Diabetes

Adults with type 1 diabetes had significantly better glycemic control on days they exercised, regardless of exercise type, compared to days when they were inactive, according to a prospective study in nearly 500 individuals.

Different types of exercise, such as aerobic workouts, interval training, or resistance training, may have different immediate glycemic effects in adults with type 1 diabetes (T1D), but the impact of exercise type on the percentage of time diabetes patients maintain glucose in the 70-180 mg/dL range on days when they are active vs. inactive has not been well studied, Zoey Li said in a presentation at the annual scientific sessions of the American Diabetes Association.

Yuri Nunes / EyeEm / Getty Images

In the Type 1 Diabetes Exercise Initiative (T1DEXI) study, Ms. Li and colleagues examined continuous glucose monitoring (CGM) data from 497 adults with T1D. The observational study included self-referred adults aged 18 years and older who had been living with T1D for at least 2 years. Participants were assigned to programs of aerobic exercise (defined as a target heart rate of 70%-80% of age-predicted maximum), interval exercise (defined as an interval heart rate of 80%-90% of age-predicted maximum), or resistance exercise (defined as muscle group fatigue after three sets of eight repetitions).

Participants completed the workouts at home via 30-minute videos at least six times over the 4-week study period. The study design involved an activity goal of at least 150 minutes per week, including the videos and self-reported usual activity, such as walking. The data were collected through an app designed for the study, a heart rate monitor, and a CGM.

The researchers compared glucose levels on days when the participants reported being active compared to days when they were sedentary. The goal of the study was to assess the effect of exercise type on time spent with glucose in the range of 70-180 mg/dL, defined as time in range (TIR).

The mean age of the participants was 37 years; 89% were White. The mean duration of diabetes was 18 years, and the mean hemoglobin A1c was 6.6%. “An astounding 95% were current continuous glucose monitoring [CGM] users,” said Ms. Li, a statistician at the Jaeb Center for Health Research in Tampa, Fla.

A total of 398 participants reported at least one exercise day and one sedentary day, for a total of 1,302 exercise days and 2,470 sedentary days.

Overall, the mean TIR was significantly higher on exercise days compared to sedentary days (75% vs. 70%, P < .001). The median time above 180 mg/dL also was significantly lower on exercise days compared to sedentary days (17% vs. 23%, P < .001), and mean glucose levels were 10 mg/dL lower on exercise days (145 mg/dL vs. 155 mg/dL)

“This all came with a slight hit to their time below range,” Ms. Li noted. The median time below 70 mg/dL was 1.1% on exercise days compared to 0.4% on sedentary days (P < .001). The percentage of days with hypoglycemic events was higher on exercise days compared to sedentary days (47% vs. 40%, P < .001), as they are related to time below 70 mg/dL, she added.

The differences for mean glucose level and TIR between exercise days and sedentary days were significant for each of the three exercise types, Ms. Li said.

“After establishing these glycemic trends, we looked at whether there were any factors that influenced the glycemic differences on exercise vs. sedentary days,” Ms. Li said.

Regardless of exercise type, age, sex, baseline A1c, diabetes duration, body mass index, insulin modality, CGM use, and percentage of time below range in the past 24 hours, there was higher TIR and higher hypoglycemia on exercise days compared to sedentary days.

Although the study was limited in part by the observational design, “with these data, we can better understand the glycemic benefits and disadvantages of exercise in adults with type 1 diabetes,” Ms. Li said.
 

Don’t forget the negative effects of exercise

“It is well known that the three types of exercise can modulate glucose levels. This can be very useful when attempting to reduce excessively high glucose levels, and when encouraging people to engage in frequent, regular, and consistent physical activity and exercise for general cardiovascular pulmonary and musculoskeletal health,” Helena W. Rodbard, MD, an endocrinologist in private practice in Rockville, Md., said in an interview.

“However, it was not known what effects various types of exercise would have on time in range (70-180 mg/dL) and time below range (< 70 mg/dL) measured over a full 24-hour period in people with type 1 diabetes,” said Dr. Rodbard, who was not involved with the study.

“I was surprised to see that the effect of the three different types of exercise were so similar,” Dr. Rodbard noted. “There had been previous reports suggesting that the time course of glucose could be different for these three types of exercise.”

The current study confirms prior knowledge that exercise can help reduce blood glucose, and increase TIR, said Dr. Rodbard. The study shows that TIR increases by roughly 5-7 percentage points (about 1 hour per day) and reduces mean glucose by 9-13 mg/dL irrespective of the three types of exercise,” she said. “There was a suggestion that the risk of increasing hypoglycemia below 70 mg/dL was less likely for resistance exercise than for the interval or aerobic types of exercise,” she noted.

As for additional research, “This study did not address the various ways in which one can mitigate the potentially deleterious effects of exercise, specifically with reference to rates of hypoglycemia, even mild symptomatic biochemical hypoglycemia,” said Dr. Rodbard. “Since the actual amount of time below 70 mg/dL is usually so small (0.3%-0.7% of the 1,440 minutes in the day, or about 5-10 minutes per day on average), it is difficult to measure and there is considerable variability between different people,” she emphasized. “Finding optimal and robust ways to achieve consistency in the reduction of glucose, between days within subjects, and between subjects, will need further examination of various types of protocols for diet, exercise and insulin administration, and of various methods for education of the patient,” she said.

The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust. Ms. Li and Dr. Rodbard had no financial conflicts to disclose. Dr. Rodbard serves on the editorial advisory board of Clinical Endocrinology News.

Adults with type 1 diabetes had significantly better glycemic control on days they exercised, regardless of exercise type, compared to days when they were inactive, according to a prospective study in nearly 500 individuals.

Different types of exercise, such as aerobic workouts, interval training, or resistance training, may have different immediate glycemic effects in adults with type 1 diabetes (T1D), but the impact of exercise type on the percentage of time diabetes patients maintain glucose in the 70-180 mg/dL range on days when they are active vs. inactive has not been well studied, Zoey Li said in a presentation at the annual scientific sessions of the American Diabetes Association.

Yuri Nunes / EyeEm / Getty Images

In the Type 1 Diabetes Exercise Initiative (T1DEXI) study, Ms. Li and colleagues examined continuous glucose monitoring (CGM) data from 497 adults with T1D. The observational study included self-referred adults aged 18 years and older who had been living with T1D for at least 2 years. Participants were assigned to programs of aerobic exercise (defined as a target heart rate of 70%-80% of age-predicted maximum), interval exercise (defined as an interval heart rate of 80%-90% of age-predicted maximum), or resistance exercise (defined as muscle group fatigue after three sets of eight repetitions).

Participants completed the workouts at home via 30-minute videos at least six times over the 4-week study period. The study design involved an activity goal of at least 150 minutes per week, including the videos and self-reported usual activity, such as walking. The data were collected through an app designed for the study, a heart rate monitor, and a CGM.

The researchers compared glucose levels on days when the participants reported being active compared to days when they were sedentary. The goal of the study was to assess the effect of exercise type on time spent with glucose in the range of 70-180 mg/dL, defined as time in range (TIR).

The mean age of the participants was 37 years; 89% were White. The mean duration of diabetes was 18 years, and the mean hemoglobin A1c was 6.6%. “An astounding 95% were current continuous glucose monitoring [CGM] users,” said Ms. Li, a statistician at the Jaeb Center for Health Research in Tampa, Fla.

A total of 398 participants reported at least one exercise day and one sedentary day, for a total of 1,302 exercise days and 2,470 sedentary days.

Overall, the mean TIR was significantly higher on exercise days compared to sedentary days (75% vs. 70%, P < .001). The median time above 180 mg/dL also was significantly lower on exercise days compared to sedentary days (17% vs. 23%, P < .001), and mean glucose levels were 10 mg/dL lower on exercise days (145 mg/dL vs. 155 mg/dL)

“This all came with a slight hit to their time below range,” Ms. Li noted. The median time below 70 mg/dL was 1.1% on exercise days compared to 0.4% on sedentary days (P < .001). The percentage of days with hypoglycemic events was higher on exercise days compared to sedentary days (47% vs. 40%, P < .001), as they are related to time below 70 mg/dL, she added.

The differences for mean glucose level and TIR between exercise days and sedentary days were significant for each of the three exercise types, Ms. Li said.

“After establishing these glycemic trends, we looked at whether there were any factors that influenced the glycemic differences on exercise vs. sedentary days,” Ms. Li said.

Regardless of exercise type, age, sex, baseline A1c, diabetes duration, body mass index, insulin modality, CGM use, and percentage of time below range in the past 24 hours, there was higher TIR and higher hypoglycemia on exercise days compared to sedentary days.

Although the study was limited in part by the observational design, “with these data, we can better understand the glycemic benefits and disadvantages of exercise in adults with type 1 diabetes,” Ms. Li said.
 

Don’t forget the negative effects of exercise

“It is well known that the three types of exercise can modulate glucose levels. This can be very useful when attempting to reduce excessively high glucose levels, and when encouraging people to engage in frequent, regular, and consistent physical activity and exercise for general cardiovascular pulmonary and musculoskeletal health,” Helena W. Rodbard, MD, an endocrinologist in private practice in Rockville, Md., said in an interview.

“However, it was not known what effects various types of exercise would have on time in range (70-180 mg/dL) and time below range (< 70 mg/dL) measured over a full 24-hour period in people with type 1 diabetes,” said Dr. Rodbard, who was not involved with the study.

“I was surprised to see that the effect of the three different types of exercise were so similar,” Dr. Rodbard noted. “There had been previous reports suggesting that the time course of glucose could be different for these three types of exercise.”

The current study confirms prior knowledge that exercise can help reduce blood glucose, and increase TIR, said Dr. Rodbard. The study shows that TIR increases by roughly 5-7 percentage points (about 1 hour per day) and reduces mean glucose by 9-13 mg/dL irrespective of the three types of exercise,” she said. “There was a suggestion that the risk of increasing hypoglycemia below 70 mg/dL was less likely for resistance exercise than for the interval or aerobic types of exercise,” she noted.

As for additional research, “This study did not address the various ways in which one can mitigate the potentially deleterious effects of exercise, specifically with reference to rates of hypoglycemia, even mild symptomatic biochemical hypoglycemia,” said Dr. Rodbard. “Since the actual amount of time below 70 mg/dL is usually so small (0.3%-0.7% of the 1,440 minutes in the day, or about 5-10 minutes per day on average), it is difficult to measure and there is considerable variability between different people,” she emphasized. “Finding optimal and robust ways to achieve consistency in the reduction of glucose, between days within subjects, and between subjects, will need further examination of various types of protocols for diet, exercise and insulin administration, and of various methods for education of the patient,” she said.

The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust. Ms. Li and Dr. Rodbard had no financial conflicts to disclose. Dr. Rodbard serves on the editorial advisory board of Clinical Endocrinology News.

Adults with type 1 diabetes had significantly better glycemic control on days they exercised, regardless of exercise type, compared to days when they were inactive, according to a prospective study in nearly 500 individuals.

Different types of exercise, such as aerobic workouts, interval training, or resistance training, may have different immediate glycemic effects in adults with type 1 diabetes (T1D), but the impact of exercise type on the percentage of time diabetes patients maintain glucose in the 70-180 mg/dL range on days when they are active vs. inactive has not been well studied, Zoey Li said in a presentation at the annual scientific sessions of the American Diabetes Association.

Yuri Nunes / EyeEm / Getty Images

In the Type 1 Diabetes Exercise Initiative (T1DEXI) study, Ms. Li and colleagues examined continuous glucose monitoring (CGM) data from 497 adults with T1D. The observational study included self-referred adults aged 18 years and older who had been living with T1D for at least 2 years. Participants were assigned to programs of aerobic exercise (defined as a target heart rate of 70%-80% of age-predicted maximum), interval exercise (defined as an interval heart rate of 80%-90% of age-predicted maximum), or resistance exercise (defined as muscle group fatigue after three sets of eight repetitions).

