between stillbirth and either CKD or ESRD in women who had prepregnancy medical comorbidities (CKD: aHR, 1.13; 95% CI 0.73-1.75; and ESRD: aHR 1.49; 95% CI, 0.78-2.85).

“Further research is required to better understand the underlying pathophysiology of this association and to determine whether affected women would benefit from closer surveillance and follow-up for future hypertension and renal disease,” the authors concluded.

The work was performed within the Irish Clinical Academic Training Programme and was funded by grants from several organizations. The authors reported no conflicts of interest.

[email protected]

SOURCE: Barret PM et al. Am J Obstet Gynecol. 2020 Feb 26. doi: 10.1016/j.ajog.2020.02.031.

Women who had experienced stillbirth were more than twice as likely to eventually develop end-stage renal disease (ESRD) than were those who had not, and they were also at greater risk for chronic kidney disease (CKD), according to findings published in the American Journal of Obstetrics & Gynecology.

Peter M Barrett, MB, of the University College Cork (Ireland), and colleagues conducted a population-based cohort study using data from the Swedish Medical Birth Register, National Patient Register, and the Swedish Renal Register to identify women who had live births and stillbirths. They then used anonymized unique personal identification numbers to cross-reference the registries.

From a full cohort of nearly 2 million women who gave birth during 1973-2012, and during a median follow-up of 20.7 years, 13,032 women experienced stillbirth, which, until 2008, was defined as fetal death after 28 weeks’ gestation, and after 2008, as occurring after 22 weeks. Women were excluded if they had any diagnosis of renal disease before their first pregnancy, as well as for a history of cardiovascular disease, chronic hypertension, diabetes, and certain other conditions at baseline.

Overall, 18,017 women developed CKD, and 1,283 developed ESRD. The fully adjusted model showed adjusted hazard ratios of 1.26 for CKD (95% confidence interval, 1.09-1.45) and 2.25 for ESRD (95% CI, 1.55-3.25) in women who had experienced stillbirth, compared with those who had not experienced stillbirth.

The researchers reported that associations between stillbirth and renal disease existed independently of underlying medical and obstetric comorbidities, such as congenital malformations, being small for gestational age, and preeclampsia, and that when those comorbidities were excluded, “the associations between stillbirth and maternal renal disease were strengthened (CKD: aHR, 1.33; 95% CI, 1.13-1.57; and ESRD: aHR, 2.95; 95% CI, 1.86-4.68).”

In addition, they noted that there was no significant association between stillbirth and either CKD or ESRD in women who had prepregnancy medical comorbidities (CKD: aHR, 1.13; 95% CI 0.73-1.75; and ESRD: aHR 1.49; 95% CI, 0.78-2.85).

“Further research is required to better understand the underlying pathophysiology of this association and to determine whether affected women would benefit from closer surveillance and follow-up for future hypertension and renal disease,” the authors concluded.

The work was performed within the Irish Clinical Academic Training Programme and was funded by grants from several organizations. The authors reported no conflicts of interest.

[email protected]

SOURCE: Barret PM et al. Am J Obstet Gynecol. 2020 Feb 26. doi: 10.1016/j.ajog.2020.02.031.

MAUI, HAWAII – Comorbid rheumatoid arthritis is a force multiplier for fragility fracture risk in patients with end-stage renal disease, Renée Peterkin-McCalman, MD, reported at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News

“Patients with RA and ESRD are at substantially increased risk of osteoporotic fragility fractures compared to the overall population of ESRD patients. So fracture prevention prior to initiation of dialysis should be a focus of care in patients with RA,” said Dr. Peterkin-McCalman, a rheumatology fellow at the Medical College of Georgia, Augusta.

She presented a retrospective cohort study of 10,706 adults who initiated hemodialysis or peritoneal dialysis for ESRD during 2005-2008, including 1,040 who also had RA. All subjects were drawn from the United States Renal Data System. The impetus for the study, Dr. Peterkin-McCalman explained in an interview, was that although prior studies have established that RA and ESRD are independent risk factors for osteoporotic fractures, the interplay between the two was previously unknown.

The risk of incident osteoporotic fractures during the first 3 years after going on renal dialysis was 14.7% in patients with ESRD only, vaulting to 25.6% in those with comorbid RA. Individuals with both RA and ESRD were at an adjusted 1.83-fold increased overall risk for new fragility fractures and at 1.85-fold increased risk for hip fracture, compared to those without RA.

Far and away the strongest risk factor for incident osteoporotic fractures in the group with RA plus ESRD was a history of a fracture sustained within 5 years prior to initiation of dialysis, with an associated 11.5-fold increased fracture risk overall and an 8.2-fold increased risk of hip fracture.

“The reason that’s important is we don’t really have any medications to reduce fracture risk once you get to ESRD. Of course, we have bisphosphonates and Prolia (denosumab) and things like that, but that’s in patients with milder CKD [chronic kidney disease] or no renal disease at all. So the goal is to identify the patients early who are at higher risk so that we can protect those bones before they get to ESRD and we have nothing left to treat them with,” she said.

In addition to a history of prevalent fracture prior to starting ESRD, the other risk factors for fracture in patients with ESRD and comorbid RA Dr. Peterkin-McCalman identified in her study included age greater than 50 years at the start of dialysis and female gender, which was associated with a twofold greater fracture risk than in men. Black patients with ESRD and RA were 64% less likely than whites to experience an incident fragility fracture. And the fracture risk was higher in patients on hemodialysis than with peritoneal dialysis.

Her study was supported by the Medical College of Georgia and a research grant from Dialysis Clinic Inc.

[email protected]

SOURCE: Peterkin-McCalman R et al. RWCS 2020.

MAUI, HAWAII – Comorbid rheumatoid arthritis is a force multiplier for fragility fracture risk in patients with end-stage renal disease, Renée Peterkin-McCalman, MD, reported at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News

“Patients with RA and ESRD are at substantially increased risk of osteoporotic fragility fractures compared to the overall population of ESRD patients. So fracture prevention prior to initiation of dialysis should be a focus of care in patients with RA,” said Dr. Peterkin-McCalman, a rheumatology fellow at the Medical College of Georgia, Augusta.

She presented a retrospective cohort study of 10,706 adults who initiated hemodialysis or peritoneal dialysis for ESRD during 2005-2008, including 1,040 who also had RA. All subjects were drawn from the United States Renal Data System. The impetus for the study, Dr. Peterkin-McCalman explained in an interview, was that although prior studies have established that RA and ESRD are independent risk factors for osteoporotic fractures, the interplay between the two was previously unknown.

The risk of incident osteoporotic fractures during the first 3 years after going on renal dialysis was 14.7% in patients with ESRD only, vaulting to 25.6% in those with comorbid RA. Individuals with both RA and ESRD were at an adjusted 1.83-fold increased overall risk for new fragility fractures and at 1.85-fold increased risk for hip fracture, compared to those without RA.

Far and away the strongest risk factor for incident osteoporotic fractures in the group with RA plus ESRD was a history of a fracture sustained within 5 years prior to initiation of dialysis, with an associated 11.5-fold increased fracture risk overall and an 8.2-fold increased risk of hip fracture.

“The reason that’s important is we don’t really have any medications to reduce fracture risk once you get to ESRD. Of course, we have bisphosphonates and Prolia (denosumab) and things like that, but that’s in patients with milder CKD [chronic kidney disease] or no renal disease at all. So the goal is to identify the patients early who are at higher risk so that we can protect those bones before they get to ESRD and we have nothing left to treat them with,” she said.

In addition to a history of prevalent fracture prior to starting ESRD, the other risk factors for fracture in patients with ESRD and comorbid RA Dr. Peterkin-McCalman identified in her study included age greater than 50 years at the start of dialysis and female gender, which was associated with a twofold greater fracture risk than in men. Black patients with ESRD and RA were 64% less likely than whites to experience an incident fragility fracture. And the fracture risk was higher in patients on hemodialysis than with peritoneal dialysis.

Her study was supported by the Medical College of Georgia and a research grant from Dialysis Clinic Inc.

[email protected]

SOURCE: Peterkin-McCalman R et al. RWCS 2020.

MAUI, HAWAII – Comorbid rheumatoid arthritis is a force multiplier for fragility fracture risk in patients with end-stage renal disease, Renée Peterkin-McCalman, MD, reported at the 2020 Rheumatology Winter Clinical Symposium.

Bruce Jancin/MDedge News

“Patients with RA and ESRD are at substantially increased risk of osteoporotic fragility fractures compared to the overall population of ESRD patients. So fracture prevention prior to initiation of dialysis should be a focus of care in patients with RA,” said Dr. Peterkin-McCalman, a rheumatology fellow at the Medical College of Georgia, Augusta.

She presented a retrospective cohort study of 10,706 adults who initiated hemodialysis or peritoneal dialysis for ESRD during 2005-2008, including 1,040 who also had RA. All subjects were drawn from the United States Renal Data System. The impetus for the study, Dr. Peterkin-McCalman explained in an interview, was that although prior studies have established that RA and ESRD are independent risk factors for osteoporotic fractures, the interplay between the two was previously unknown.

The risk of incident osteoporotic fractures during the first 3 years after going on renal dialysis was 14.7% in patients with ESRD only, vaulting to 25.6% in those with comorbid RA. Individuals with both RA and ESRD were at an adjusted 1.83-fold increased overall risk for new fragility fractures and at 1.85-fold increased risk for hip fracture, compared to those without RA.

Far and away the strongest risk factor for incident osteoporotic fractures in the group with RA plus ESRD was a history of a fracture sustained within 5 years prior to initiation of dialysis, with an associated 11.5-fold increased fracture risk overall and an 8.2-fold increased risk of hip fracture.

“The reason that’s important is we don’t really have any medications to reduce fracture risk once you get to ESRD. Of course, we have bisphosphonates and Prolia (denosumab) and things like that, but that’s in patients with milder CKD [chronic kidney disease] or no renal disease at all. So the goal is to identify the patients early who are at higher risk so that we can protect those bones before they get to ESRD and we have nothing left to treat them with,” she said.

In addition to a history of prevalent fracture prior to starting ESRD, the other risk factors for fracture in patients with ESRD and comorbid RA Dr. Peterkin-McCalman identified in her study included age greater than 50 years at the start of dialysis and female gender, which was associated with a twofold greater fracture risk than in men. Black patients with ESRD and RA were 64% less likely than whites to experience an incident fragility fracture. And the fracture risk was higher in patients on hemodialysis than with peritoneal dialysis.