Participants completed the workouts at home via 30-minute videos at least six times over the 4-week study period. The study design involved an activity goal of at least 150 minutes per week, including the videos and self-reported usual activity, such as walking. The data were collected through an app designed for the study, a heart rate monitor, and a CGM.

The researchers compared glucose levels on days when the participants reported being active compared to days when they were sedentary. The goal of the study was to assess the effect of exercise type on time spent with glucose in the range of 70-180 mg/dL, defined as time in range (TIR).

The mean age of the participants was 37 years; 89% were White. The mean duration of diabetes was 18 years, and the mean hemoglobin A1c was 6.6%. “An astounding 95% were current continuous glucose monitoring [CGM] users,” said Ms. Li, a statistician at the Jaeb Center for Health Research in Tampa, Fla.

A total of 398 participants reported at least one exercise day and one sedentary day, for a total of 1,302 exercise days and 2,470 sedentary days.

Overall, the mean TIR was significantly higher on exercise days compared to sedentary days (75% vs. 70%, P < .001). The median time above 180 mg/dL also was significantly lower on exercise days compared to sedentary days (17% vs. 23%, P < .001), and mean glucose levels were 10 mg/dL lower on exercise days (145 mg/dL vs. 155 mg/dL)

“This all came with a slight hit to their time below range,” Ms. Li noted. The median time below 70 mg/dL was 1.1% on exercise days compared to 0.4% on sedentary days (P < .001). The percentage of days with hypoglycemic events was higher on exercise days compared to sedentary days (47% vs. 40%, P < .001), as they are related to time below 70 mg/dL, she added.

The differences for mean glucose level and TIR between exercise days and sedentary days were significant for each of the three exercise types, Ms. Li said.

“After establishing these glycemic trends, we looked at whether there were any factors that influenced the glycemic differences on exercise vs. sedentary days,” Ms. Li said.

Regardless of exercise type, age, sex, baseline A1c, diabetes duration, body mass index, insulin modality, CGM use, and percentage of time below range in the past 24 hours, there was higher TIR and higher hypoglycemia on exercise days compared to sedentary days.

Although the study was limited in part by the observational design, “with these data, we can better understand the glycemic benefits and disadvantages of exercise in adults with type 1 diabetes,” Ms. Li said.
 

Don’t forget the negative effects of exercise

“It is well known that the three types of exercise can modulate glucose levels. This can be very useful when attempting to reduce excessively high glucose levels, and when encouraging people to engage in frequent, regular, and consistent physical activity and exercise for general cardiovascular pulmonary and musculoskeletal health,” Helena W. Rodbard, MD, an endocrinologist in private practice in Rockville, Md., said in an interview.

“However, it was not known what effects various types of exercise would have on time in range (70-180 mg/dL) and time below range (< 70 mg/dL) measured over a full 24-hour period in people with type 1 diabetes,” said Dr. Rodbard, who was not involved with the study.

“I was surprised to see that the effect of the three different types of exercise were so similar,” Dr. Rodbard noted. “There had been previous reports suggesting that the time course of glucose could be different for these three types of exercise.”

The current study confirms prior knowledge that exercise can help reduce blood glucose, and increase TIR, said Dr. Rodbard. The study shows that TIR increases by roughly 5-7 percentage points (about 1 hour per day) and reduces mean glucose by 9-13 mg/dL irrespective of the three types of exercise,” she said. “There was a suggestion that the risk of increasing hypoglycemia below 70 mg/dL was less likely for resistance exercise than for the interval or aerobic types of exercise,” she noted.

As for additional research, “This study did not address the various ways in which one can mitigate the potentially deleterious effects of exercise, specifically with reference to rates of hypoglycemia, even mild symptomatic biochemical hypoglycemia,” said Dr. Rodbard. “Since the actual amount of time below 70 mg/dL is usually so small (0.3%-0.7% of the 1,440 minutes in the day, or about 5-10 minutes per day on average), it is difficult to measure and there is considerable variability between different people,” she emphasized. “Finding optimal and robust ways to achieve consistency in the reduction of glucose, between days within subjects, and between subjects, will need further examination of various types of protocols for diet, exercise and insulin administration, and of various methods for education of the patient,” she said.

The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust. Ms. Li and Dr. Rodbard had no financial conflicts to disclose. Dr. Rodbard serves on the editorial advisory board of Clinical Endocrinology News.

NEW ORLEANS – Open-source automated insulin delivery systems appear to be both effective and safe in adults and children, new research finds.

Automated insulin delivery (AID) system, also known as closed-loop systems or an artificial pancreas, link an insulin pump and a continuous glucose monitor (CGM) with an algorithm that automatically adjusts insulin delivery to optimize glycemic control.

Prior to the availability of commercial AID systems, Dana Lewis, a patient with type 1 diabetes, and her partner codeveloped an algorithm that could link older versions of an insulin pump and CGM.

In 2015, they made the code and all related materials open-source, so that anyone who wanted to create their own AID system could do so. Today thousands of people worldwide with type 1 diabetes are using the systems, which are sometimes called “do-it-yourself (DIY)” AID systems although the approach has been community based.  

AID systems are not approved by any regulatory body, and despite several nonrandomized studies demonstrating their effectiveness and safety, there is still concern among some health professionals about their safety. In 2019, the U.S. Food and Drug Administration warned against the use of any nonapproved devices or algorithms. (Now, though, at least one open-source AID system algorithm is under FDA review.)

Aimed at addressing those concerns, CREATE (Community Derived Automated Insulin Delivery) is the first randomized controlled clinical trial to compare an open-source AID system to insulin pump therapy and CGM (without any communication between the two) in patients with type 1 diabetes, most of whom were naive to AID systems.

Doctors uncomfortable with open source; study provides reassurance

The findings were presented at the American Diabetes Association scientific sessions by Martin I. de Bock, PhD, a pediatric endocrinologist and senior lecturer at the University of Otago, Christchurch, New Zealand.

The study compared the most commonly used open-source AID system (using the OpenAPS algorithm from a version of AndroidAPS implemented in a smartphone with the DANA-i insulin pump and Dexcom G6 CGM) to any insulin pump plus CGM as a comparator group.

The open-source AID system led to a significant reduction in hemoglobin A1c with no major safety issues.

“The acceptance [among clinicians] of open-source systems is diverse and complicated, [with varying] personal comfort levels of seeing someone using an AID system that has no regulatory approval,” Dr. de Bock told this news organization.  

“This is one of the reasons that it was so important to conduct the CREATE trial for the many thousands of open-source AID users. Given that the trial demonstrated safety and efficacy using the most robust scientific methodology available – a long-term randomized controlled trial – it may go some way to provide assurance for providers when they are seeing people using an open-source automated system,” he said.

Asked for comment, session moderator Diana Isaacs, PharmD, CDCES, an endocrine clinical pharmacist at the Cleveland Clinic, told this news organization: “There has been concern that these systems aren’t safe, so showing the safety is important. I think people deserve choice. As long as they’re safe, patients should be able to use what they want to use, and we should support them.”

Dr. Isaacs pointed out that an advantage of open-source systems over current commercial AIDs for patients is the ability to customize glucose targets, but in CREATE, those targets were established in the protocol by the investigators.

“I think it’s nice having the data, although in the trial they had specific requirements. They had a target range and active insulin time that they were recommending. So it’s a little different than true DIY where you don’t really have those guidelines you have to follow. It is exciting, it’s very interesting, but I wouldn’t say it’s a true mirror of the real world.”
 

Open-source systems improved time-in-range, no safety issues

For the CREATE study, 100 participants were enrolled, including 50 children aged 7-15 years and 50 adults aged 16-70 years. All participants had been using insulin pumps for at least 6 months. Most of the children and about two-thirds of the adults were also using CGMs, but just 6% of the children and 18% of the adults had prior experience with AID systems.

Baseline A1c in children was 7.5% and in adults was 7.7%.

After a 4-week run-in, all patients were randomized to the open-source AID or insulin pump plus CGM for 6 months.

The final group analyzed consisted of 42 patients in the open-source AID group and 53 patients in the comparator group.

The primary outcome, the adjusted mean difference in percent time-in-range (glucose of 70-180 mg/dL) during the final 2 weeks of the 6-month trial, showed a significant difference of 14% (P < .001) with open-source AID compared with pump plus CGM only.

Time-in-range in the open-source AID group rose from 61.2% to 71.2%, while it actually dropped slightly in the comparator group, from 57.7% to 54.5%.

The proportion of patients achieving time-in-range greater than 70% with open-source AID was 60% versus just 15% with pump plus CGM.

Glycemic improvements with open-source AID were significant for adults and children and were greater for those with higher baseline A1c levels. The effect was immediate and sustained throughout the study period, “which is super-pleasing, because there was a worry that the technical burden of open source might be [leading to] dropout, but we didn’t see that. It was sustained right through to the end of the trial,” Dr. de Bock commented.

Hypoglycemic rates didn’t differ between groups, and there were no episodes of severe hypoglycemia or diabetic ketoacidosis.
 

No more waiting: What is the future of open-source AID?

When the open-source APS was first developed, users coined the motto: “We are not waiting.” But now that the “wait” is over and several commercial AIDs have been approved by regulatory bodies, with others still in the pipeline, will people still use open-source systems?

There are no current data on people moving from DIY to commercial systems. However, Dr. de Bock said, “For most who undertook an open-source option, the precision of the settings that they can use and enjoy would mean that most would likely stick to their open source.”

Dr. Isaacs agrees: “I actually don’t think it’s going to go away in the near future, because the FDA has very specific criteria for where these [formally approved] devices can be in terms of their target ranges and requirements versus with open source you can really customize. So I still think there’s going to be a subset of people who want that customization, who want the lower targets.”

Dana Lewis, the originator of the DIY system and a CREATE coauthor, told this news organization: “I don’t believe there has been a fall-off, and in fact, I think open-source AID has continued to have ongoing uptake as awareness increases about options and as more pumps and CGMs become interoperable with various open-source AID choices.”

“I think uptake increasing is also influenced by the fact that in places like Europe, Asia, and Australia there are in-warranty on-the-market pumps that are compatible and interoperable with open-source AID. I think awareness of AID overall increases uptake of commercial and open source alike,” she said.

“Clinicians, as emphasized in recent position statements, must maintain support of the person with diabetes, irrespective of the mode of treatment they are on. ... Health care providers should be encouraged to learn from the experiences of the people who have stuck with open-source AID or switched, so that they can inform themselves of the relative strengths and benefits of each system,” Dr. de Bock advised.

Ms. Lewis noted: “We are seeing increasing awareness and comfort in endocrinologists from the community perspective, and we do hope that this study helps increase conversation and awareness of the safety and efficacy of open-source AID systems as an option for people with diabetes.”

In fact, the team published an article specifically about clinicians’ experience in CREATE. “The learning curve is similar across AID technology,” she observed.  

Findings of a 6-month continuation phase of CREATE, in which all participants used the open-source AID, are scheduled to be presented in September at the European Association for the Study of Diabetes annual meeting.

The study was funded by the Health Research Council of New Zealand, with hardware support from SOOIL Developments, South Korea; Dexcom; and Vodafone New Zealand. Dr. de Bock has reported receiving honoraria and/or research funding from Novo Nordisk, Sanofi, Pfizer, Medtronic, Lilly, Ypsomed, and Dexcom. Dr. Isaacs has reported serving as a consultant for LifeScan, Lilly, and Insulet, and as a speaker for Dexcom, Medtronic, Abbott, and Novo Nordisk. Ms. Lewis has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

NEW ORLEANS – Open-source automated insulin delivery systems appear to be both effective and safe in adults and children, new research finds.