Her study was supported by the Medical College of Georgia and a research grant from Dialysis Clinic Inc.

[email protected]

SOURCE: Peterkin-McCalman R et al. RWCS 2020.

Q) When should I refer patients with chronic kidney disease (CKD) to a nephrology specialist?

Nephrology specialists can be of particular assistance to primary care providers in treating patients who are at different stages of CKD.¹ Nephrologists can help determine the etiology of CKD, recommend specific disease-related therapy, suggest treatments to delay disease progression in patients who have not responded to conventional therapies, recognize and treat for disease-related complications, and plan for renal replacement therapy.¹

Indications for referral vary across guidelines but there is one commonality: Patients with a severely decreased estimated glomerular filtration rate (eGFR) of < 30 mL/min per 1.73 m² require prompt referral to a nephrologist for comanaged care.^1-4 Patients with CKD who have an eGFR at or below this threshold are likely at an advanced stage of disease and are therefore at greater risk for progression to end-stage renal disease (ESRD), which requires dialysis.¹ Research shows that late referral to nephrology is associated with significantly higher rates of mortality within the first 90 days of dialysis.⁵ Furthermore, the Renal Physicians Association Clinical Practice Guideline states that patients with advanced CKD (stages 4 and 5) have a greater predisposition for quick progression to ESRD with multiple comorbid conditions and poor outcomes.⁶

Clinical outcomes can improve when referrals are made before patients with CKD register a low eGFR—but the appropriate threshold (or when to refer patients with a higher eGFR) is less clear.¹ Based in part on practice guidelines,^2,3,6,7 referral to a nephrologist or clinician with expertise in CKD should be considered for patients with CKD who meet 1 or more of the following criteria:

• Urine albumin-to-creatinine ratio > 300 mg/g (34 mg/mmoL), including nephrotic syndrome
• Hematuria that is not secondary to urologic conditions
• Inability to identify a presumed cause of CKD
• eGFR decline of > 30% in less than 4 months without an obvious explanation
• Difficult-to-manage complications, such as anemia requiring erythropoietin therapy or abnormalities of bone and mineral metabolism requiring phosphorus binders or vitamin D preparations
• Serum potassium > 5.5 mEq/L
• Difficult-to-manage drug complications
• Age < 18 y
• Resistant hypertension
• Recurrent or extensive nephrolithiasis
• Confirmed or presumed hereditary kidney disease (eg, polycystic kidney disease, Alport syndrome, or autosomal dominant interstitial kidney disease).^1,2,4,7

These criteria can aid clinicians in deciding when a preemptive referral is needed to prevent advanced CKD stages and ESRD in their patients. Also, because patients with CKD can be at high risk for adverse cardiovascular outcomes, referral to cardiology (eg, for patients with complicated cardiovascular disease) should be considered.¹–YTM

Yolanda Thompson-Martin, DNP, RN, ANP-C, FNKF
University Health Physicians/Truman Medical Center, Kansas City, Missouri

Q) When should I refer patients with chronic kidney disease (CKD) to a nephrology specialist?

Nephrology specialists can be of particular assistance to primary care providers in treating patients who are at different stages of CKD.¹ Nephrologists can help determine the etiology of CKD, recommend specific disease-related therapy, suggest treatments to delay disease progression in patients who have not responded to conventional therapies, recognize and treat for disease-related complications, and plan for renal replacement therapy.¹

Indications for referral vary across guidelines but there is one commonality: Patients with a severely decreased estimated glomerular filtration rate (eGFR) of < 30 mL/min per 1.73 m² require prompt referral to a nephrologist for comanaged care.^1-4 Patients with CKD who have an eGFR at or below this threshold are likely at an advanced stage of disease and are therefore at greater risk for progression to end-stage renal disease (ESRD), which requires dialysis.¹ Research shows that late referral to nephrology is associated with significantly higher rates of mortality within the first 90 days of dialysis.⁵ Furthermore, the Renal Physicians Association Clinical Practice Guideline states that patients with advanced CKD (stages 4 and 5) have a greater predisposition for quick progression to ESRD with multiple comorbid conditions and poor outcomes.⁶

Clinical outcomes can improve when referrals are made before patients with CKD register a low eGFR—but the appropriate threshold (or when to refer patients with a higher eGFR) is less clear.¹ Based in part on practice guidelines,^2,3,6,7 referral to a nephrologist or clinician with expertise in CKD should be considered for patients with CKD who meet 1 or more of the following criteria:

• Urine albumin-to-creatinine ratio > 300 mg/g (34 mg/mmoL), including nephrotic syndrome
• Hematuria that is not secondary to urologic conditions
• Inability to identify a presumed cause of CKD
• eGFR decline of > 30% in less than 4 months without an obvious explanation
• Difficult-to-manage complications, such as anemia requiring erythropoietin therapy or abnormalities of bone and mineral metabolism requiring phosphorus binders or vitamin D preparations
• Serum potassium > 5.5 mEq/L
• Difficult-to-manage drug complications
• Age < 18 y
• Resistant hypertension
• Recurrent or extensive nephrolithiasis
• Confirmed or presumed hereditary kidney disease (eg, polycystic kidney disease, Alport syndrome, or autosomal dominant interstitial kidney disease).^1,2,4,7

These criteria can aid clinicians in deciding when a preemptive referral is needed to prevent advanced CKD stages and ESRD in their patients. Also, because patients with CKD can be at high risk for adverse cardiovascular outcomes, referral to cardiology (eg, for patients with complicated cardiovascular disease) should be considered.¹–YTM

Yolanda Thompson-Martin, DNP, RN, ANP-C, FNKF
University Health Physicians/Truman Medical Center, Kansas City, Missouri

Q) When should I refer patients with chronic kidney disease (CKD) to a nephrology specialist?

Nephrology specialists can be of particular assistance to primary care providers in treating patients who are at different stages of CKD.¹ Nephrologists can help determine the etiology of CKD, recommend specific disease-related therapy, suggest treatments to delay disease progression in patients who have not responded to conventional therapies, recognize and treat for disease-related complications, and plan for renal replacement therapy.¹

Indications for referral vary across guidelines but there is one commonality: Patients with a severely decreased estimated glomerular filtration rate (eGFR) of < 30 mL/min per 1.73 m² require prompt referral to a nephrologist for comanaged care.^1-4 Patients with CKD who have an eGFR at or below this threshold are likely at an advanced stage of disease and are therefore at greater risk for progression to end-stage renal disease (ESRD), which requires dialysis.¹ Research shows that late referral to nephrology is associated with significantly higher rates of mortality within the first 90 days of dialysis.⁵ Furthermore, the Renal Physicians Association Clinical Practice Guideline states that patients with advanced CKD (stages 4 and 5) have a greater predisposition for quick progression to ESRD with multiple comorbid conditions and poor outcomes.⁶

Clinical outcomes can improve when referrals are made before patients with CKD register a low eGFR—but the appropriate threshold (or when to refer patients with a higher eGFR) is less clear.¹ Based in part on practice guidelines,^2,3,6,7 referral to a nephrologist or clinician with expertise in CKD should be considered for patients with CKD who meet 1 or more of the following criteria:

• Urine albumin-to-creatinine ratio > 300 mg/g (34 mg/mmoL), including nephrotic syndrome
• Hematuria that is not secondary to urologic conditions
• Inability to identify a presumed cause of CKD
• eGFR decline of > 30% in less than 4 months without an obvious explanation
• Difficult-to-manage complications, such as anemia requiring erythropoietin therapy or abnormalities of bone and mineral metabolism requiring phosphorus binders or vitamin D preparations
• Serum potassium > 5.5 mEq/L
• Difficult-to-manage drug complications
• Age < 18 y
• Resistant hypertension
• Recurrent or extensive nephrolithiasis
• Confirmed or presumed hereditary kidney disease (eg, polycystic kidney disease, Alport syndrome, or autosomal dominant interstitial kidney disease).^1,2,4,7

These criteria can aid clinicians in deciding when a preemptive referral is needed to prevent advanced CKD stages and ESRD in their patients. Also, because patients with CKD can be at high risk for adverse cardiovascular outcomes, referral to cardiology (eg, for patients with complicated cardiovascular disease) should be considered.¹–YTM

Yolanda Thompson-Martin, DNP, RN, ANP-C, FNKF
University Health Physicians/Truman Medical Center, Kansas City, Missouri

From West Virginia University, Morgantown, WV.

Abstract

Objective: To describe the strategies a family medicine clinic in Appalachia utilized to increase nephropathy screening rates as well as to explore the factors predictive of nephropathy screening in patients with diabetes.

Design: This quality improvement project targeted the points in the care process when patients are lost to follow-up for nephropathy screening.

Setting and participants: Patients with diabetes cared for by a primary care provider (PCP) at an academic family medicine practice in Appalachia from January 2018 to November 2018.

Interventions: Bulk orders for albumin-to-creatinine (ACR) testing and urine collection during clinic visit, enhanced patient communication through bulk communication reminders and individual patient outreach, and education of clinic providers.

Measurements: Demographic data and monthly nephropathy screening rates.

Results: The nephropathy screening rate increased by 6.2% during the project. Older patients living closer to the clinic who visited their PCP 3 or more times per year were the most likely to be screened.

Conclusion: Combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy treatment and screening in rural patients with diabetes at a family medicine clinic.

Keywords: rural; kidney disease; albumin-to-creatinine ratio; electronic health record.

According to the Centers for Disease Control and Prevention (CDC), an estimated 30.3 million people in the United States—about 9.4% of the population—have been diagnosed with diabetes.¹ Diabetes is the seventh leading cause of death in the United States, and it contributes to other leading causes of death: heart disease and stroke.¹ Diabetes also is related to high morbidity risk and is a leading cause of chronic kidney disease.¹ The total cost of diagnosed diabetes was estimated at $327 billion in direct medical costs and reduced productivity.²

Residents of Appalachia bear a disproportionate burden of diabetes and other related negative health outcomes; these outcomes are influenced by a number of factors, including socioeconomic status, poverty, rurality, and health care access. Rates of chronic disease, such as diabetes, are most pronounced in Appalachia’s most economically distressed counties.^3-5 In 2011, the CDC labeled a 644-county area the “diabetes belt,” which included most of Appalachia.⁶ As a result of this elevated prevalence of diabetes in Appalachia as compared to the rest of the country, complications directly associated with diabetes are more commonly observed in Appalachian residents. One of the most damaging complications is diabetic nephropathy.