Automated insulin delivery (AID) system, also known as closed-loop systems or an artificial pancreas, link an insulin pump and a continuous glucose monitor (CGM) with an algorithm that automatically adjusts insulin delivery to optimize glycemic control.

Prior to the availability of commercial AID systems, Dana Lewis, a patient with type 1 diabetes, and her partner codeveloped an algorithm that could link older versions of an insulin pump and CGM.

In 2015, they made the code and all related materials open-source, so that anyone who wanted to create their own AID system could do so. Today thousands of people worldwide with type 1 diabetes are using the systems, which are sometimes called “do-it-yourself (DIY)” AID systems although the approach has been community based.  

AID systems are not approved by any regulatory body, and despite several nonrandomized studies demonstrating their effectiveness and safety, there is still concern among some health professionals about their safety. In 2019, the U.S. Food and Drug Administration warned against the use of any nonapproved devices or algorithms. (Now, though, at least one open-source AID system algorithm is under FDA review.)

Aimed at addressing those concerns, CREATE (Community Derived Automated Insulin Delivery) is the first randomized controlled clinical trial to compare an open-source AID system to insulin pump therapy and CGM (without any communication between the two) in patients with type 1 diabetes, most of whom were naive to AID systems.

Doctors uncomfortable with open source; study provides reassurance

The findings were presented at the American Diabetes Association scientific sessions by Martin I. de Bock, PhD, a pediatric endocrinologist and senior lecturer at the University of Otago, Christchurch, New Zealand.

The study compared the most commonly used open-source AID system (using the OpenAPS algorithm from a version of AndroidAPS implemented in a smartphone with the DANA-i insulin pump and Dexcom G6 CGM) to any insulin pump plus CGM as a comparator group.

The open-source AID system led to a significant reduction in hemoglobin A1c with no major safety issues.

“The acceptance [among clinicians] of open-source systems is diverse and complicated, [with varying] personal comfort levels of seeing someone using an AID system that has no regulatory approval,” Dr. de Bock told this news organization.  

“This is one of the reasons that it was so important to conduct the CREATE trial for the many thousands of open-source AID users. Given that the trial demonstrated safety and efficacy using the most robust scientific methodology available – a long-term randomized controlled trial – it may go some way to provide assurance for providers when they are seeing people using an open-source automated system,” he said.

Asked for comment, session moderator Diana Isaacs, PharmD, CDCES, an endocrine clinical pharmacist at the Cleveland Clinic, told this news organization: “There has been concern that these systems aren’t safe, so showing the safety is important. I think people deserve choice. As long as they’re safe, patients should be able to use what they want to use, and we should support them.”

Dr. Isaacs pointed out that an advantage of open-source systems over current commercial AIDs for patients is the ability to customize glucose targets, but in CREATE, those targets were established in the protocol by the investigators.

“I think it’s nice having the data, although in the trial they had specific requirements. They had a target range and active insulin time that they were recommending. So it’s a little different than true DIY where you don’t really have those guidelines you have to follow. It is exciting, it’s very interesting, but I wouldn’t say it’s a true mirror of the real world.”
 

Open-source systems improved time-in-range, no safety issues

For the CREATE study, 100 participants were enrolled, including 50 children aged 7-15 years and 50 adults aged 16-70 years. All participants had been using insulin pumps for at least 6 months. Most of the children and about two-thirds of the adults were also using CGMs, but just 6% of the children and 18% of the adults had prior experience with AID systems.

Baseline A1c in children was 7.5% and in adults was 7.7%.

After a 4-week run-in, all patients were randomized to the open-source AID or insulin pump plus CGM for 6 months.

The final group analyzed consisted of 42 patients in the open-source AID group and 53 patients in the comparator group.

The primary outcome, the adjusted mean difference in percent time-in-range (glucose of 70-180 mg/dL) during the final 2 weeks of the 6-month trial, showed a significant difference of 14% (P < .001) with open-source AID compared with pump plus CGM only.

Time-in-range in the open-source AID group rose from 61.2% to 71.2%, while it actually dropped slightly in the comparator group, from 57.7% to 54.5%.

The proportion of patients achieving time-in-range greater than 70% with open-source AID was 60% versus just 15% with pump plus CGM.

Glycemic improvements with open-source AID were significant for adults and children and were greater for those with higher baseline A1c levels. The effect was immediate and sustained throughout the study period, “which is super-pleasing, because there was a worry that the technical burden of open source might be [leading to] dropout, but we didn’t see that. It was sustained right through to the end of the trial,” Dr. de Bock commented.

Hypoglycemic rates didn’t differ between groups, and there were no episodes of severe hypoglycemia or diabetic ketoacidosis.
 

No more waiting: What is the future of open-source AID?

When the open-source APS was first developed, users coined the motto: “We are not waiting.” But now that the “wait” is over and several commercial AIDs have been approved by regulatory bodies, with others still in the pipeline, will people still use open-source systems?

There are no current data on people moving from DIY to commercial systems. However, Dr. de Bock said, “For most who undertook an open-source option, the precision of the settings that they can use and enjoy would mean that most would likely stick to their open source.”

Dr. Isaacs agrees: “I actually don’t think it’s going to go away in the near future, because the FDA has very specific criteria for where these [formally approved] devices can be in terms of their target ranges and requirements versus with open source you can really customize. So I still think there’s going to be a subset of people who want that customization, who want the lower targets.”

Dana Lewis, the originator of the DIY system and a CREATE coauthor, told this news organization: “I don’t believe there has been a fall-off, and in fact, I think open-source AID has continued to have ongoing uptake as awareness increases about options and as more pumps and CGMs become interoperable with various open-source AID choices.”

“I think uptake increasing is also influenced by the fact that in places like Europe, Asia, and Australia there are in-warranty on-the-market pumps that are compatible and interoperable with open-source AID. I think awareness of AID overall increases uptake of commercial and open source alike,” she said.

“Clinicians, as emphasized in recent position statements, must maintain support of the person with diabetes, irrespective of the mode of treatment they are on. ... Health care providers should be encouraged to learn from the experiences of the people who have stuck with open-source AID or switched, so that they can inform themselves of the relative strengths and benefits of each system,” Dr. de Bock advised.

Ms. Lewis noted: “We are seeing increasing awareness and comfort in endocrinologists from the community perspective, and we do hope that this study helps increase conversation and awareness of the safety and efficacy of open-source AID systems as an option for people with diabetes.”

In fact, the team published an article specifically about clinicians’ experience in CREATE. “The learning curve is similar across AID technology,” she observed.  

Findings of a 6-month continuation phase of CREATE, in which all participants used the open-source AID, are scheduled to be presented in September at the European Association for the Study of Diabetes annual meeting.

The study was funded by the Health Research Council of New Zealand, with hardware support from SOOIL Developments, South Korea; Dexcom; and Vodafone New Zealand. Dr. de Bock has reported receiving honoraria and/or research funding from Novo Nordisk, Sanofi, Pfizer, Medtronic, Lilly, Ypsomed, and Dexcom. Dr. Isaacs has reported serving as a consultant for LifeScan, Lilly, and Insulet, and as a speaker for Dexcom, Medtronic, Abbott, and Novo Nordisk. Ms. Lewis has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

NEW ORLEANS – Open-source automated insulin delivery systems appear to be both effective and safe in adults and children, new research finds.

Automated insulin delivery (AID) system, also known as closed-loop systems or an artificial pancreas, link an insulin pump and a continuous glucose monitor (CGM) with an algorithm that automatically adjusts insulin delivery to optimize glycemic control.

Prior to the availability of commercial AID systems, Dana Lewis, a patient with type 1 diabetes, and her partner codeveloped an algorithm that could link older versions of an insulin pump and CGM.

In 2015, they made the code and all related materials open-source, so that anyone who wanted to create their own AID system could do so. Today thousands of people worldwide with type 1 diabetes are using the systems, which are sometimes called “do-it-yourself (DIY)” AID systems although the approach has been community based.  

AID systems are not approved by any regulatory body, and despite several nonrandomized studies demonstrating their effectiveness and safety, there is still concern among some health professionals about their safety. In 2019, the U.S. Food and Drug Administration warned against the use of any nonapproved devices or algorithms. (Now, though, at least one open-source AID system algorithm is under FDA review.)

Aimed at addressing those concerns, CREATE (Community Derived Automated Insulin Delivery) is the first randomized controlled clinical trial to compare an open-source AID system to insulin pump therapy and CGM (without any communication between the two) in patients with type 1 diabetes, most of whom were naive to AID systems.

Doctors uncomfortable with open source; study provides reassurance

The findings were presented at the American Diabetes Association scientific sessions by Martin I. de Bock, PhD, a pediatric endocrinologist and senior lecturer at the University of Otago, Christchurch, New Zealand.

The study compared the most commonly used open-source AID system (using the OpenAPS algorithm from a version of AndroidAPS implemented in a smartphone with the DANA-i insulin pump and Dexcom G6 CGM) to any insulin pump plus CGM as a comparator group.

The open-source AID system led to a significant reduction in hemoglobin A1c with no major safety issues.

“The acceptance [among clinicians] of open-source systems is diverse and complicated, [with varying] personal comfort levels of seeing someone using an AID system that has no regulatory approval,” Dr. de Bock told this news organization.  

“This is one of the reasons that it was so important to conduct the CREATE trial for the many thousands of open-source AID users. Given that the trial demonstrated safety and efficacy using the most robust scientific methodology available – a long-term randomized controlled trial – it may go some way to provide assurance for providers when they are seeing people using an open-source automated system,” he said.

Asked for comment, session moderator Diana Isaacs, PharmD, CDCES, an endocrine clinical pharmacist at the Cleveland Clinic, told this news organization: “There has been concern that these systems aren’t safe, so showing the safety is important. I think people deserve choice. As long as they’re safe, patients should be able to use what they want to use, and we should support them.”

Dr. Isaacs pointed out that an advantage of open-source systems over current commercial AIDs for patients is the ability to customize glucose targets, but in CREATE, those targets were established in the protocol by the investigators.

“I think it’s nice having the data, although in the trial they had specific requirements. They had a target range and active insulin time that they were recommending. So it’s a little different than true DIY where you don’t really have those guidelines you have to follow. It is exciting, it’s very interesting, but I wouldn’t say it’s a true mirror of the real world.”
 

Open-source systems improved time-in-range, no safety issues

For the CREATE study, 100 participants were enrolled, including 50 children aged 7-15 years and 50 adults aged 16-70 years. All participants had been using insulin pumps for at least 6 months. Most of the children and about two-thirds of the adults were also using CGMs, but just 6% of the children and 18% of the adults had prior experience with AID systems.

Baseline A1c in children was 7.5% and in adults was 7.7%.

After a 4-week run-in, all patients were randomized to the open-source AID or insulin pump plus CGM for 6 months.

The final group analyzed consisted of 42 patients in the open-source AID group and 53 patients in the comparator group.

The primary outcome, the adjusted mean difference in percent time-in-range (glucose of 70-180 mg/dL) during the final 2 weeks of the 6-month trial, showed a significant difference of 14% (P < .001) with open-source AID compared with pump plus CGM only.

Time-in-range in the open-source AID group rose from 61.2% to 71.2%, while it actually dropped slightly in the comparator group, from 57.7% to 54.5%.

The proportion of patients achieving time-in-range greater than 70% with open-source AID was 60% versus just 15% with pump plus CGM.