Diabetic nephropathy results from damage to the microvasculature of the kidney due to inadequately controlled blood glucose. This, in turn, leads to decreased renal function, eventually leading to clinically significant renal disease. The long-term complications associated with nephropathy can include many comorbid conditions, the most serious of which are progression to end-stage renal disease, dialysis requirement, and early mortality. Diabetic nephropathy affects approximately 40% of patients with type 1 and type 2 diabetes.^7,8

One way to prevent complications of diabetic nephropathy, in addition to good glycemic control in patients with diabetes, is early and regular screening. Currently, the American Diabetes Association (ADA) recommends yearly screening for diabetic nephropathy in the form of a urine albumin-to-creatinine ratio (ACR) for patients 18 to 75 years of age.² This screening to detect diabetic nephropathy is recognized as a marker of quality care by many public and private insurance agencies and medical specialty associations, such as the Centers for Medicare and Medicaid Services.

Many patients with diabetes are cared for by primary care providers (PCP), and these PCP appointments provide an opportune time to screen and appropriately treat nephropathy. Screening opportunities are often missed, however, due to time constraints and competing health priorities. There are also a number of other factors specific to the Appalachian region that reduce the likelihood of screening for diabetic nephropathy, such as a lack of health insurance, the need to travel long distances to see a PCP, work and household responsibilities, low levels of education and health literacy, and a mistrust of outsiders regarding personal matters, including health.^9-11 While nephropathy can have a detrimental impact on patients across populations, it is of particular concern for a state located in the heart of Appalachia, such as West Virginia.

Given the disproportionate burden of diabetes in this region and the potentially severe consequences of undetected nephropathy, clinicians from an academic family medicine clinic in West Virginia undertook a quality improvement project to increase the rate of nephropathy screening and treatment among patients with diabetes. This article describes the intervention strategies the team utilized to increase nephropathy screening and treatment in patients 18 to 75 years of age who met quality measures for nephropathy screening or treatment in the previous 12 months and explores the factors most predictive of nephropathy screening in Appalachian patients in this age group. It also reports the challenges and opportunities encountered and offers suggestions for other providers and clinics attempting to increase their nephropathy screening rates.

Methods

Setting and Study Population

The study population included patients ages 18 to 75 years under the care of providers in an academic family medicine practice in West Virginia who had been diagnosed with diabetes mellitus. The study focused on those patients overdue for diabetic nephropathy screening (ie, had not been screened in previous 12 months). The project began in January 2018 with a screening rate of 83.8%. The goal of this project was to increase this compliance metric by at least 5%. The project protocol was submitted to the West Virginia University Institutional Review Board, and, because it is a quality improvement project, permission was given to proceed without a board review.

Interventions

The team identified and implemented several interventions intended to reduce screening barriers and increase the screening rate.

Bulk orders for ACR and urine collection during clinic visits. Prior to initiation of this project, it was left to individual clinic providers to order nephropathy screening for patients with diabetes during a clinic visit; after receiving the order for “random urine microalbumin/creatinine ratio,” patients then had to travel to a lab to provide a urine sample. For this project and moving forward, the team changed to the procedure of initiating bulk ACR orders and collecting urine samples during clinic visits from all patients ages 18 to 75 years who have diabetes.

Bulk communication reminders. Since many patients with diabetes may not have realized they were overdue for nephropathy screening, the team began sending out bulk communication reminders through either the institution’s electronic health record (EHR; MyChart) or postal service–delivered physical letters (according to patient communication preferences) to remind patients that they were due for screening and to encourage them to schedule an appointment or keep a previously scheduled appointment with their PCP.

Individual patient outreach. A team of pharmacy students led by a licensed pharmacist in the family medicine clinic contacted patients overdue for screening even after bulk communication reminders went out. The students telephoned patients 2 to 3 months following the bulk communication. The students obtained an updated list of patients with diabetes ages 18 to 75 years from an EHR quality report. They began by prescreening the patients on the overdue list for potential candidacy for an angiotensin-converting enzyme (ACE) inhibitor or an angiotensin II receptor blocker (ARB). Screening for candidacy included evaluation of recent blood pressure readings, electrolytes (ie, basic metabolic panel), and ACR. If the students determined a patient was a candidate, they presented the patient to the preceptor for verification and then reached out to the provider with a recommendation. If the provider agreed, the student contacted the patient by telephone for medication counseling and education. The remaining patients determined not to be candidates for ACE inhibitors or ARBs were contacted by the pharmacy students by telephone to remind them that laboratory work was pending. Up to 3 phone call attempts were made before patients were determined to be unreachable. Students left voice mails with generic reminders if a patient could not be reached. If a patient answered, the student provided a reminder but also reviewed indications for lab work, the reason why the provider wished for follow-up, and updated lab hours. Students also followed up with the results of the work-up, as appropriate. During this outreach process, the student team encountered a number of patients who had moved or changed to a PCP outside of the family medicine clinic. In these cases, the EHR was updated and those patients were removed from the list of patients altogether.

Education of clinic providers. Clinic providers were educated during faculty and resident meetings and didactic learning sessions on identifying patients within the EHR who are due for nephropathy screening. They also received instruction on how to update the EHR to reflect completed screenings.

Data Analysis

All analyses in this study were conducted using SAS (version 9.4, 2013, SAS Institute Inc., Cary, NC). Descriptive analyses were conducted to summarize basic patient demographic information. To compare patients screened within the previous 12 months to those patients overdue for screening, 2-sample t-tests were used to examine differences in patients’ age, HbA1c, ACR, and creatinine level and the distance (in miles) between the patient’s home and the clinic. Chi-square analyses were used to examine the relationship between whether a patient was recently screened for nephropathy and the patient’s insurance, number of patient visits in the previous 12 months, and provider level. Logistic regression analyses were conducted to control for covariates and to explore which factors were most predictive of nephropathy screening. All tests were 2-tailed, and P values less than 0.05 were considered statistically significant.

Patient Characteristics

There were 1676 family medicine clinic patients with diabetes between 18 and 75 years of age (Table 1 and Table 2). Of the total sample, 1489 (88.8%) had completed screening for nephropathy in the 12 months prior to evaluation, and 67.5%, 23.7%, and 8.8% of patients had private insurance, Medicare, and Medicaid, respectively.

The mean (SD) age of the patients was 56.3 (11.9) years. The mean distance between the patient’s home and the clinic was 26.6 (76.8) miles. The mean number of visits was 3.6 (2.9) per year, and 43.0% of the patientvisited the clinic more than 3 times in a year. The mean values for HbA1c (%), creatinine (g/mol), and ACR (mg/g) were 7.7 (1.9), 1.0 (0.7), and 9.4 (31.4), respectively.

Screening of Patients for Nephropathy

Patients with Medicare and private insurance were more likely to have completed the nephropathy screening than those with Medicaid (92.5% versus 88.8% versus 82.8%, P = 0.004; Table 3 and Table 4).

Changes in Screening Rate

The practice-wide screening rate was 83.8% at the start of this project in January 2018. The screening rate steadily increased throughout 2018, reaching 90.3% in August 2018, and then leveled off around 90% when the project was concluded at the end of November 2018 (Figure). As an added benefit of the increased screening rates, a number of patients were initiated on an ACE inhibitor or ARB based on the team’s screening efforts.

Predictors of Nephropathy Screening

A logistic regression analysis was conducted with nephropathy screening (screened or not screened) as the outcome and 7 patient characteristics as predictors: type of insurance (private, Medicare, or Medicaid), PCP visits in the past 12 months (≤ 3 or > 3), distance in miles of the patient’s residence from the clinic, age, last HbA1c value, last ACR value, and last creatinine value. A test of the full model with all 7 predictors was statistically significant (χ² (8) = 57.77, P < 0.001). Table 5 shows regression coefficients, Wald statistics, and 95% confidence intervals for odds ratios for each of the 7 predictors. According to the Wald criterion, 3 patient characteristics were significant predictors of nephropathy screening: age, distance between the patient’s home and clinic, and number of PCP visits in the past 12 months. After adjusting for the covariates, there were still significant associations between the nephropathy screening status and age ( χ²(1) = 9.64, P < 0.01); distance between the patient’s home and the clinic (χ²(1) = 3.98, P < 0.05); and the number of PCP visits in the previous year (χ²(1) = 21.74, P < 0.001). With each 1-year increment in age, the odds of completing the nephropathy screening increased by 3.2%. With each 1-mile increase in the distance between the patient’s home and clinic, the odds of completing the nephropathy screening decreased by 0.2%. Patients who visited the clinic more than 3 times in a year were 3.9 times (95% confidence interval, 2.2-7.0) more likely to complete the nephropathy screening than their counterparts who visited fewer than 3 times per year.

In summary, older patients living within about 164 miles of the clinic (ie, within 1 standard deviation from the average miles between patient’s homes and the clinic) who visited their PCP 3 or more times per year were the most likely to be screened.

Diabetic nephropathy is a critical issue facing family medicine providers and patients. The morbidity and mortality costs are significant, as diabetic nephropathy is the leading cause of end-stage renal disease. While the ADA recommends annual ACR screening in patients with diabetes and prescription of ACE inhibitors or ARBs in patients who qualify, many patients do not receive these interventions, despite following up with a provider.^12-15 There is no current literature that indicates the compliance rates in the rural setting. Due to health disparities in the rural setting noted in the literature, it could be hypothesized that these individuals are at high risk of not meeting these screening and treatment recommendations.^16,17 Limited access to care and resources, gaps in insurance coverage, and lower health literacy are a few barriers identified in the rural population that may influence whether these measures are met.¹⁷ 

Considering the disease burden of diabetes and its related complications, including nephropathy, consistent screening is necessary to reduce diabetes-related burdens and cost, while also increasing the quality of life for patients with diabetes. All parties must be involved to ensure appropriate compliance and treatment. Our institution’s implementation of quality improvement strategies has key implications for nephropathy screening and treatment efforts in rural settings.

An additional step of having a health care provider (other than the PCP) screen all patients who are not meeting the standard allows for identification of gaps in care. In our quality improvement workflow, the clinical pharmacist screened all patients for candidacy for ACE inhibitor/ARB therapy. While only a small percentage of patients qualified, many of these patients had previously been on therapy and were discontinued for an unknown reason or were stopped due to an acute condition (eg, acute kidney injury) and never restarted after recovery. Other patients required additional education that therapy would be utilized for nephroprotection versus blood pressure management (secondary to an elevated ACR). This highlights the importance of transitions of care and ongoing, intensive education, not only during initial diagnosis but also throughout the disease-state progression.