Glycemic improvements with open-source AID were significant for adults and children and were greater for those with higher baseline A1c levels. The effect was immediate and sustained throughout the study period, “which is super-pleasing, because there was a worry that the technical burden of open source might be [leading to] dropout, but we didn’t see that. It was sustained right through to the end of the trial,” Dr. de Bock commented.

Hypoglycemic rates didn’t differ between groups, and there were no episodes of severe hypoglycemia or diabetic ketoacidosis.
 

No more waiting: What is the future of open-source AID?

When the open-source APS was first developed, users coined the motto: “We are not waiting.” But now that the “wait” is over and several commercial AIDs have been approved by regulatory bodies, with others still in the pipeline, will people still use open-source systems?

There are no current data on people moving from DIY to commercial systems. However, Dr. de Bock said, “For most who undertook an open-source option, the precision of the settings that they can use and enjoy would mean that most would likely stick to their open source.”

Dr. Isaacs agrees: “I actually don’t think it’s going to go away in the near future, because the FDA has very specific criteria for where these [formally approved] devices can be in terms of their target ranges and requirements versus with open source you can really customize. So I still think there’s going to be a subset of people who want that customization, who want the lower targets.”

Dana Lewis, the originator of the DIY system and a CREATE coauthor, told this news organization: “I don’t believe there has been a fall-off, and in fact, I think open-source AID has continued to have ongoing uptake as awareness increases about options and as more pumps and CGMs become interoperable with various open-source AID choices.”

“I think uptake increasing is also influenced by the fact that in places like Europe, Asia, and Australia there are in-warranty on-the-market pumps that are compatible and interoperable with open-source AID. I think awareness of AID overall increases uptake of commercial and open source alike,” she said.

“Clinicians, as emphasized in recent position statements, must maintain support of the person with diabetes, irrespective of the mode of treatment they are on. ... Health care providers should be encouraged to learn from the experiences of the people who have stuck with open-source AID or switched, so that they can inform themselves of the relative strengths and benefits of each system,” Dr. de Bock advised.

Ms. Lewis noted: “We are seeing increasing awareness and comfort in endocrinologists from the community perspective, and we do hope that this study helps increase conversation and awareness of the safety and efficacy of open-source AID systems as an option for people with diabetes.”

In fact, the team published an article specifically about clinicians’ experience in CREATE. “The learning curve is similar across AID technology,” she observed.  

Findings of a 6-month continuation phase of CREATE, in which all participants used the open-source AID, are scheduled to be presented in September at the European Association for the Study of Diabetes annual meeting.

The study was funded by the Health Research Council of New Zealand, with hardware support from SOOIL Developments, South Korea; Dexcom; and Vodafone New Zealand. Dr. de Bock has reported receiving honoraria and/or research funding from Novo Nordisk, Sanofi, Pfizer, Medtronic, Lilly, Ypsomed, and Dexcom. Dr. Isaacs has reported serving as a consultant for LifeScan, Lilly, and Insulet, and as a speaker for Dexcom, Medtronic, Abbott, and Novo Nordisk. Ms. Lewis has reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.

“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.

There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
 

Data drawn from 1.8 million patients

In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.

Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).

A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.

As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
 

Relevance seen for community care

Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.

Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.

“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.

Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.

Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
 

Worsening prediabetes should be addressed

“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.

“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.

These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.

“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.

“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.

Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.

“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.

Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.

Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.

“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.

There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
 

Data drawn from 1.8 million patients

In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.

Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).

A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.

As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
 

Relevance seen for community care

Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.

Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.

“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.

Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.

Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
 

Worsening prediabetes should be addressed

“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.

“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.

These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.

“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.

“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.

Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.

“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.

Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.

Prediabetes is not only a predictor of diabetes and the cardiovascular complications that ensue, but it is also a risk factor by itself for myocardial infarction, according to data drawn from almost 1.8 million patients hospitalized for MI.

“Our study serves as a wakeup call for clinicians and patients to shift the focus to preventing prediabetes, and not just diabetes, said Geethika Thota, MD, at the annual meeting of the Endocrine Society.

There are plenty of data suggesting that prediabetes places patients on a trajectory toward cardiovascular disease. In a meta-analysis of 129 studies published 2 years ago, prediabetes was not only associated with a statistically significant 16% increase in coronary heart disease, but also a 13% increased risk of all-cause mortality relative to those with normoglycemia.
 

Data drawn from 1.8 million patients

In this study, 1,794,149 weighted patient hospitalizations for MI were drawn from the National Inpatient Sample database. Excluding patients who eventually developed diabetes, roughly 1% of these patients had a history of prediabetes in the past, according to a search of ICD-10 codes.

Before adjustment for other risk factors, prediabetes was linked to a greater than 40% increased odds of MI (odds ratio, 1.41; P < .01). After adjustment for a large array of known MI risk factors – including prior history of MI, dyslipidemia, hypertension, nicotine dependence, and obesity – prediabetes remained an independent risk factor, corresponding with a 25% increased risk of MI (OR, 1.25; P < .01).

A history of prediabetes was also an independent risk factor for percutaneous intervention and coronary artery bypass grafting, with increased risk of 45% and 95%, respectively.

As a retrospective study looking at prediabetes as a risk factor in those who already had a MI, it is possible that not all patients with prediabetes were properly coded, but Dr. Thota said that was unlikely to have been an issue of sufficient magnitude to have affected the major conclusions.
 

Relevance seen for community care

Although the study was drawn from hospitalized patients, its relevance is for the community setting, where screening and intervention for prediabetes has the potential to alter the risk, according to Dr. Thota.

Most clinicians are likely aware of the value of screening for prediabetes, which was defined in this study as a hemoglobin A1c of 5.7%-6.4%, but Dr. Thota suggested that many might not fully grasp the full scope of goals. Early detection and prevention will prevent diabetes and, by extension, cardiovascular disease, but her data suggest that control of prediabetes with lower cardiovascular risk by a more direct route.

“Despite mounting evidence, many clinicians are unaware that prediabetes is also a major risk factor for atherosclerotic cardiovascular disease,” said Dr. Thota, an internal medicine resident at Saint Peter’s University Hospital, New Brunswick, N.J.

Like diabetes, the prevalence of prediabetes is growing rapidly, according to data from the Centers for Disease Control that Dr. Thota cited. In 2020, the Centers for Disease Control and Prevention estimated that 38% of the adult population have prediabetes. By 2030, one model predicts a further 25% growth.

Screening for hyperglycemia is part of routine patient evaluations at Dr. Thota’s center. In an interview, she said that once a diagnosis of prediabetes is entered in the electronic medical record, the history is carried forward so that changes in status are continually monitored.
 

Worsening prediabetes should be addressed

“Prediabetes is not treated with medication, at least initially,” Dr. Thota explained. Rather, patients are educated about important lifestyle changes, such as diet and physical activity, that can reverse the diagnosis. However, patients who remain on a path of worsening hyperglycemia are candidates for more intensive lifestyle intervention and might be considered selectively for metformin.

“Early recognition of prediabetes through screening is important,” Dr. Thota emphasized. The benefit for preventing patients from progressing to diabetes is well recognized, but these data provide the basis for incentivizing lifestyle changes in patients with prediabetes by telling them that it can reduce their risk for MI.

These data have an important message, but they are not surprising, according to Deepak L. Bhatt, MD, executive director, interventional cardiovascular programs, Brigham and Women’s Hospital Heart & Vascular Center, Boston.

“In fact, in daily practice we see a substantial percentage of patients with MI who have prediabetes that had not been previously recognized or formally diagnosed,” Dr. Bhatt said in an interview.

“Identifying these patients – preferably prior to coming in with cardiovascular complications – is important both to reduce cardiovascular risk but also to try and prevent progression at diabetes,” he added.

Dr. Bhatt went on to say that this large analysis, confirming that prediabetes is independently associated with MI, should prompt clinicians to screen patients rigorously for this condition.

“At a minimum, such patients would be candidates for intensive lifestyle modification aimed at weight loss and treatment of frequent coexistent conditions, such as hypertension and dyslipidemia,” Dr. Bhatt said.

Dr. Thota reports no potential conflicts of interest. Dr. Bhatt has financial relationships with more than 30 pharmaceutical companies, many of which make products relevant to the management of diabetes and cardiovascular disease.

Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.  

Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.

In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.

There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).

But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.

In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.

The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.

Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”

And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
 

Drug reduced all levels of hypoglycemia, across surgery types

The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.

They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.

Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).

Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003). 

“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.

More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.

Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.

The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.

There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.

Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.

The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.

A version of this article first appeared on Medscape.com.

Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.  

Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.

In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.

There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).

But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.

In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.

The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.

Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”

And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
 

Drug reduced all levels of hypoglycemia, across surgery types

The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.

They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.

Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).

Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003). 

“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.

More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.

Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.

The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.

There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.

Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.

The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.

A version of this article first appeared on Medscape.com.

Avexitide (Eiger Biopharmaceuticals), a first-in-class glucagonlike peptide (GLP)–1 receptor blocker, significantly reduced hypoglycemia in patients with refractory postbariatric hypoglycemia, new research finds.  

Postbariatric hypoglycemia is a complication of bariatric surgery that is estimated to occur in about 29%-34% of people who undergo Roux-en-Y gastric bypass and in 11%-23% of those who undergo vertical sleeve gastrectomy. It typically manifests about 1-3 hours after meals and can lead to severe neuroglycopenic symptoms including blurred vision, confusion, drowsiness, and incoordination.

In addition, more than one-third (37%) with the condition have hypoglycemic unawareness. This can lead to seizures in about 59%, loss of consciousness and hospitalization in 50%, motor vehicle accidents, and even death. More than 90% with the condition consider themselves disabled, and 41% report being unable to work.

There are no currently approved medical treatments for postbariatric hypoglycemia. The standard of care is medical nutrition therapy involving a low-carbohydrate diet with carb restriction and small, frequent mixed meals. If this doesn’t work, off-label stepped pharmacotherapy has been tried, including acarbose (Precose), octreotide (Sandostatin), and diazoxide (Proglycem).

But “these are limited by efficacy and tolerability,” said Marilyn Tan, MD, who presented the findings from the phase 2 trial of avexitide at the annual meeting of the Endocrine Society.

In very severe cases, gastrostomy tubes or bypass reversal are options but those lead to weight regain and incomplete efficacy. “Safe, effective, and targeted therapies are needed urgently for postbariatric hypoglycemia,” said Dr. Tan, of the department of endocrinology at Stanford (Calif.) University.

The pathophysiology isn’t fully understood, but there appears to be an exaggerated GLP-1 response that leads to abnormal insulin secretion and symptomatic hyperinsulinemic hypoglycemia. Avexitide (formerly exendin 9-39), blocks the GLP-1 receptor and mitigates the excessive GLP-1 response, she explained.

Asked to comment, session moderator Michelle Van Name, MD, told this news organization, “This is a problem and it’s important for us to understand more about it and to identify different treatment options so these patients can continue to live their full, healthy lives post bariatric surgery.”

And, avexitide also holds potential for treating congenital hyperinsulinism, “which is a very challenging disease to treat in babies,” noted Dr. Van Name, a pediatric endocrinologist at Yale University, New Haven, Conn.
 

Drug reduced all levels of hypoglycemia, across surgery types

The study enrolled 14 women and 2 men with severe refractory postbariatric surgery hypoglycemia despite medical nutrition therapy. A majority (9) had undergone Roux-en-Y gastric bypass, 4 had vertical sleeve gastrectomy, 2 gastrectomy, and 1 had Nissen fundoplication. Seven patients (43.7%) had experienced loss of consciousness from hyperinsulinemic hypoglycemia. None had diabetes.

They were randomly assigned to either subcutaneous 45 mg of avexitide twice daily or 90 mg once daily for 14 days each, with a 2-day washout period followed by a switch to the other dose.

Both doses resulted in significant reductions in hypoglycemia as measured by self–blood glucose monitoring. The once-daily dose reduced level 1 hypoglycemia (glucose < 70 mg/dL) by 67.5% and it reduced level 2 (< 54 mg/dL) by 53.3% (P = .0043).

Even greater reductions were seen in severe hypoglycemia (that is, altered mental status/requiring assistance) – by 67.5% for the twice-daily dose (P = .0003) and by 66.1% with the once-daily dose (P = .0003). 

“This is consistent with what we’ve seen in prior avexitide trials,” Dr. Tan noted.

More hypoglycemic events were captured using blinded continuous glucose monitoring (CGM), since it picked up episodes of which the patient was unaware. There were significant reductions in percentage time spent in level 1 and level 2 hypoglycemia, as well as in absolute number of hypoglycemic events over 14 days.

Here, the effect was greater with the once-daily 90 mg dose, with reductions of up to 65% in time spent and number of events, but results for the twice-daily dose were also significant, Dr. Tan said.

The drug was effective across all surgical subtypes. Patients who underwent vertical sleeve gastrectomy/gastrectomy had greater rates of hypoglycemia at baseline and “robust responses to avexitide subcutaneous injections. This supports the critical role of GLP-1,” Dr. Tan said.

There were no severe adverse events. The most commonly reported adverse events were diarrhea, headache, bloating, and injection-site reaction/bruising. All were mild and self-limited and resolved without treatment. No participants withdrew from the study.

Eiger Biopharmaceuticals is currently working with the U.S. Food and Drug Administration and the European Medicines Agency to design a phase 3 trial.

The study is an investor-initiated trial with funding from Eiger Biopharmaceuticals. Dr. Tan receives research support from Eiger Biopharmaceuticals as a site investigator. Dr. Van Name is an investigator for a trial sponsored by Provention Bio.

A version of this article first appeared on Medscape.com.

NEW ORLEANS – The case continues to grow for prioritizing a sodium-glucose transporter 2 (SGLT2) inhibitor in patients with type 2 diabetes, as real-world evidence of benefit and safety accumulates on top of the data from randomized trials that first established this class as a management pillar.

Another important effect of these agents gaining increasing currency, on top of their well-established benefits in patients with type 2 diabetes for preventing acute heart failure exacerbations and slowing progression of diabetic kidney disease, is that they cut the incidence of new-onset atrial fibrillation (AFib). That effect was confirmed in an analysis of data from about 300,000 U.S. patients included in recent Medicare records, Elisabetta Patorno, MD, reported at the annual scientific sessions of the American Diabetes Association.

Mitchel L. Zoler/MDedge News

But despite documentation like this, real-world evidence also continues to show limited uptake of SGLT2 inhibitors in U.S. patients with type 2 diabetes. Records from more than 1.3 million patients with type 2 diabetes managed in the Veterans Affairs Healthcare System during 2019 or 2022 documented that just 10% of these patients received an agent from this class, even though all were eligible to receive it, according to findings in a separate report at the meeting.

The AFib analysis analyzed two sets of propensity score–matched Medicare patients during 2013-2018 aged 65 years or older with type 2 diabetes and no history of AFib. One analysis focused on 80,475 matched patients who started on treatment with either an SGLT2 inhibitor or a glucagonlike peptide–1 (GLP-1) receptor agonist, and a second on 74,868 matched patients who began either an SGTL2 inhibitor or a dipeptidyl peptidase–4 (DPP4) inhibitor. In both analyses, matching involved more than 130 variables. In both pair sets, patients at baseline averaged about 72 years old, nearly two-thirds were women, about 8%-9% had heart failure, 77%-80% were on metformin, and 20%-25% were using insulin.

The study’s primary endpoint was the incidence of hospitalization for AFib, which occurred a significant 18% less often in the patients who started on an SGLT2, compared with those who started a DPP4 inhibitor during median follow-up of 6.7 months, and a significant 10% less often, compared with those starting a GLP-1 receptor agonist during a median follow-up of 6.0 months, Elisabetta Patorno, MD, DrPH, reported at the meeting. This worked out to 3.7 fewer hospitalizations for AFib per 1,000 patient-years of follow-up among the people who received an SGLT2 inhibitor, compared with a DPP4 inhibitor, and a decrease of 1.8 hospitalizations/1,000 patient-years when compared against patients in a GLP-1 receptor agonist.

Two secondary outcomes showed significantly fewer episodes of newly diagnosed AFib, and significantly fewer patients initiating AFib treatment among those who received an SGLT2 inhibitor relative to the comparator groups. In addition, these associations were consistent across subgroup analyses that divided patients by their age, sex, history of heart failure, and history of atherosclerotic cardiovascular disease.
 

AFib effects add to benefits

The findings “suggest that initiation of an SGLT2 inhibitor may be beneficial in older adults with type 2 diabetes who are at risk for AFib,” said Dr. Patorno, a researcher in the division of pharmacoepidemiology and pharmacoeconomics at Brigham and Women’s Hospital, Boston. “These new findings on AFib may be helpful when weighing the potential risks and benefits of various glucose-lowering drugs in older patients with type 2 diabetes.”

This new evidence follows several prior reports from other research groups of data supporting an AFib benefit from SGLT2 inhibitors. The earlier reports include a post hoc analysis of more than 17,000 patients enrolled in the DECLARE-TIMI 58 cardiovascular outcome trial of dapagliflozin (Farxiga), which showed a 19% relative decrease in the rate of incident AFib or atrial flutter events during a median 4.2 year follow-up.

Other prior reports that found a reduced incidence of AFib events linked with SGLT2 inhibitor treatment include a 2020 meta-analysis based on data from more than 38,000 patients with type 2 diabetes enrolled in any of 16 randomized, controlled trials, which found a 24% relative risk reduction. And an as-yet unpublished report from researchers at the University of Rochester (N.Y.) and their associates presented in November 2021 at the annual scientific sessions of the American Heart Association that documented a significant 24% relative risk reduction in incident AFib events linked to SGLT2 inhibitor treatment in a prospective study of 13,890 patients at several hospitals in Israel or the United States.
 

Evidence ‘convincing’ in totality

The accumulated evidence for a reduced incidence of AFib when patients were on treatment with an SGLT2 inhibitor are “convincing because it’s real world data that complements what we know from clinical trials,” commented Silvio E. Inzucchi, MD, professor of medicine at Yale University and director of the Yale Medicine Diabetes Center in New Haven, Conn., who was not involved with the study.

“If these drugs reduce heart failure, they may also reduce AFib. Heart failure patients easily slip into AFib,” he noted in an interview, but added that “I don’t think this explains all cases” of the reduced AFib incidence.

Dr. Patorno offered a few other possible mechanisms for the observed effect. The class may work by reducing blood pressure, weight, inflammation, and oxidative stress, mitochondrial dysfunction, atrial remodeling, and AFib susceptibility. These agents are also known to cause natriuresis and diuresis, which could reduce atrial dilation, a mechanism that again relates the AFib effect to the better documented reduction in acute heart failure exacerbations.

“With the diuretic effect, we’d expect less overload at the atrium and less dilation, and the same mechanism would reduce heart failure,” she said in an interview.

“If you reduce preload and afterload you may reduce stress on the ventricle and reduce atrial stretch, and that might have a significant effect on atrial arrhythmia,” agreed Dr. Inzucchi.
 

EMPRISE produces more real-world evidence

A pair of additional reports at the meeting that Dr. Patorno coauthored provided real-world evidence supporting the dramatic heart failure benefit of the SGLT2 inhibitor empagliflozin (Jardiance) in U.S. patients with type 2 diabetes, compared with alternative drug classes. The EMPRISE study used data from the Medicare, Optum Clinformatics, and MarketScan databases during the period from August 2014, when empagliflozin became available, to September 2019. The study used more than 140 variables to match patients treated with either empagliflozin or a comparator agent.

The results showed that, in an analysis of more than 130,000 matched pairs, treatment with empagliflozin was linked to a significant 30% reduction in the incidence of hospitalization for heart failure, compared with patients treated with a GLP-1 receptor agonist. Analysis of more than 116,000 matched pairs of patients showed that treatment with empagliflozin linked with a significant 29%-50% reduced rate of hospitalization for heart failure, compared with matched patients treated with a DPP4 inhibitor.

These findings “add to the pool of information” on the efficacy of agents from the SGLT2 inhibitor class, Dr. Patorno said in an interview. “We wanted to look at the full range of patients with type 2 diabetes who we see in practice,” rather than the more selected group of patients enrolled in randomized trials.

SGLT2 inhibitor use lags even when cost isn’t an issue

Despite all the accumulated evidence for efficacy and safety of the class, usage remains low, Julio A. Lamprea-Montealegre, MD, PhD, a cardiologist at the University of California, San Francisco, reported in a separate talk at the meeting. The study he presented examined records for 1,319,500 adults with type 2 diabetes managed in the VA Healthcare System during 2019 and 2020. Despite being in a system that “removes the influence of cost,” just 10% of these patients received treatment with an SGLT2 inhibitor, and 7% received treatment with a GLP-1 receptor agonist.

Notably, his analysis further showed that treatment with an SGLT2 inhibitor was especially depressed among patients with an estimated glomerular filtration rate (eGFR) of 30-44 mL/min per 1.73m². In this subgroup, usage of a drug from this class was at two-thirds of the rate, compared with patients with an eGFR of at least 90 mL/min per 1.73m2. His findings also documented lower rates of use in patients with higher risk for atherosclerotic cardiovascular disease. Dr. Lamprea-Montealegre called this a “treatment paradox,” in which patients likely to get the most benefit from an SGLT2 inhibitor were also less likely to actually receive it.

While his findings from the VA System suggest that drug cost is not the only factor driving underuse, the high price set for the SGLT2 inhibitor drugs that all currently remain on U.S. patents is widely considered an important factor.

“There is a big problem of affordability,” said Dr. Patorno.

“SGLT2 inhibitors should probably be first-line therapy” for many patients with type 2 diabetes, said Dr. Inzucchi. “The only thing holding it back is cost,” a situation that he hopes will dramatically shift once agents from this class become generic and have substantially lower price tags.

The EMPRISE study received funding from Boehringer Ingelheim, the company that markets empagliflozin (Jardiance). Dr. Patorno had no relevant commercial disclosures. Dr. Inzucchi is an adviser to Abbott Diagnostics, Esperion Therapeutics, and vTv Therapeutics, a consultant to Merck and Pfizer, and has other relationships with AstraZeneca, Boehringer Ingelheim, Lexicon, and Novo Nordisk. Dr. Lamprea-Montealegre had received research funding from Bayer.

NEW ORLEANS – The case continues to grow for prioritizing a sodium-glucose transporter 2 (SGLT2) inhibitor in patients with type 2 diabetes, as real-world evidence of benefit and safety accumulates on top of the data from randomized trials that first established this class as a management pillar.

Another important effect of these agents gaining increasing currency, on top of their well-established benefits in patients with type 2 diabetes for preventing acute heart failure exacerbations and slowing progression of diabetic kidney disease, is that they cut the incidence of new-onset atrial fibrillation (AFib). That effect was confirmed in an analysis of data from about 300,000 U.S. patients included in recent Medicare records, Elisabetta Patorno, MD, reported at the annual scientific sessions of the American Diabetes Association.

Mitchel L. Zoler/MDedge News

But despite documentation like this, real-world evidence also continues to show limited uptake of SGLT2 inhibitors in U.S. patients with type 2 diabetes. Records from more than 1.3 million patients with type 2 diabetes managed in the Veterans Affairs Healthcare System during 2019 or 2022 documented that just 10% of these patients received an agent from this class, even though all were eligible to receive it, according to findings in a separate report at the meeting.