Utilization of EHRs and telephone outreach are additional aspects of care that can be provided. Our improved rates of compliance with these care interventions parallel findings from previous studies.^15,18 Optimization of an institution’s EHR can aid in standardization of care, workflow management, and communication with patients, as well as alert nursing or support staff of screening needs. Techniques such as best practice reminders, patient chart messages, and nursing-entered physician alerts on daily schedules have been shown to increase rates of compliance with nephropathy standards. These findings underscore an additional opportunity for nursing and support staff to be better integrated into care.

Despite the success of this quality improvement initiative, there remain some limitations. The processes we used in this project may not be applicable to every institution and may have limited external validity. Primarily, while these processes may be implemented at some sites, without additional support staff (ie, extra nursing staff, pharmacists) and students to aid in patient outreach, success may be limited due to provider time constraints. Additionally, our workflow process demonstrates significant incorporation of an EHR system for patient outreach. Institutions and/or clinics that heavily rely on paper charts and paper outreach may face barriers with bulk orders (eg, ACR) and messages, interventions that streamlined our population health management. Finally, this project focuses on only 1 aspect of population health management for patients with diabetes. While nephropathy is a critical aspect of caring for individuals with diabetes, this patient outreach does not address retinopathy screening, HbA1c control, or vaccination rates, which are other components of care.

Conclusion

Although this evaluation does not provide insight into why patients were not treated or screened, it demonstrates processes to improve compliance in patients with diabetic nephropathy. Rural health care facilities require an ongoing program of change and evaluation, with the aim to improve the provision of services, increase screening, and encourage team member involvement in health promotion. This study demonstrates that combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy screening and treatment in rural patients with diabetes at a family medicine clinic.

Corresponding author: Amie M. Ashcraft, West Virginia University, Department of Family Medicine, 1 Medical Center Drive, Box 9152, Morgantown, WV 26506; [email protected].

Financial disclosures: None.

Acknowledgment: The authors thank the faculty, residents, nurses, and clinic staff for their hard work and dedication to this effort: Umama Sadia, Michelle Prestoza, Richard Dattola, Greg Doyle, Dana King, Mike Maroon, Kendra Under, Judy Siebert, Christine Snyder, Rachel Burge, Meagan Gribble, Lisa Metts, Kelsey Samek, Sarah Deavers, Amber Kitzmiller, Angela Lamp, Tina Waldeck, and Andrea Sukeruksa.

From West Virginia University, Morgantown, WV.

Abstract

Objective: To describe the strategies a family medicine clinic in Appalachia utilized to increase nephropathy screening rates as well as to explore the factors predictive of nephropathy screening in patients with diabetes.

Design: This quality improvement project targeted the points in the care process when patients are lost to follow-up for nephropathy screening.

Setting and participants: Patients with diabetes cared for by a primary care provider (PCP) at an academic family medicine practice in Appalachia from January 2018 to November 2018.

Interventions: Bulk orders for albumin-to-creatinine (ACR) testing and urine collection during clinic visit, enhanced patient communication through bulk communication reminders and individual patient outreach, and education of clinic providers.

Measurements: Demographic data and monthly nephropathy screening rates.

Results: The nephropathy screening rate increased by 6.2% during the project. Older patients living closer to the clinic who visited their PCP 3 or more times per year were the most likely to be screened.

Conclusion: Combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy treatment and screening in rural patients with diabetes at a family medicine clinic.

Keywords: rural; kidney disease; albumin-to-creatinine ratio; electronic health record.

According to the Centers for Disease Control and Prevention (CDC), an estimated 30.3 million people in the United States—about 9.4% of the population—have been diagnosed with diabetes.¹ Diabetes is the seventh leading cause of death in the United States, and it contributes to other leading causes of death: heart disease and stroke.¹ Diabetes also is related to high morbidity risk and is a leading cause of chronic kidney disease.¹ The total cost of diagnosed diabetes was estimated at $327 billion in direct medical costs and reduced productivity.²

Residents of Appalachia bear a disproportionate burden of diabetes and other related negative health outcomes; these outcomes are influenced by a number of factors, including socioeconomic status, poverty, rurality, and health care access. Rates of chronic disease, such as diabetes, are most pronounced in Appalachia’s most economically distressed counties.^3-5 In 2011, the CDC labeled a 644-county area the “diabetes belt,” which included most of Appalachia.⁶ As a result of this elevated prevalence of diabetes in Appalachia as compared to the rest of the country, complications directly associated with diabetes are more commonly observed in Appalachian residents. One of the most damaging complications is diabetic nephropathy.

Diabetic nephropathy results from damage to the microvasculature of the kidney due to inadequately controlled blood glucose. This, in turn, leads to decreased renal function, eventually leading to clinically significant renal disease. The long-term complications associated with nephropathy can include many comorbid conditions, the most serious of which are progression to end-stage renal disease, dialysis requirement, and early mortality. Diabetic nephropathy affects approximately 40% of patients with type 1 and type 2 diabetes.^7,8

One way to prevent complications of diabetic nephropathy, in addition to good glycemic control in patients with diabetes, is early and regular screening. Currently, the American Diabetes Association (ADA) recommends yearly screening for diabetic nephropathy in the form of a urine albumin-to-creatinine ratio (ACR) for patients 18 to 75 years of age.² This screening to detect diabetic nephropathy is recognized as a marker of quality care by many public and private insurance agencies and medical specialty associations, such as the Centers for Medicare and Medicaid Services.

Many patients with diabetes are cared for by primary care providers (PCP), and these PCP appointments provide an opportune time to screen and appropriately treat nephropathy. Screening opportunities are often missed, however, due to time constraints and competing health priorities. There are also a number of other factors specific to the Appalachian region that reduce the likelihood of screening for diabetic nephropathy, such as a lack of health insurance, the need to travel long distances to see a PCP, work and household responsibilities, low levels of education and health literacy, and a mistrust of outsiders regarding personal matters, including health.^9-11 While nephropathy can have a detrimental impact on patients across populations, it is of particular concern for a state located in the heart of Appalachia, such as West Virginia.

Given the disproportionate burden of diabetes in this region and the potentially severe consequences of undetected nephropathy, clinicians from an academic family medicine clinic in West Virginia undertook a quality improvement project to increase the rate of nephropathy screening and treatment among patients with diabetes. This article describes the intervention strategies the team utilized to increase nephropathy screening and treatment in patients 18 to 75 years of age who met quality measures for nephropathy screening or treatment in the previous 12 months and explores the factors most predictive of nephropathy screening in Appalachian patients in this age group. It also reports the challenges and opportunities encountered and offers suggestions for other providers and clinics attempting to increase their nephropathy screening rates.

Methods

Setting and Study Population

The study population included patients ages 18 to 75 years under the care of providers in an academic family medicine practice in West Virginia who had been diagnosed with diabetes mellitus. The study focused on those patients overdue for diabetic nephropathy screening (ie, had not been screened in previous 12 months). The project began in January 2018 with a screening rate of 83.8%. The goal of this project was to increase this compliance metric by at least 5%. The project protocol was submitted to the West Virginia University Institutional Review Board, and, because it is a quality improvement project, permission was given to proceed without a board review.

Interventions

The team identified and implemented several interventions intended to reduce screening barriers and increase the screening rate.

Bulk orders for ACR and urine collection during clinic visits. Prior to initiation of this project, it was left to individual clinic providers to order nephropathy screening for patients with diabetes during a clinic visit; after receiving the order for “random urine microalbumin/creatinine ratio,” patients then had to travel to a lab to provide a urine sample. For this project and moving forward, the team changed to the procedure of initiating bulk ACR orders and collecting urine samples during clinic visits from all patients ages 18 to 75 years who have diabetes.

Bulk communication reminders. Since many patients with diabetes may not have realized they were overdue for nephropathy screening, the team began sending out bulk communication reminders through either the institution’s electronic health record (EHR; MyChart) or postal service–delivered physical letters (according to patient communication preferences) to remind patients that they were due for screening and to encourage them to schedule an appointment or keep a previously scheduled appointment with their PCP.

Individual patient outreach. A team of pharmacy students led by a licensed pharmacist in the family medicine clinic contacted patients overdue for screening even after bulk communication reminders went out. The students telephoned patients 2 to 3 months following the bulk communication. The students obtained an updated list of patients with diabetes ages 18 to 75 years from an EHR quality report. They began by prescreening the patients on the overdue list for potential candidacy for an angiotensin-converting enzyme (ACE) inhibitor or an angiotensin II receptor blocker (ARB). Screening for candidacy included evaluation of recent blood pressure readings, electrolytes (ie, basic metabolic panel), and ACR. If the students determined a patient was a candidate, they presented the patient to the preceptor for verification and then reached out to the provider with a recommendation. If the provider agreed, the student contacted the patient by telephone for medication counseling and education. The remaining patients determined not to be candidates for ACE inhibitors or ARBs were contacted by the pharmacy students by telephone to remind them that laboratory work was pending. Up to 3 phone call attempts were made before patients were determined to be unreachable. Students left voice mails with generic reminders if a patient could not be reached. If a patient answered, the student provided a reminder but also reviewed indications for lab work, the reason why the provider wished for follow-up, and updated lab hours. Students also followed up with the results of the work-up, as appropriate. During this outreach process, the student team encountered a number of patients who had moved or changed to a PCP outside of the family medicine clinic. In these cases, the EHR was updated and those patients were removed from the list of patients altogether.

Education of clinic providers. Clinic providers were educated during faculty and resident meetings and didactic learning sessions on identifying patients within the EHR who are due for nephropathy screening. They also received instruction on how to update the EHR to reflect completed screenings.

Data Analysis

All analyses in this study were conducted using SAS (version 9.4, 2013, SAS Institute Inc., Cary, NC). Descriptive analyses were conducted to summarize basic patient demographic information. To compare patients screened within the previous 12 months to those patients overdue for screening, 2-sample t-tests were used to examine differences in patients’ age, HbA1c, ACR, and creatinine level and the distance (in miles) between the patient’s home and the clinic. Chi-square analyses were used to examine the relationship between whether a patient was recently screened for nephropathy and the patient’s insurance, number of patient visits in the previous 12 months, and provider level. Logistic regression analyses were conducted to control for covariates and to explore which factors were most predictive of nephropathy screening. All tests were 2-tailed, and P values less than 0.05 were considered statistically significant.

Patient Characteristics

There were 1676 family medicine clinic patients with diabetes between 18 and 75 years of age (Table 1 and Table 2). Of the total sample, 1489 (88.8%) had completed screening for nephropathy in the 12 months prior to evaluation, and 67.5%, 23.7%, and 8.8% of patients had private insurance, Medicare, and Medicaid, respectively.

The mean (SD) age of the patients was 56.3 (11.9) years. The mean distance between the patient’s home and the clinic was 26.6 (76.8) miles. The mean number of visits was 3.6 (2.9) per year, and 43.0% of the patientvisited the clinic more than 3 times in a year. The mean values for HbA1c (%), creatinine (g/mol), and ACR (mg/g) were 7.7 (1.9), 1.0 (0.7), and 9.4 (31.4), respectively.

Screening of Patients for Nephropathy

Patients with Medicare and private insurance were more likely to have completed the nephropathy screening than those with Medicaid (92.5% versus 88.8% versus 82.8%, P = 0.004; Table 3 and Table 4).

Changes in Screening Rate

The practice-wide screening rate was 83.8% at the start of this project in January 2018. The screening rate steadily increased throughout 2018, reaching 90.3% in August 2018, and then leveled off around 90% when the project was concluded at the end of November 2018 (Figure). As an added benefit of the increased screening rates, a number of patients were initiated on an ACE inhibitor or ARB based on the team’s screening efforts.

Predictors of Nephropathy Screening

A logistic regression analysis was conducted with nephropathy screening (screened or not screened) as the outcome and 7 patient characteristics as predictors: type of insurance (private, Medicare, or Medicaid), PCP visits in the past 12 months (≤ 3 or > 3), distance in miles of the patient’s residence from the clinic, age, last HbA1c value, last ACR value, and last creatinine value. A test of the full model with all 7 predictors was statistically significant (χ² (8) = 57.77, P < 0.001). Table 5 shows regression coefficients, Wald statistics, and 95% confidence intervals for odds ratios for each of the 7 predictors. According to the Wald criterion, 3 patient characteristics were significant predictors of nephropathy screening: age, distance between the patient’s home and clinic, and number of PCP visits in the past 12 months. After adjusting for the covariates, there were still significant associations between the nephropathy screening status and age ( χ²(1) = 9.64, P < 0.01); distance between the patient’s home and the clinic (χ²(1) = 3.98, P < 0.05); and the number of PCP visits in the previous year (χ²(1) = 21.74, P < 0.001). With each 1-year increment in age, the odds of completing the nephropathy screening increased by 3.2%. With each 1-mile increase in the distance between the patient’s home and clinic, the odds of completing the nephropathy screening decreased by 0.2%. Patients who visited the clinic more than 3 times in a year were 3.9 times (95% confidence interval, 2.2-7.0) more likely to complete the nephropathy screening than their counterparts who visited fewer than 3 times per year.

In summary, older patients living within about 164 miles of the clinic (ie, within 1 standard deviation from the average miles between patient’s homes and the clinic) who visited their PCP 3 or more times per year were the most likely to be screened.

Diabetic nephropathy is a critical issue facing family medicine providers and patients. The morbidity and mortality costs are significant, as diabetic nephropathy is the leading cause of end-stage renal disease. While the ADA recommends annual ACR screening in patients with diabetes and prescription of ACE inhibitors or ARBs in patients who qualify, many patients do not receive these interventions, despite following up with a provider.^12-15 There is no current literature that indicates the compliance rates in the rural setting. Due to health disparities in the rural setting noted in the literature, it could be hypothesized that these individuals are at high risk of not meeting these screening and treatment recommendations.^16,17 Limited access to care and resources, gaps in insurance coverage, and lower health literacy are a few barriers identified in the rural population that may influence whether these measures are met.¹⁷ 

Considering the disease burden of diabetes and its related complications, including nephropathy, consistent screening is necessary to reduce diabetes-related burdens and cost, while also increasing the quality of life for patients with diabetes. All parties must be involved to ensure appropriate compliance and treatment. Our institution’s implementation of quality improvement strategies has key implications for nephropathy screening and treatment efforts in rural settings.

An additional step of having a health care provider (other than the PCP) screen all patients who are not meeting the standard allows for identification of gaps in care. In our quality improvement workflow, the clinical pharmacist screened all patients for candidacy for ACE inhibitor/ARB therapy. While only a small percentage of patients qualified, many of these patients had previously been on therapy and were discontinued for an unknown reason or were stopped due to an acute condition (eg, acute kidney injury) and never restarted after recovery. Other patients required additional education that therapy would be utilized for nephroprotection versus blood pressure management (secondary to an elevated ACR). This highlights the importance of transitions of care and ongoing, intensive education, not only during initial diagnosis but also throughout the disease-state progression.

Utilization of EHRs and telephone outreach are additional aspects of care that can be provided. Our improved rates of compliance with these care interventions parallel findings from previous studies.^15,18 Optimization of an institution’s EHR can aid in standardization of care, workflow management, and communication with patients, as well as alert nursing or support staff of screening needs. Techniques such as best practice reminders, patient chart messages, and nursing-entered physician alerts on daily schedules have been shown to increase rates of compliance with nephropathy standards. These findings underscore an additional opportunity for nursing and support staff to be better integrated into care.

Despite the success of this quality improvement initiative, there remain some limitations. The processes we used in this project may not be applicable to every institution and may have limited external validity. Primarily, while these processes may be implemented at some sites, without additional support staff (ie, extra nursing staff, pharmacists) and students to aid in patient outreach, success may be limited due to provider time constraints. Additionally, our workflow process demonstrates significant incorporation of an EHR system for patient outreach. Institutions and/or clinics that heavily rely on paper charts and paper outreach may face barriers with bulk orders (eg, ACR) and messages, interventions that streamlined our population health management. Finally, this project focuses on only 1 aspect of population health management for patients with diabetes. While nephropathy is a critical aspect of caring for individuals with diabetes, this patient outreach does not address retinopathy screening, HbA1c control, or vaccination rates, which are other components of care.

Conclusion

Although this evaluation does not provide insight into why patients were not treated or screened, it demonstrates processes to improve compliance in patients with diabetic nephropathy. Rural health care facilities require an ongoing program of change and evaluation, with the aim to improve the provision of services, increase screening, and encourage team member involvement in health promotion. This study demonstrates that combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy screening and treatment in rural patients with diabetes at a family medicine clinic.

Corresponding author: Amie M. Ashcraft, West Virginia University, Department of Family Medicine, 1 Medical Center Drive, Box 9152, Morgantown, WV 26506; [email protected].

Financial disclosures: None.

Acknowledgment: The authors thank the faculty, residents, nurses, and clinic staff for their hard work and dedication to this effort: Umama Sadia, Michelle Prestoza, Richard Dattola, Greg Doyle, Dana King, Mike Maroon, Kendra Under, Judy Siebert, Christine Snyder, Rachel Burge, Meagan Gribble, Lisa Metts, Kelsey Samek, Sarah Deavers, Amber Kitzmiller, Angela Lamp, Tina Waldeck, and Andrea Sukeruksa.

From West Virginia University, Morgantown, WV.

Abstract

Objective: To describe the strategies a family medicine clinic in Appalachia utilized to increase nephropathy screening rates as well as to explore the factors predictive of nephropathy screening in patients with diabetes.

Design: This quality improvement project targeted the points in the care process when patients are lost to follow-up for nephropathy screening.

Setting and participants: Patients with diabetes cared for by a primary care provider (PCP) at an academic family medicine practice in Appalachia from January 2018 to November 2018.

Interventions: Bulk orders for albumin-to-creatinine (ACR) testing and urine collection during clinic visit, enhanced patient communication through bulk communication reminders and individual patient outreach, and education of clinic providers.

Measurements: Demographic data and monthly nephropathy screening rates.

Results: The nephropathy screening rate increased by 6.2% during the project. Older patients living closer to the clinic who visited their PCP 3 or more times per year were the most likely to be screened.

Conclusion: Combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy treatment and screening in rural patients with diabetes at a family medicine clinic.

Keywords: rural; kidney disease; albumin-to-creatinine ratio; electronic health record.

According to the Centers for Disease Control and Prevention (CDC), an estimated 30.3 million people in the United States—about 9.4% of the population—have been diagnosed with diabetes.¹ Diabetes is the seventh leading cause of death in the United States, and it contributes to other leading causes of death: heart disease and stroke.¹ Diabetes also is related to high morbidity risk and is a leading cause of chronic kidney disease.¹ The total cost of diagnosed diabetes was estimated at $327 billion in direct medical costs and reduced productivity.²

Residents of Appalachia bear a disproportionate burden of diabetes and other related negative health outcomes; these outcomes are influenced by a number of factors, including socioeconomic status, poverty, rurality, and health care access. Rates of chronic disease, such as diabetes, are most pronounced in Appalachia’s most economically distressed counties.^3-5 In 2011, the CDC labeled a 644-county area the “diabetes belt,” which included most of Appalachia.⁶ As a result of this elevated prevalence of diabetes in Appalachia as compared to the rest of the country, complications directly associated with diabetes are more commonly observed in Appalachian residents. One of the most damaging complications is diabetic nephropathy.

Diabetic nephropathy results from damage to the microvasculature of the kidney due to inadequately controlled blood glucose. This, in turn, leads to decreased renal function, eventually leading to clinically significant renal disease. The long-term complications associated with nephropathy can include many comorbid conditions, the most serious of which are progression to end-stage renal disease, dialysis requirement, and early mortality. Diabetic nephropathy affects approximately 40% of patients with type 1 and type 2 diabetes.^7,8

One way to prevent complications of diabetic nephropathy, in addition to good glycemic control in patients with diabetes, is early and regular screening. Currently, the American Diabetes Association (ADA) recommends yearly screening for diabetic nephropathy in the form of a urine albumin-to-creatinine ratio (ACR) for patients 18 to 75 years of age.² This screening to detect diabetic nephropathy is recognized as a marker of quality care by many public and private insurance agencies and medical specialty associations, such as the Centers for Medicare and Medicaid Services.

Many patients with diabetes are cared for by primary care providers (PCP), and these PCP appointments provide an opportune time to screen and appropriately treat nephropathy. Screening opportunities are often missed, however, due to time constraints and competing health priorities. There are also a number of other factors specific to the Appalachian region that reduce the likelihood of screening for diabetic nephropathy, such as a lack of health insurance, the need to travel long distances to see a PCP, work and household responsibilities, low levels of education and health literacy, and a mistrust of outsiders regarding personal matters, including health.^9-11 While nephropathy can have a detrimental impact on patients across populations, it is of particular concern for a state located in the heart of Appalachia, such as West Virginia.