The AFib analysis analyzed two sets of propensity score–matched Medicare patients during 2013-2018 aged 65 years or older with type 2 diabetes and no history of AFib. One analysis focused on 80,475 matched patients who started on treatment with either an SGLT2 inhibitor or a glucagonlike peptide–1 (GLP-1) receptor agonist, and a second on 74,868 matched patients who began either an SGTL2 inhibitor or a dipeptidyl peptidase–4 (DPP4) inhibitor. In both analyses, matching involved more than 130 variables. In both pair sets, patients at baseline averaged about 72 years old, nearly two-thirds were women, about 8%-9% had heart failure, 77%-80% were on metformin, and 20%-25% were using insulin.

The study’s primary endpoint was the incidence of hospitalization for AFib, which occurred a significant 18% less often in the patients who started on an SGLT2, compared with those who started a DPP4 inhibitor during median follow-up of 6.7 months, and a significant 10% less often, compared with those starting a GLP-1 receptor agonist during a median follow-up of 6.0 months, Elisabetta Patorno, MD, DrPH, reported at the meeting. This worked out to 3.7 fewer hospitalizations for AFib per 1,000 patient-years of follow-up among the people who received an SGLT2 inhibitor, compared with a DPP4 inhibitor, and a decrease of 1.8 hospitalizations/1,000 patient-years when compared against patients in a GLP-1 receptor agonist.

Two secondary outcomes showed significantly fewer episodes of newly diagnosed AFib, and significantly fewer patients initiating AFib treatment among those who received an SGLT2 inhibitor relative to the comparator groups. In addition, these associations were consistent across subgroup analyses that divided patients by their age, sex, history of heart failure, and history of atherosclerotic cardiovascular disease.
 

AFib effects add to benefits

The findings “suggest that initiation of an SGLT2 inhibitor may be beneficial in older adults with type 2 diabetes who are at risk for AFib,” said Dr. Patorno, a researcher in the division of pharmacoepidemiology and pharmacoeconomics at Brigham and Women’s Hospital, Boston. “These new findings on AFib may be helpful when weighing the potential risks and benefits of various glucose-lowering drugs in older patients with type 2 diabetes.”

This new evidence follows several prior reports from other research groups of data supporting an AFib benefit from SGLT2 inhibitors. The earlier reports include a post hoc analysis of more than 17,000 patients enrolled in the DECLARE-TIMI 58 cardiovascular outcome trial of dapagliflozin (Farxiga), which showed a 19% relative decrease in the rate of incident AFib or atrial flutter events during a median 4.2 year follow-up.

Other prior reports that found a reduced incidence of AFib events linked with SGLT2 inhibitor treatment include a 2020 meta-analysis based on data from more than 38,000 patients with type 2 diabetes enrolled in any of 16 randomized, controlled trials, which found a 24% relative risk reduction. And an as-yet unpublished report from researchers at the University of Rochester (N.Y.) and their associates presented in November 2021 at the annual scientific sessions of the American Heart Association that documented a significant 24% relative risk reduction in incident AFib events linked to SGLT2 inhibitor treatment in a prospective study of 13,890 patients at several hospitals in Israel or the United States.
 

Evidence ‘convincing’ in totality

The accumulated evidence for a reduced incidence of AFib when patients were on treatment with an SGLT2 inhibitor are “convincing because it’s real world data that complements what we know from clinical trials,” commented Silvio E. Inzucchi, MD, professor of medicine at Yale University and director of the Yale Medicine Diabetes Center in New Haven, Conn., who was not involved with the study.

“If these drugs reduce heart failure, they may also reduce AFib. Heart failure patients easily slip into AFib,” he noted in an interview, but added that “I don’t think this explains all cases” of the reduced AFib incidence.

Dr. Patorno offered a few other possible mechanisms for the observed effect. The class may work by reducing blood pressure, weight, inflammation, and oxidative stress, mitochondrial dysfunction, atrial remodeling, and AFib susceptibility. These agents are also known to cause natriuresis and diuresis, which could reduce atrial dilation, a mechanism that again relates the AFib effect to the better documented reduction in acute heart failure exacerbations.

“With the diuretic effect, we’d expect less overload at the atrium and less dilation, and the same mechanism would reduce heart failure,” she said in an interview.

“If you reduce preload and afterload you may reduce stress on the ventricle and reduce atrial stretch, and that might have a significant effect on atrial arrhythmia,” agreed Dr. Inzucchi.
 

EMPRISE produces more real-world evidence

A pair of additional reports at the meeting that Dr. Patorno coauthored provided real-world evidence supporting the dramatic heart failure benefit of the SGLT2 inhibitor empagliflozin (Jardiance) in U.S. patients with type 2 diabetes, compared with alternative drug classes. The EMPRISE study used data from the Medicare, Optum Clinformatics, and MarketScan databases during the period from August 2014, when empagliflozin became available, to September 2019. The study used more than 140 variables to match patients treated with either empagliflozin or a comparator agent.

The results showed that, in an analysis of more than 130,000 matched pairs, treatment with empagliflozin was linked to a significant 30% reduction in the incidence of hospitalization for heart failure, compared with patients treated with a GLP-1 receptor agonist. Analysis of more than 116,000 matched pairs of patients showed that treatment with empagliflozin linked with a significant 29%-50% reduced rate of hospitalization for heart failure, compared with matched patients treated with a DPP4 inhibitor.

These findings “add to the pool of information” on the efficacy of agents from the SGLT2 inhibitor class, Dr. Patorno said in an interview. “We wanted to look at the full range of patients with type 2 diabetes who we see in practice,” rather than the more selected group of patients enrolled in randomized trials.

SGLT2 inhibitor use lags even when cost isn’t an issue

Despite all the accumulated evidence for efficacy and safety of the class, usage remains low, Julio A. Lamprea-Montealegre, MD, PhD, a cardiologist at the University of California, San Francisco, reported in a separate talk at the meeting. The study he presented examined records for 1,319,500 adults with type 2 diabetes managed in the VA Healthcare System during 2019 and 2020. Despite being in a system that “removes the influence of cost,” just 10% of these patients received treatment with an SGLT2 inhibitor, and 7% received treatment with a GLP-1 receptor agonist.

Notably, his analysis further showed that treatment with an SGLT2 inhibitor was especially depressed among patients with an estimated glomerular filtration rate (eGFR) of 30-44 mL/min per 1.73m². In this subgroup, usage of a drug from this class was at two-thirds of the rate, compared with patients with an eGFR of at least 90 mL/min per 1.73m2. His findings also documented lower rates of use in patients with higher risk for atherosclerotic cardiovascular disease. Dr. Lamprea-Montealegre called this a “treatment paradox,” in which patients likely to get the most benefit from an SGLT2 inhibitor were also less likely to actually receive it.

While his findings from the VA System suggest that drug cost is not the only factor driving underuse, the high price set for the SGLT2 inhibitor drugs that all currently remain on U.S. patents is widely considered an important factor.

“There is a big problem of affordability,” said Dr. Patorno.

“SGLT2 inhibitors should probably be first-line therapy” for many patients with type 2 diabetes, said Dr. Inzucchi. “The only thing holding it back is cost,” a situation that he hopes will dramatically shift once agents from this class become generic and have substantially lower price tags.

The EMPRISE study received funding from Boehringer Ingelheim, the company that markets empagliflozin (Jardiance). Dr. Patorno had no relevant commercial disclosures. Dr. Inzucchi is an adviser to Abbott Diagnostics, Esperion Therapeutics, and vTv Therapeutics, a consultant to Merck and Pfizer, and has other relationships with AstraZeneca, Boehringer Ingelheim, Lexicon, and Novo Nordisk. Dr. Lamprea-Montealegre had received research funding from Bayer.

NEW ORLEANS – The case continues to grow for prioritizing a sodium-glucose transporter 2 (SGLT2) inhibitor in patients with type 2 diabetes, as real-world evidence of benefit and safety accumulates on top of the data from randomized trials that first established this class as a management pillar.

Another important effect of these agents gaining increasing currency, on top of their well-established benefits in patients with type 2 diabetes for preventing acute heart failure exacerbations and slowing progression of diabetic kidney disease, is that they cut the incidence of new-onset atrial fibrillation (AFib). That effect was confirmed in an analysis of data from about 300,000 U.S. patients included in recent Medicare records, Elisabetta Patorno, MD, reported at the annual scientific sessions of the American Diabetes Association.

Mitchel L. Zoler/MDedge News

But despite documentation like this, real-world evidence also continues to show limited uptake of SGLT2 inhibitors in U.S. patients with type 2 diabetes. Records from more than 1.3 million patients with type 2 diabetes managed in the Veterans Affairs Healthcare System during 2019 or 2022 documented that just 10% of these patients received an agent from this class, even though all were eligible to receive it, according to findings in a separate report at the meeting.

The AFib analysis analyzed two sets of propensity score–matched Medicare patients during 2013-2018 aged 65 years or older with type 2 diabetes and no history of AFib. One analysis focused on 80,475 matched patients who started on treatment with either an SGLT2 inhibitor or a glucagonlike peptide–1 (GLP-1) receptor agonist, and a second on 74,868 matched patients who began either an SGTL2 inhibitor or a dipeptidyl peptidase–4 (DPP4) inhibitor. In both analyses, matching involved more than 130 variables. In both pair sets, patients at baseline averaged about 72 years old, nearly two-thirds were women, about 8%-9% had heart failure, 77%-80% were on metformin, and 20%-25% were using insulin.

The study’s primary endpoint was the incidence of hospitalization for AFib, which occurred a significant 18% less often in the patients who started on an SGLT2, compared with those who started a DPP4 inhibitor during median follow-up of 6.7 months, and a significant 10% less often, compared with those starting a GLP-1 receptor agonist during a median follow-up of 6.0 months, Elisabetta Patorno, MD, DrPH, reported at the meeting. This worked out to 3.7 fewer hospitalizations for AFib per 1,000 patient-years of follow-up among the people who received an SGLT2 inhibitor, compared with a DPP4 inhibitor, and a decrease of 1.8 hospitalizations/1,000 patient-years when compared against patients in a GLP-1 receptor agonist.

Two secondary outcomes showed significantly fewer episodes of newly diagnosed AFib, and significantly fewer patients initiating AFib treatment among those who received an SGLT2 inhibitor relative to the comparator groups. In addition, these associations were consistent across subgroup analyses that divided patients by their age, sex, history of heart failure, and history of atherosclerotic cardiovascular disease.
 

AFib effects add to benefits

The findings “suggest that initiation of an SGLT2 inhibitor may be beneficial in older adults with type 2 diabetes who are at risk for AFib,” said Dr. Patorno, a researcher in the division of pharmacoepidemiology and pharmacoeconomics at Brigham and Women’s Hospital, Boston. “These new findings on AFib may be helpful when weighing the potential risks and benefits of various glucose-lowering drugs in older patients with type 2 diabetes.”

This new evidence follows several prior reports from other research groups of data supporting an AFib benefit from SGLT2 inhibitors. The earlier reports include a post hoc analysis of more than 17,000 patients enrolled in the DECLARE-TIMI 58 cardiovascular outcome trial of dapagliflozin (Farxiga), which showed a 19% relative decrease in the rate of incident AFib or atrial flutter events during a median 4.2 year follow-up.