Given the disproportionate burden of diabetes in this region and the potentially severe consequences of undetected nephropathy, clinicians from an academic family medicine clinic in West Virginia undertook a quality improvement project to increase the rate of nephropathy screening and treatment among patients with diabetes. This article describes the intervention strategies the team utilized to increase nephropathy screening and treatment in patients 18 to 75 years of age who met quality measures for nephropathy screening or treatment in the previous 12 months and explores the factors most predictive of nephropathy screening in Appalachian patients in this age group. It also reports the challenges and opportunities encountered and offers suggestions for other providers and clinics attempting to increase their nephropathy screening rates.

Methods

Setting and Study Population

The study population included patients ages 18 to 75 years under the care of providers in an academic family medicine practice in West Virginia who had been diagnosed with diabetes mellitus. The study focused on those patients overdue for diabetic nephropathy screening (ie, had not been screened in previous 12 months). The project began in January 2018 with a screening rate of 83.8%. The goal of this project was to increase this compliance metric by at least 5%. The project protocol was submitted to the West Virginia University Institutional Review Board, and, because it is a quality improvement project, permission was given to proceed without a board review.

Interventions

The team identified and implemented several interventions intended to reduce screening barriers and increase the screening rate.

Bulk orders for ACR and urine collection during clinic visits. Prior to initiation of this project, it was left to individual clinic providers to order nephropathy screening for patients with diabetes during a clinic visit; after receiving the order for “random urine microalbumin/creatinine ratio,” patients then had to travel to a lab to provide a urine sample. For this project and moving forward, the team changed to the procedure of initiating bulk ACR orders and collecting urine samples during clinic visits from all patients ages 18 to 75 years who have diabetes.

Bulk communication reminders. Since many patients with diabetes may not have realized they were overdue for nephropathy screening, the team began sending out bulk communication reminders through either the institution’s electronic health record (EHR; MyChart) or postal service–delivered physical letters (according to patient communication preferences) to remind patients that they were due for screening and to encourage them to schedule an appointment or keep a previously scheduled appointment with their PCP.

Individual patient outreach. A team of pharmacy students led by a licensed pharmacist in the family medicine clinic contacted patients overdue for screening even after bulk communication reminders went out. The students telephoned patients 2 to 3 months following the bulk communication. The students obtained an updated list of patients with diabetes ages 18 to 75 years from an EHR quality report. They began by prescreening the patients on the overdue list for potential candidacy for an angiotensin-converting enzyme (ACE) inhibitor or an angiotensin II receptor blocker (ARB). Screening for candidacy included evaluation of recent blood pressure readings, electrolytes (ie, basic metabolic panel), and ACR. If the students determined a patient was a candidate, they presented the patient to the preceptor for verification and then reached out to the provider with a recommendation. If the provider agreed, the student contacted the patient by telephone for medication counseling and education. The remaining patients determined not to be candidates for ACE inhibitors or ARBs were contacted by the pharmacy students by telephone to remind them that laboratory work was pending. Up to 3 phone call attempts were made before patients were determined to be unreachable. Students left voice mails with generic reminders if a patient could not be reached. If a patient answered, the student provided a reminder but also reviewed indications for lab work, the reason why the provider wished for follow-up, and updated lab hours. Students also followed up with the results of the work-up, as appropriate. During this outreach process, the student team encountered a number of patients who had moved or changed to a PCP outside of the family medicine clinic. In these cases, the EHR was updated and those patients were removed from the list of patients altogether.

Education of clinic providers. Clinic providers were educated during faculty and resident meetings and didactic learning sessions on identifying patients within the EHR who are due for nephropathy screening. They also received instruction on how to update the EHR to reflect completed screenings.

Data Analysis

All analyses in this study were conducted using SAS (version 9.4, 2013, SAS Institute Inc., Cary, NC). Descriptive analyses were conducted to summarize basic patient demographic information. To compare patients screened within the previous 12 months to those patients overdue for screening, 2-sample t-tests were used to examine differences in patients’ age, HbA1c, ACR, and creatinine level and the distance (in miles) between the patient’s home and the clinic. Chi-square analyses were used to examine the relationship between whether a patient was recently screened for nephropathy and the patient’s insurance, number of patient visits in the previous 12 months, and provider level. Logistic regression analyses were conducted to control for covariates and to explore which factors were most predictive of nephropathy screening. All tests were 2-tailed, and P values less than 0.05 were considered statistically significant.

Patient Characteristics

There were 1676 family medicine clinic patients with diabetes between 18 and 75 years of age (Table 1 and Table 2). Of the total sample, 1489 (88.8%) had completed screening for nephropathy in the 12 months prior to evaluation, and 67.5%, 23.7%, and 8.8% of patients had private insurance, Medicare, and Medicaid, respectively.

The mean (SD) age of the patients was 56.3 (11.9) years. The mean distance between the patient’s home and the clinic was 26.6 (76.8) miles. The mean number of visits was 3.6 (2.9) per year, and 43.0% of the patientvisited the clinic more than 3 times in a year. The mean values for HbA1c (%), creatinine (g/mol), and ACR (mg/g) were 7.7 (1.9), 1.0 (0.7), and 9.4 (31.4), respectively.

Screening of Patients for Nephropathy

Patients with Medicare and private insurance were more likely to have completed the nephropathy screening than those with Medicaid (92.5% versus 88.8% versus 82.8%, P = 0.004; Table 3 and Table 4).

Changes in Screening Rate

The practice-wide screening rate was 83.8% at the start of this project in January 2018. The screening rate steadily increased throughout 2018, reaching 90.3% in August 2018, and then leveled off around 90% when the project was concluded at the end of November 2018 (Figure). As an added benefit of the increased screening rates, a number of patients were initiated on an ACE inhibitor or ARB based on the team’s screening efforts.

Predictors of Nephropathy Screening

A logistic regression analysis was conducted with nephropathy screening (screened or not screened) as the outcome and 7 patient characteristics as predictors: type of insurance (private, Medicare, or Medicaid), PCP visits in the past 12 months (≤ 3 or > 3), distance in miles of the patient’s residence from the clinic, age, last HbA1c value, last ACR value, and last creatinine value. A test of the full model with all 7 predictors was statistically significant (χ² (8) = 57.77, P < 0.001). Table 5 shows regression coefficients, Wald statistics, and 95% confidence intervals for odds ratios for each of the 7 predictors. According to the Wald criterion, 3 patient characteristics were significant predictors of nephropathy screening: age, distance between the patient’s home and clinic, and number of PCP visits in the past 12 months. After adjusting for the covariates, there were still significant associations between the nephropathy screening status and age ( χ²(1) = 9.64, P < 0.01); distance between the patient’s home and the clinic (χ²(1) = 3.98, P < 0.05); and the number of PCP visits in the previous year (χ²(1) = 21.74, P < 0.001). With each 1-year increment in age, the odds of completing the nephropathy screening increased by 3.2%. With each 1-mile increase in the distance between the patient’s home and clinic, the odds of completing the nephropathy screening decreased by 0.2%. Patients who visited the clinic more than 3 times in a year were 3.9 times (95% confidence interval, 2.2-7.0) more likely to complete the nephropathy screening than their counterparts who visited fewer than 3 times per year.

In summary, older patients living within about 164 miles of the clinic (ie, within 1 standard deviation from the average miles between patient’s homes and the clinic) who visited their PCP 3 or more times per year were the most likely to be screened.

Diabetic nephropathy is a critical issue facing family medicine providers and patients. The morbidity and mortality costs are significant, as diabetic nephropathy is the leading cause of end-stage renal disease. While the ADA recommends annual ACR screening in patients with diabetes and prescription of ACE inhibitors or ARBs in patients who qualify, many patients do not receive these interventions, despite following up with a provider.^12-15 There is no current literature that indicates the compliance rates in the rural setting. Due to health disparities in the rural setting noted in the literature, it could be hypothesized that these individuals are at high risk of not meeting these screening and treatment recommendations.^16,17 Limited access to care and resources, gaps in insurance coverage, and lower health literacy are a few barriers identified in the rural population that may influence whether these measures are met.¹⁷ 

Considering the disease burden of diabetes and its related complications, including nephropathy, consistent screening is necessary to reduce diabetes-related burdens and cost, while also increasing the quality of life for patients with diabetes. All parties must be involved to ensure appropriate compliance and treatment. Our institution’s implementation of quality improvement strategies has key implications for nephropathy screening and treatment efforts in rural settings.

An additional step of having a health care provider (other than the PCP) screen all patients who are not meeting the standard allows for identification of gaps in care. In our quality improvement workflow, the clinical pharmacist screened all patients for candidacy for ACE inhibitor/ARB therapy. While only a small percentage of patients qualified, many of these patients had previously been on therapy and were discontinued for an unknown reason or were stopped due to an acute condition (eg, acute kidney injury) and never restarted after recovery. Other patients required additional education that therapy would be utilized for nephroprotection versus blood pressure management (secondary to an elevated ACR). This highlights the importance of transitions of care and ongoing, intensive education, not only during initial diagnosis but also throughout the disease-state progression.

Utilization of EHRs and telephone outreach are additional aspects of care that can be provided. Our improved rates of compliance with these care interventions parallel findings from previous studies.^15,18 Optimization of an institution’s EHR can aid in standardization of care, workflow management, and communication with patients, as well as alert nursing or support staff of screening needs. Techniques such as best practice reminders, patient chart messages, and nursing-entered physician alerts on daily schedules have been shown to increase rates of compliance with nephropathy standards. These findings underscore an additional opportunity for nursing and support staff to be better integrated into care.

Despite the success of this quality improvement initiative, there remain some limitations. The processes we used in this project may not be applicable to every institution and may have limited external validity. Primarily, while these processes may be implemented at some sites, without additional support staff (ie, extra nursing staff, pharmacists) and students to aid in patient outreach, success may be limited due to provider time constraints. Additionally, our workflow process demonstrates significant incorporation of an EHR system for patient outreach. Institutions and/or clinics that heavily rely on paper charts and paper outreach may face barriers with bulk orders (eg, ACR) and messages, interventions that streamlined our population health management. Finally, this project focuses on only 1 aspect of population health management for patients with diabetes. While nephropathy is a critical aspect of caring for individuals with diabetes, this patient outreach does not address retinopathy screening, HbA1c control, or vaccination rates, which are other components of care.