Other prior reports that found a reduced incidence of AFib events linked with SGLT2 inhibitor treatment include a 2020 meta-analysis based on data from more than 38,000 patients with type 2 diabetes enrolled in any of 16 randomized, controlled trials, which found a 24% relative risk reduction. And an as-yet unpublished report from researchers at the University of Rochester (N.Y.) and their associates presented in November 2021 at the annual scientific sessions of the American Heart Association that documented a significant 24% relative risk reduction in incident AFib events linked to SGLT2 inhibitor treatment in a prospective study of 13,890 patients at several hospitals in Israel or the United States.
 

Evidence ‘convincing’ in totality

The accumulated evidence for a reduced incidence of AFib when patients were on treatment with an SGLT2 inhibitor are “convincing because it’s real world data that complements what we know from clinical trials,” commented Silvio E. Inzucchi, MD, professor of medicine at Yale University and director of the Yale Medicine Diabetes Center in New Haven, Conn., who was not involved with the study.

“If these drugs reduce heart failure, they may also reduce AFib. Heart failure patients easily slip into AFib,” he noted in an interview, but added that “I don’t think this explains all cases” of the reduced AFib incidence.

Dr. Patorno offered a few other possible mechanisms for the observed effect. The class may work by reducing blood pressure, weight, inflammation, and oxidative stress, mitochondrial dysfunction, atrial remodeling, and AFib susceptibility. These agents are also known to cause natriuresis and diuresis, which could reduce atrial dilation, a mechanism that again relates the AFib effect to the better documented reduction in acute heart failure exacerbations.

“With the diuretic effect, we’d expect less overload at the atrium and less dilation, and the same mechanism would reduce heart failure,” she said in an interview.

“If you reduce preload and afterload you may reduce stress on the ventricle and reduce atrial stretch, and that might have a significant effect on atrial arrhythmia,” agreed Dr. Inzucchi.
 

EMPRISE produces more real-world evidence

A pair of additional reports at the meeting that Dr. Patorno coauthored provided real-world evidence supporting the dramatic heart failure benefit of the SGLT2 inhibitor empagliflozin (Jardiance) in U.S. patients with type 2 diabetes, compared with alternative drug classes. The EMPRISE study used data from the Medicare, Optum Clinformatics, and MarketScan databases during the period from August 2014, when empagliflozin became available, to September 2019. The study used more than 140 variables to match patients treated with either empagliflozin or a comparator agent.

The results showed that, in an analysis of more than 130,000 matched pairs, treatment with empagliflozin was linked to a significant 30% reduction in the incidence of hospitalization for heart failure, compared with patients treated with a GLP-1 receptor agonist. Analysis of more than 116,000 matched pairs of patients showed that treatment with empagliflozin linked with a significant 29%-50% reduced rate of hospitalization for heart failure, compared with matched patients treated with a DPP4 inhibitor.

These findings “add to the pool of information” on the efficacy of agents from the SGLT2 inhibitor class, Dr. Patorno said in an interview. “We wanted to look at the full range of patients with type 2 diabetes who we see in practice,” rather than the more selected group of patients enrolled in randomized trials.

SGLT2 inhibitor use lags even when cost isn’t an issue

Despite all the accumulated evidence for efficacy and safety of the class, usage remains low, Julio A. Lamprea-Montealegre, MD, PhD, a cardiologist at the University of California, San Francisco, reported in a separate talk at the meeting. The study he presented examined records for 1,319,500 adults with type 2 diabetes managed in the VA Healthcare System during 2019 and 2020. Despite being in a system that “removes the influence of cost,” just 10% of these patients received treatment with an SGLT2 inhibitor, and 7% received treatment with a GLP-1 receptor agonist.

Notably, his analysis further showed that treatment with an SGLT2 inhibitor was especially depressed among patients with an estimated glomerular filtration rate (eGFR) of 30-44 mL/min per 1.73m². In this subgroup, usage of a drug from this class was at two-thirds of the rate, compared with patients with an eGFR of at least 90 mL/min per 1.73m2. His findings also documented lower rates of use in patients with higher risk for atherosclerotic cardiovascular disease. Dr. Lamprea-Montealegre called this a “treatment paradox,” in which patients likely to get the most benefit from an SGLT2 inhibitor were also less likely to actually receive it.

While his findings from the VA System suggest that drug cost is not the only factor driving underuse, the high price set for the SGLT2 inhibitor drugs that all currently remain on U.S. patents is widely considered an important factor.

“There is a big problem of affordability,” said Dr. Patorno.

“SGLT2 inhibitors should probably be first-line therapy” for many patients with type 2 diabetes, said Dr. Inzucchi. “The only thing holding it back is cost,” a situation that he hopes will dramatically shift once agents from this class become generic and have substantially lower price tags.

The EMPRISE study received funding from Boehringer Ingelheim, the company that markets empagliflozin (Jardiance). Dr. Patorno had no relevant commercial disclosures. Dr. Inzucchi is an adviser to Abbott Diagnostics, Esperion Therapeutics, and vTv Therapeutics, a consultant to Merck and Pfizer, and has other relationships with AstraZeneca, Boehringer Ingelheim, Lexicon, and Novo Nordisk. Dr. Lamprea-Montealegre had received research funding from Bayer.

Goal-directed glycemic management – which may include new technologies for glucose monitoring – for non–critically ill hospitalized patients who have diabetes or newly recognized hyperglycemia can improve outcomes, according to a new practice guideline from the Endocrine Society.  

Even though roughly 35% of hospitalized patients have diabetes or newly discovered hyperglycemia, there is “wide variability in glycemic management in clinical practice,” writing panel chair Mary Korytkowski, MD, from the University of Pittsburgh, said at the annual meeting of the Endocrine Society. “These patients get admitted to every patient service in the hospital, meaning that every clinical service will encounter this group of patients, and their glycemic management can have a major effect on their outcomes. Both short term and long term.”

This guideline provides strategies “to achieve previously recommended glycemic goals while also reducing the risk for hypoglycemia, and this includes inpatient use of insulin pump therapy or continuous glucose monitoring [CGM] devices, among others,” she said.

It also includes “recommendations for preoperative glycemic goals as well as when the use of correctional insulin – well known as sliding scale insulin – may be appropriate” and when it is not.

The document, which replaces a 2012 guideline, was published online in the Journal of Clinical Endocrinology & Metabolism.

A multidisciplinary panel developed the document over the last 3 years to answer 10 clinical practice questions related to management of non–critically ill hospitalized patients with diabetes or newly discovered hyperglycemia.
 

Use of CGM devices in hospital

The first recommendation is: “In adults with insulin-treated diabetes hospitalized for noncritical illness who are at high risk of hypoglycemia, we suggest the use of real-time [CGM] with confirmatory bedside point-of-care blood glucose monitoring for adjustments in insulin dosing rather than point-of-care blood glucose rather than testing alone in hospital settings where resources and training are available.” (Conditional recommendation. Low certainty of evidence).

“We were actually very careful in terms of looking at the data” for use of CGMs, Dr. Korytkowski said in an interview.

Although CGMs are approved by the Food and Drug Administration in the outpatient setting, and that’s becoming the standard of care there, they are not yet approved for in-hospital use.

However, the FDA granted an emergency allowance for use of CGMs in hospitals during the COVID-19 pandemic.

That was “when everyone was scrambling for what to do,” Dr. Korytkowski noted. “There was a shortage of personal protective equipment and a real interest in trying to limit the amount of exposure of healthcare personnel in some of these really critically ill patients for whom intravenous insulin therapy was used to control their glucose level.”

On March 1, the FDA granted Breakthrough Devices Designation for Dexcom CGM use in the hospital setting.

The new guideline suggests CGM be used to detect trends in glycemic management, with insulin dosing decisions made with point-of-care glucose measure (the standard of care).

To implement CGM for glycemic management in hospitals, Dr. Korytkowski said, would require “extensive staff and nursing education to have people with expertise available to provide support to nursing personnel who are both placing these devices, changing these devices, looking at trends, and then knowing when to remove them for certain procedures such as MRI or radiologic procedures.”

“We know that not all hospitals may be readily available to use these devices,” she said. “It is an area of active research. But the use of these devices during the pandemic, in both critical care and non–critical care setting has really provided us with a lot of information that was used to formulate this suggestion in the guideline.”

The document addresses the following areas: CGM, continuous subcutaneous insulin infusion pump therapy, inpatient diabetes education, prespecified preoperative glycemic targets, use of neutral protamine Hagedorn insulin for glucocorticoid or enteral nutrition-associated hyperglycemia, noninsulin therapies, preoperative carbohydrate-containing oral fluids, carbohydrate counting for prandial (mealtime) insulin dosing, and correctional and scheduled (basal or basal bolus) insulin therapies.

Nine key recommendations

Dr. Korytkowski identified nine key recommendations:

• CGM systems can help guide glycemic management with reduced risk for hypoglycemia.
• Patients experiencing glucocorticoid- or enteral nutrition–associated hyperglycemia require scheduled insulin therapy to address anticipated glucose excursions.
• Selected patients using insulin pump therapy prior to a hospital admission can continue to use these devices in the hospital if they have the mental and physical capacity to do so with knowledgeable hospital personnel.
• Diabetes self-management education provided to hospitalized patients can promote improved glycemic control following discharge with reductions in the risk for hospital readmission. “We know that is recommended for patients in the outpatient setting but often they do not get this,” she said. “We were able to observe that this can also impact long-term outcomes “
• Patients with diabetes scheduled for elective surgery may have improved postoperative outcomes when preoperative hemoglobin A1c is 8% or less and preoperative blood glucose is less than 180 mg/dL. “This recommendation answers the question: ‘Where should glycemic goals be for people who are undergoing surgery?’ ”
• Providing preoperative carbohydrate-containing beverages to patients with known diabetes is not recommended.
• Patients with newly recognized hyperglycemia or well-managed diabetes on noninsulin therapy may be treated with correctional insulin alone as initial therapy at hospital admission.
• Some noninsulin diabetes therapies can be used in combination with correction insulin for patients with type 2 diabetes who have mild hyperglycemia.
• Correctional insulin – “otherwise known as sliding-scale insulin” –  can be used as initial therapy for patients with newly recognized hyperglycemia or type 2 diabetes treated with noninsulin therapy prior to hospital admission.
• Scheduled insulin therapy is preferred for patients experiencing persistent blood glucose values greater than 180 mg/dL and is recommended for patients using insulin therapy prior to admission. 

The guideline writers’ hopes

“We hope that this guideline will resolve debates” about appropriate preoperative glycemic management and when sliding-scale insulin can be used and should not be used, said Dr. Korytkowski.

The authors also hope that “it will stimulate research funding for this very important aspect of diabetes care, and that hospitals will recognize the importance of having access to knowledgeable diabetes care and education specialists who can provide staff education regarding inpatient glycemic management, provide oversight for patients using insulin pump therapy or CGM devices, and empower hospital nurses to provide diabetes [self-management] education prior to patient discharge.”

Claire Pegg, the patient representative on the panel, hopes “that this guideline serves as the beginning of a conversation that will allow inpatient caregivers to provide individualized care to patients – some of whom may be self-sufficient with their glycemic management and others who need additional assistance.” 

Development of the guideline was funded by the Endocrine Society. Dr. Korytkowski has reported no relevant financial disclosures.

A version of this article first appeared on Medscape.com.

Goal-directed glycemic management – which may include new technologies for glucose monitoring – for non–critically ill hospitalized patients who have diabetes or newly recognized hyperglycemia can improve outcomes, according to a new practice guideline from the Endocrine Society.  

Even though roughly 35% of hospitalized patients have diabetes or newly discovered hyperglycemia, there is “wide variability in glycemic management in clinical practice,” writing panel chair Mary Korytkowski, MD, from the University of Pittsburgh, said at the annual meeting of the Endocrine Society. “These patients get admitted to every patient service in the hospital, meaning that every clinical service will encounter this group of patients, and their glycemic management can have a major effect on their outcomes. Both short term and long term.”