Conclusion

Although this evaluation does not provide insight into why patients were not treated or screened, it demonstrates processes to improve compliance in patients with diabetic nephropathy. Rural health care facilities require an ongoing program of change and evaluation, with the aim to improve the provision of services, increase screening, and encourage team member involvement in health promotion. This study demonstrates that combining team-based interventions with quality control monitoring can significantly improve compliance with recommended nephropathy screening and treatment in rural patients with diabetes at a family medicine clinic.

Corresponding author: Amie M. Ashcraft, West Virginia University, Department of Family Medicine, 1 Medical Center Drive, Box 9152, Morgantown, WV 26506; [email protected].

Financial disclosures: None.

Acknowledgment: The authors thank the faculty, residents, nurses, and clinic staff for their hard work and dedication to this effort: Umama Sadia, Michelle Prestoza, Richard Dattola, Greg Doyle, Dana King, Mike Maroon, Kendra Under, Judy Siebert, Christine Snyder, Rachel Burge, Meagan Gribble, Lisa Metts, Kelsey Samek, Sarah Deavers, Amber Kitzmiller, Angela Lamp, Tina Waldeck, and Andrea Sukeruksa.

Children with urinary tract infections (UTIs) may improve clinically, and pyuria may resolve, during empiric treatment with an antibiotic that turns out to be discordant, according a retrospective study in Pediatrics.

M. Alexander Otto

“The low rate of care escalation and high rate of clinical improvement while on discordant antibiotics suggests that, for most patients, it would be reasonable to continue current empiric antibiotic practices until urine culture sensitivities return,” said first author Marie E. Wang, MD, a pediatric hospitalist at Stanford (Calif.) University, and colleagues.

The researchers examined the initial clinical response and escalation of care for 316 children with UTIs who received therapy to which the infecting isolate was not susceptible. The study included patients who had infections that were resistant to third-generation cephalosporins – that is, urinalysis found that the infections were not susceptible to ceftriaxone or cefotaxime in vitro. Before the resistant organisms were identified, however, the patients were started on discordant antibiotics.
 

Escalation of care was uncommon

The patients had a median age of 2.4 years, and 78% were girls. Approximately 90% were started on a cephalosporin, and about 65% received a first-generation cephalosporin. Patients presented during 2012-2017 to one of five children’s hospitals or to a large managed care organization with 10 hospitals in the United States. The investigators defined care escalation as a visit to the emergency department, hospitalization, or transfer to the ICU.

In all, seven patients (2%) had escalation of care on discordant antibiotics. Four children visited an emergency department without hospitalization, and three children were hospitalized because of persistent symptoms.

Among 230 cases for which the researchers had data about clinical response at a median follow-up of 3 days, 84% “had overall clinical improvement while on discordant antibiotics,” the authors said.

For 22 children who had repeat urine testing while on discordant antibiotics, 53% had resolution of pyuria, and 32% had improvement of pyuria, whereas 16% did not have improvement. Of the three patients without improvement, one had no change, and two had worsening.

Of 17 patients who had a repeat urine culture on discordant therapy, 65% had a negative repeat culture, and 18% grew the same pathogen with a decreased colony count. Two patients had a colony count that remained unchanged, and one patient had an increased colony count.

Small studies outside the United States have reported similar results, the researchers noted. Spontaneous resolution of UTIs or antibiotics reaching a sufficient concentration in the urine and renal parenchyma to achieve a clinical response are possible explanations for the findings, they wrote.

“Few children required escalation of care and most experienced initial clinical improvement,” noted Dr. Wang and colleagues. “Furthermore, in the small group of children that underwent repeat urine testing while on discordant therapy, most had resolution or improvement in pyuria and sterilization of their urine cultures. Our findings suggest that current empiric regimens for UTI as informed by local susceptibility patterns are reasonable while awaiting urine culture results. Additionally, given that these patients initially received what would generally be considered inadequate treatment, our findings may provide some insight into the natural history of UTIs and/or trigger further investigation into the relationship between in vitro urine culture susceptibilities and in vivo clinical response to treatment.”
 

‘Caution is needed’

The study “highlights an intriguing observation about children with UTIs unexpectedly responding to discordant antibiotic therapy,” Tej K. Mattoo, MD, and Basim I. Asmar, MD, wrote in an accompanying commentary.(doi: 10.1542/peds.2019-3512). Dr. Mattoo and Dr. Asmar, a pediatric nephrologist and a specialist in pediatric infectious diseases, respectively, at Wayne State University and affiliated with Children’s Hospital of Michigan, both in Detroit.

In an inpatient setting, it may be easy for physicians to reassess patients “once urine culture results reveal resistance to the treating antibiotic,” they noted. In an ambulatory setting, however, “it is likely that some patients will receive a full course of an antibiotic that does not have in vitro activity against the urinary pathogen.”


Physicians have a responsibility to use antibiotics judiciously, they said. Widely accepted principles include avoiding repeated courses of antibiotics, diagnosing UTIs appropriately, and not treating asymptomatic bacteriuria.

The study had no external funding. The authors had no relevant financial disclosures.

[email protected]

SOURCE: Wang ME et al. Pediatrics. 2020 Jan 17. doi: 10.1542/peds.2019-1608.

This article was updated 2/4/2020.

Children with urinary tract infections (UTIs) may improve clinically, and pyuria may resolve, during empiric treatment with an antibiotic that turns out to be discordant, according a retrospective study in Pediatrics.

M. Alexander Otto

“The low rate of care escalation and high rate of clinical improvement while on discordant antibiotics suggests that, for most patients, it would be reasonable to continue current empiric antibiotic practices until urine culture sensitivities return,” said first author Marie E. Wang, MD, a pediatric hospitalist at Stanford (Calif.) University, and colleagues.

The researchers examined the initial clinical response and escalation of care for 316 children with UTIs who received therapy to which the infecting isolate was not susceptible. The study included patients who had infections that were resistant to third-generation cephalosporins – that is, urinalysis found that the infections were not susceptible to ceftriaxone or cefotaxime in vitro. Before the resistant organisms were identified, however, the patients were started on discordant antibiotics.
 

Escalation of care was uncommon

The patients had a median age of 2.4 years, and 78% were girls. Approximately 90% were started on a cephalosporin, and about 65% received a first-generation cephalosporin. Patients presented during 2012-2017 to one of five children’s hospitals or to a large managed care organization with 10 hospitals in the United States. The investigators defined care escalation as a visit to the emergency department, hospitalization, or transfer to the ICU.

In all, seven patients (2%) had escalation of care on discordant antibiotics. Four children visited an emergency department without hospitalization, and three children were hospitalized because of persistent symptoms.

Among 230 cases for which the researchers had data about clinical response at a median follow-up of 3 days, 84% “had overall clinical improvement while on discordant antibiotics,” the authors said.

For 22 children who had repeat urine testing while on discordant antibiotics, 53% had resolution of pyuria, and 32% had improvement of pyuria, whereas 16% did not have improvement. Of the three patients without improvement, one had no change, and two had worsening.

Of 17 patients who had a repeat urine culture on discordant therapy, 65% had a negative repeat culture, and 18% grew the same pathogen with a decreased colony count. Two patients had a colony count that remained unchanged, and one patient had an increased colony count.

Small studies outside the United States have reported similar results, the researchers noted. Spontaneous resolution of UTIs or antibiotics reaching a sufficient concentration in the urine and renal parenchyma to achieve a clinical response are possible explanations for the findings, they wrote.

“Few children required escalation of care and most experienced initial clinical improvement,” noted Dr. Wang and colleagues. “Furthermore, in the small group of children that underwent repeat urine testing while on discordant therapy, most had resolution or improvement in pyuria and sterilization of their urine cultures. Our findings suggest that current empiric regimens for UTI as informed by local susceptibility patterns are reasonable while awaiting urine culture results. Additionally, given that these patients initially received what would generally be considered inadequate treatment, our findings may provide some insight into the natural history of UTIs and/or trigger further investigation into the relationship between in vitro urine culture susceptibilities and in vivo clinical response to treatment.”
 

‘Caution is needed’

The study “highlights an intriguing observation about children with UTIs unexpectedly responding to discordant antibiotic therapy,” Tej K. Mattoo, MD, and Basim I. Asmar, MD, wrote in an accompanying commentary.(doi: 10.1542/peds.2019-3512). Dr. Mattoo and Dr. Asmar, a pediatric nephrologist and a specialist in pediatric infectious diseases, respectively, at Wayne State University and affiliated with Children’s Hospital of Michigan, both in Detroit.

In an inpatient setting, it may be easy for physicians to reassess patients “once urine culture results reveal resistance to the treating antibiotic,” they noted. In an ambulatory setting, however, “it is likely that some patients will receive a full course of an antibiotic that does not have in vitro activity against the urinary pathogen.”


Physicians have a responsibility to use antibiotics judiciously, they said. Widely accepted principles include avoiding repeated courses of antibiotics, diagnosing UTIs appropriately, and not treating asymptomatic bacteriuria.

The study had no external funding. The authors had no relevant financial disclosures.

[email protected]

SOURCE: Wang ME et al. Pediatrics. 2020 Jan 17. doi: 10.1542/peds.2019-1608.

This article was updated 2/4/2020.

Children with urinary tract infections (UTIs) may improve clinically, and pyuria may resolve, during empiric treatment with an antibiotic that turns out to be discordant, according a retrospective study in Pediatrics.

M. Alexander Otto

“The low rate of care escalation and high rate of clinical improvement while on discordant antibiotics suggests that, for most patients, it would be reasonable to continue current empiric antibiotic practices until urine culture sensitivities return,” said first author Marie E. Wang, MD, a pediatric hospitalist at Stanford (Calif.) University, and colleagues.

The researchers examined the initial clinical response and escalation of care for 316 children with UTIs who received therapy to which the infecting isolate was not susceptible. The study included patients who had infections that were resistant to third-generation cephalosporins – that is, urinalysis found that the infections were not susceptible to ceftriaxone or cefotaxime in vitro. Before the resistant organisms were identified, however, the patients were started on discordant antibiotics.
 

Escalation of care was uncommon

The patients had a median age of 2.4 years, and 78% were girls. Approximately 90% were started on a cephalosporin, and about 65% received a first-generation cephalosporin. Patients presented during 2012-2017 to one of five children’s hospitals or to a large managed care organization with 10 hospitals in the United States. The investigators defined care escalation as a visit to the emergency department, hospitalization, or transfer to the ICU.

In all, seven patients (2%) had escalation of care on discordant antibiotics. Four children visited an emergency department without hospitalization, and three children were hospitalized because of persistent symptoms.

Among 230 cases for which the researchers had data about clinical response at a median follow-up of 3 days, 84% “had overall clinical improvement while on discordant antibiotics,” the authors said.

For 22 children who had repeat urine testing while on discordant antibiotics, 53% had resolution of pyuria, and 32% had improvement of pyuria, whereas 16% did not have improvement. Of the three patients without improvement, one had no change, and two had worsening.

Of 17 patients who had a repeat urine culture on discordant therapy, 65% had a negative repeat culture, and 18% grew the same pathogen with a decreased colony count. Two patients had a colony count that remained unchanged, and one patient had an increased colony count.

Small studies outside the United States have reported similar results, the researchers noted. Spontaneous resolution of UTIs or antibiotics reaching a sufficient concentration in the urine and renal parenchyma to achieve a clinical response are possible explanations for the findings, they wrote.

“Few children required escalation of care and most experienced initial clinical improvement,” noted Dr. Wang and colleagues. “Furthermore, in the small group of children that underwent repeat urine testing while on discordant therapy, most had resolution or improvement in pyuria and sterilization of their urine cultures. Our findings suggest that current empiric regimens for UTI as informed by local susceptibility patterns are reasonable while awaiting urine culture results. Additionally, given that these patients initially received what would generally be considered inadequate treatment, our findings may provide some insight into the natural history of UTIs and/or trigger further investigation into the relationship between in vitro urine culture susceptibilities and in vivo clinical response to treatment.”
 

‘Caution is needed’

The study “highlights an intriguing observation about children with UTIs unexpectedly responding to discordant antibiotic therapy,” Tej K. Mattoo, MD, and Basim I. Asmar, MD, wrote in an accompanying commentary.(doi: 10.1542/peds.2019-3512). Dr. Mattoo and Dr. Asmar, a pediatric nephrologist and a specialist in pediatric infectious diseases, respectively, at Wayne State University and affiliated with Children’s Hospital of Michigan, both in Detroit.

In an inpatient setting, it may be easy for physicians to reassess patients “once urine culture results reveal resistance to the treating antibiotic,” they noted. In an ambulatory setting, however, “it is likely that some patients will receive a full course of an antibiotic that does not have in vitro activity against the urinary pathogen.”


Physicians have a responsibility to use antibiotics judiciously, they said. Widely accepted principles include avoiding repeated courses of antibiotics, diagnosing UTIs appropriately, and not treating asymptomatic bacteriuria.

The study had no external funding. The authors had no relevant financial disclosures.

[email protected]

SOURCE: Wang ME et al. Pediatrics. 2020 Jan 17. doi: 10.1542/peds.2019-1608.

This article was updated 2/4/2020.

Suboptimal dosing of renin-angiotensin-aldosterone system (RAAS) inhibitors to reduce the risk of hyperkalemia could increase the risk of major adverse cardiac events (MACE) and all-cause mortality in patients with chronic kidney disease (CKD) or heart failure.

HYWARDS/Thinkstock

Researchers reported the outcomes of an observational study that explored the real-world associations between RAAS inhibitor dose, hyperkalemia, and clinical outcomes.

RAAS inhibitors – such as ACE inhibitors, angiotensin receptor blockers, and mineralocorticoid receptor antagonists – are known to reduce potassium excretion and therefore increase the risk of high potassium levels.

Dr. Cecilia Linde, from the Karolinska University Hospital and Karolinska Institutet in Stockholm, and coauthors wrote that management of serum potassium levels often requires reducing the dosage of RAAS inhibitors or stopping them altogether. However, this is also associated with risks in patients with heart failure or CKD.

In this study, researchers looked at data from 100,572 people with nondialysis CKD and 13,113 with new-onset heart failure who were prescribed RAAS inhibitors during 2006-2015.

Overall, 58% of patients with CKD and 63% of patients with heart failure spent the majority of follow-up on prescribed optimal doses of RAAS inhibitors – defined as at least 50% of the guidelines-recommended dose.

Patients with hyperkalemia were more likely to have down-titrations or discontinue their RAAS inhibitors, and this increased with increasing hyperkalemia severity.

The study found consistently lower mortality rates among patients who spent most of their follow-up time on at least 50% of the guideline-recommended dose of RAAS inhibitors.

In patients with CKD, mortality rates were 7.2 deaths per 1,000 patient-years in those taking at least 50% of the recommended dose, compared with 57.7 deaths per 1,000 patient-years for those on suboptimal doses. The rates of MACE were 73 and 130 per 1,000 patient-years, respectively.

The differences were even more pronounced in patients with heart failure. Those taking at least 50% of the recommended dose had mortality rates of 12.5 per 1000 patient-years, compared with 141.7 among those on suboptimal doses. The rates of MACE were 148.5 and 290.4, respectively.

“The results highlight the potential negative impact of suboptimal RAASi dosing, indicate the generalizability of [European Society of Cardiology–recommended] RAASi doses in HF to CKD patients, and emphasize the need for strategies that allow patients to be maintained on appropriate therapy, avoiding RAASi dose modification or discontinuation,” the authors wrote.

The study was funded by AstraZeneca. One author was an employee and stockholder of AstraZeneca, and five authors declared funding and support from the pharmaceutical sector, including AstraZeneca.

SOURCE: Linde C et al. J Am Heart Assoc. 2019 Nov 12. doi: 10.1161/JAHA.119.012655.

Suboptimal dosing of renin-angiotensin-aldosterone system (RAAS) inhibitors to reduce the risk of hyperkalemia could increase the risk of major adverse cardiac events (MACE) and all-cause mortality in patients with chronic kidney disease (CKD) or heart failure.

HYWARDS/Thinkstock

Researchers reported the outcomes of an observational study that explored the real-world associations between RAAS inhibitor dose, hyperkalemia, and clinical outcomes.

RAAS inhibitors – such as ACE inhibitors, angiotensin receptor blockers, and mineralocorticoid receptor antagonists – are known to reduce potassium excretion and therefore increase the risk of high potassium levels.

Dr. Cecilia Linde, from the Karolinska University Hospital and Karolinska Institutet in Stockholm, and coauthors wrote that management of serum potassium levels often requires reducing the dosage of RAAS inhibitors or stopping them altogether. However, this is also associated with risks in patients with heart failure or CKD.

In this study, researchers looked at data from 100,572 people with nondialysis CKD and 13,113 with new-onset heart failure who were prescribed RAAS inhibitors during 2006-2015.

Overall, 58% of patients with CKD and 63% of patients with heart failure spent the majority of follow-up on prescribed optimal doses of RAAS inhibitors – defined as at least 50% of the guidelines-recommended dose.

Patients with hyperkalemia were more likely to have down-titrations or discontinue their RAAS inhibitors, and this increased with increasing hyperkalemia severity.

The study found consistently lower mortality rates among patients who spent most of their follow-up time on at least 50% of the guideline-recommended dose of RAAS inhibitors.

In patients with CKD, mortality rates were 7.2 deaths per 1,000 patient-years in those taking at least 50% of the recommended dose, compared with 57.7 deaths per 1,000 patient-years for those on suboptimal doses. The rates of MACE were 73 and 130 per 1,000 patient-years, respectively.

The differences were even more pronounced in patients with heart failure. Those taking at least 50% of the recommended dose had mortality rates of 12.5 per 1000 patient-years, compared with 141.7 among those on suboptimal doses. The rates of MACE were 148.5 and 290.4, respectively.

“The results highlight the potential negative impact of suboptimal RAASi dosing, indicate the generalizability of [European Society of Cardiology–recommended] RAASi doses in HF to CKD patients, and emphasize the need for strategies that allow patients to be maintained on appropriate therapy, avoiding RAASi dose modification or discontinuation,” the authors wrote.

The study was funded by AstraZeneca. One author was an employee and stockholder of AstraZeneca, and five authors declared funding and support from the pharmaceutical sector, including AstraZeneca.

SOURCE: Linde C et al. J Am Heart Assoc. 2019 Nov 12. doi: 10.1161/JAHA.119.012655.

Suboptimal dosing of renin-angiotensin-aldosterone system (RAAS) inhibitors to reduce the risk of hyperkalemia could increase the risk of major adverse cardiac events (MACE) and all-cause mortality in patients with chronic kidney disease (CKD) or heart failure.

HYWARDS/Thinkstock

Researchers reported the outcomes of an observational study that explored the real-world associations between RAAS inhibitor dose, hyperkalemia, and clinical outcomes.

RAAS inhibitors – such as ACE inhibitors, angiotensin receptor blockers, and mineralocorticoid receptor antagonists – are known to reduce potassium excretion and therefore increase the risk of high potassium levels.

Dr. Cecilia Linde, from the Karolinska University Hospital and Karolinska Institutet in Stockholm, and coauthors wrote that management of serum potassium levels often requires reducing the dosage of RAAS inhibitors or stopping them altogether. However, this is also associated with risks in patients with heart failure or CKD.

In this study, researchers looked at data from 100,572 people with nondialysis CKD and 13,113 with new-onset heart failure who were prescribed RAAS inhibitors during 2006-2015.

Overall, 58% of patients with CKD and 63% of patients with heart failure spent the majority of follow-up on prescribed optimal doses of RAAS inhibitors – defined as at least 50% of the guidelines-recommended dose.

Patients with hyperkalemia were more likely to have down-titrations or discontinue their RAAS inhibitors, and this increased with increasing hyperkalemia severity.

The study found consistently lower mortality rates among patients who spent most of their follow-up time on at least 50% of the guideline-recommended dose of RAAS inhibitors.

In patients with CKD, mortality rates were 7.2 deaths per 1,000 patient-years in those taking at least 50% of the recommended dose, compared with 57.7 deaths per 1,000 patient-years for those on suboptimal doses. The rates of MACE were 73 and 130 per 1,000 patient-years, respectively.

The differences were even more pronounced in patients with heart failure. Those taking at least 50% of the recommended dose had mortality rates of 12.5 per 1000 patient-years, compared with 141.7 among those on suboptimal doses. The rates of MACE were 148.5 and 290.4, respectively.

“The results highlight the potential negative impact of suboptimal RAASi dosing, indicate the generalizability of [European Society of Cardiology–recommended] RAASi doses in HF to CKD patients, and emphasize the need for strategies that allow patients to be maintained on appropriate therapy, avoiding RAASi dose modification or discontinuation,” the authors wrote.

The study was funded by AstraZeneca. One author was an employee and stockholder of AstraZeneca, and five authors declared funding and support from the pharmaceutical sector, including AstraZeneca.

SOURCE: Linde C et al. J Am Heart Assoc. 2019 Nov 12. doi: 10.1161/JAHA.119.012655.