This guideline provides strategies “to achieve previously recommended glycemic goals while also reducing the risk for hypoglycemia, and this includes inpatient use of insulin pump therapy or continuous glucose monitoring [CGM] devices, among others,” she said.

It also includes “recommendations for preoperative glycemic goals as well as when the use of correctional insulin – well known as sliding scale insulin – may be appropriate” and when it is not.

The document, which replaces a 2012 guideline, was published online in the Journal of Clinical Endocrinology & Metabolism.

A multidisciplinary panel developed the document over the last 3 years to answer 10 clinical practice questions related to management of non–critically ill hospitalized patients with diabetes or newly discovered hyperglycemia.
 

Use of CGM devices in hospital

The first recommendation is: “In adults with insulin-treated diabetes hospitalized for noncritical illness who are at high risk of hypoglycemia, we suggest the use of real-time [CGM] with confirmatory bedside point-of-care blood glucose monitoring for adjustments in insulin dosing rather than point-of-care blood glucose rather than testing alone in hospital settings where resources and training are available.” (Conditional recommendation. Low certainty of evidence).

“We were actually very careful in terms of looking at the data” for use of CGMs, Dr. Korytkowski said in an interview.

Although CGMs are approved by the Food and Drug Administration in the outpatient setting, and that’s becoming the standard of care there, they are not yet approved for in-hospital use.

However, the FDA granted an emergency allowance for use of CGMs in hospitals during the COVID-19 pandemic.

That was “when everyone was scrambling for what to do,” Dr. Korytkowski noted. “There was a shortage of personal protective equipment and a real interest in trying to limit the amount of exposure of healthcare personnel in some of these really critically ill patients for whom intravenous insulin therapy was used to control their glucose level.”

On March 1, the FDA granted Breakthrough Devices Designation for Dexcom CGM use in the hospital setting.

The new guideline suggests CGM be used to detect trends in glycemic management, with insulin dosing decisions made with point-of-care glucose measure (the standard of care).

To implement CGM for glycemic management in hospitals, Dr. Korytkowski said, would require “extensive staff and nursing education to have people with expertise available to provide support to nursing personnel who are both placing these devices, changing these devices, looking at trends, and then knowing when to remove them for certain procedures such as MRI or radiologic procedures.”

“We know that not all hospitals may be readily available to use these devices,” she said. “It is an area of active research. But the use of these devices during the pandemic, in both critical care and non–critical care setting has really provided us with a lot of information that was used to formulate this suggestion in the guideline.”

The document addresses the following areas: CGM, continuous subcutaneous insulin infusion pump therapy, inpatient diabetes education, prespecified preoperative glycemic targets, use of neutral protamine Hagedorn insulin for glucocorticoid or enteral nutrition-associated hyperglycemia, noninsulin therapies, preoperative carbohydrate-containing oral fluids, carbohydrate counting for prandial (mealtime) insulin dosing, and correctional and scheduled (basal or basal bolus) insulin therapies.

Nine key recommendations

Dr. Korytkowski identified nine key recommendations:

• CGM systems can help guide glycemic management with reduced risk for hypoglycemia.
• Patients experiencing glucocorticoid- or enteral nutrition–associated hyperglycemia require scheduled insulin therapy to address anticipated glucose excursions.
• Selected patients using insulin pump therapy prior to a hospital admission can continue to use these devices in the hospital if they have the mental and physical capacity to do so with knowledgeable hospital personnel.
• Diabetes self-management education provided to hospitalized patients can promote improved glycemic control following discharge with reductions in the risk for hospital readmission. “We know that is recommended for patients in the outpatient setting but often they do not get this,” she said. “We were able to observe that this can also impact long-term outcomes “
• Patients with diabetes scheduled for elective surgery may have improved postoperative outcomes when preoperative hemoglobin A1c is 8% or less and preoperative blood glucose is less than 180 mg/dL. “This recommendation answers the question: ‘Where should glycemic goals be for people who are undergoing surgery?’ ”
• Providing preoperative carbohydrate-containing beverages to patients with known diabetes is not recommended.
• Patients with newly recognized hyperglycemia or well-managed diabetes on noninsulin therapy may be treated with correctional insulin alone as initial therapy at hospital admission.
• Some noninsulin diabetes therapies can be used in combination with correction insulin for patients with type 2 diabetes who have mild hyperglycemia.
• Correctional insulin – “otherwise known as sliding-scale insulin” –  can be used as initial therapy for patients with newly recognized hyperglycemia or type 2 diabetes treated with noninsulin therapy prior to hospital admission.
• Scheduled insulin therapy is preferred for patients experiencing persistent blood glucose values greater than 180 mg/dL and is recommended for patients using insulin therapy prior to admission. 

The guideline writers’ hopes

“We hope that this guideline will resolve debates” about appropriate preoperative glycemic management and when sliding-scale insulin can be used and should not be used, said Dr. Korytkowski.

The authors also hope that “it will stimulate research funding for this very important aspect of diabetes care, and that hospitals will recognize the importance of having access to knowledgeable diabetes care and education specialists who can provide staff education regarding inpatient glycemic management, provide oversight for patients using insulin pump therapy or CGM devices, and empower hospital nurses to provide diabetes [self-management] education prior to patient discharge.”

Claire Pegg, the patient representative on the panel, hopes “that this guideline serves as the beginning of a conversation that will allow inpatient caregivers to provide individualized care to patients – some of whom may be self-sufficient with their glycemic management and others who need additional assistance.” 

Development of the guideline was funded by the Endocrine Society. Dr. Korytkowski has reported no relevant financial disclosures.

A version of this article first appeared on Medscape.com.

Goal-directed glycemic management – which may include new technologies for glucose monitoring – for non–critically ill hospitalized patients who have diabetes or newly recognized hyperglycemia can improve outcomes, according to a new practice guideline from the Endocrine Society.  

Even though roughly 35% of hospitalized patients have diabetes or newly discovered hyperglycemia, there is “wide variability in glycemic management in clinical practice,” writing panel chair Mary Korytkowski, MD, from the University of Pittsburgh, said at the annual meeting of the Endocrine Society. “These patients get admitted to every patient service in the hospital, meaning that every clinical service will encounter this group of patients, and their glycemic management can have a major effect on their outcomes. Both short term and long term.”

This guideline provides strategies “to achieve previously recommended glycemic goals while also reducing the risk for hypoglycemia, and this includes inpatient use of insulin pump therapy or continuous glucose monitoring [CGM] devices, among others,” she said.

It also includes “recommendations for preoperative glycemic goals as well as when the use of correctional insulin – well known as sliding scale insulin – may be appropriate” and when it is not.

The document, which replaces a 2012 guideline, was published online in the Journal of Clinical Endocrinology & Metabolism.

A multidisciplinary panel developed the document over the last 3 years to answer 10 clinical practice questions related to management of non–critically ill hospitalized patients with diabetes or newly discovered hyperglycemia.
 

Use of CGM devices in hospital

The first recommendation is: “In adults with insulin-treated diabetes hospitalized for noncritical illness who are at high risk of hypoglycemia, we suggest the use of real-time [CGM] with confirmatory bedside point-of-care blood glucose monitoring for adjustments in insulin dosing rather than point-of-care blood glucose rather than testing alone in hospital settings where resources and training are available.” (Conditional recommendation. Low certainty of evidence).

“We were actually very careful in terms of looking at the data” for use of CGMs, Dr. Korytkowski said in an interview.

Although CGMs are approved by the Food and Drug Administration in the outpatient setting, and that’s becoming the standard of care there, they are not yet approved for in-hospital use.

However, the FDA granted an emergency allowance for use of CGMs in hospitals during the COVID-19 pandemic.

That was “when everyone was scrambling for what to do,” Dr. Korytkowski noted. “There was a shortage of personal protective equipment and a real interest in trying to limit the amount of exposure of healthcare personnel in some of these really critically ill patients for whom intravenous insulin therapy was used to control their glucose level.”

On March 1, the FDA granted Breakthrough Devices Designation for Dexcom CGM use in the hospital setting.

The new guideline suggests CGM be used to detect trends in glycemic management, with insulin dosing decisions made with point-of-care glucose measure (the standard of care).

To implement CGM for glycemic management in hospitals, Dr. Korytkowski said, would require “extensive staff and nursing education to have people with expertise available to provide support to nursing personnel who are both placing these devices, changing these devices, looking at trends, and then knowing when to remove them for certain procedures such as MRI or radiologic procedures.”

“We know that not all hospitals may be readily available to use these devices,” she said. “It is an area of active research. But the use of these devices during the pandemic, in both critical care and non–critical care setting has really provided us with a lot of information that was used to formulate this suggestion in the guideline.”

The document addresses the following areas: CGM, continuous subcutaneous insulin infusion pump therapy, inpatient diabetes education, prespecified preoperative glycemic targets, use of neutral protamine Hagedorn insulin for glucocorticoid or enteral nutrition-associated hyperglycemia, noninsulin therapies, preoperative carbohydrate-containing oral fluids, carbohydrate counting for prandial (mealtime) insulin dosing, and correctional and scheduled (basal or basal bolus) insulin therapies.

Nine key recommendations

Dr. Korytkowski identified nine key recommendations:

• CGM systems can help guide glycemic management with reduced risk for hypoglycemia.
• Patients experiencing glucocorticoid- or enteral nutrition–associated hyperglycemia require scheduled insulin therapy to address anticipated glucose excursions.
• Selected patients using insulin pump therapy prior to a hospital admission can continue to use these devices in the hospital if they have the mental and physical capacity to do so with knowledgeable hospital personnel.
• Diabetes self-management education provided to hospitalized patients can promote improved glycemic control following discharge with reductions in the risk for hospital readmission. “We know that is recommended for patients in the outpatient setting but often they do not get this,” she said. “We were able to observe that this can also impact long-term outcomes “
• Patients with diabetes scheduled for elective surgery may have improved postoperative outcomes when preoperative hemoglobin A1c is 8% or less and preoperative blood glucose is less than 180 mg/dL. “This recommendation answers the question: ‘Where should glycemic goals be for people who are undergoing surgery?’ ”
• Providing preoperative carbohydrate-containing beverages to patients with known diabetes is not recommended.
• Patients with newly recognized hyperglycemia or well-managed diabetes on noninsulin therapy may be treated with correctional insulin alone as initial therapy at hospital admission.
• Some noninsulin diabetes therapies can be used in combination with correction insulin for patients with type 2 diabetes who have mild hyperglycemia.
• Correctional insulin – “otherwise known as sliding-scale insulin” –  can be used as initial therapy for patients with newly recognized hyperglycemia or type 2 diabetes treated with noninsulin therapy prior to hospital admission.
• Scheduled insulin therapy is preferred for patients experiencing persistent blood glucose values greater than 180 mg/dL and is recommended for patients using insulin therapy prior to admission. 

The guideline writers’ hopes

“We hope that this guideline will resolve debates” about appropriate preoperative glycemic management and when sliding-scale insulin can be used and should not be used, said Dr. Korytkowski.

The authors also hope that “it will stimulate research funding for this very important aspect of diabetes care, and that hospitals will recognize the importance of having access to knowledgeable diabetes care and education specialists who can provide staff education regarding inpatient glycemic management, provide oversight for patients using insulin pump therapy or CGM devices, and empower hospital nurses to provide diabetes [self-management] education prior to patient discharge.”

Claire Pegg, the patient representative on the panel, hopes “that this guideline serves as the beginning of a conversation that will allow inpatient caregivers to provide individualized care to patients – some of whom may be self-sufficient with their glycemic management and others who need additional assistance.” 

Development of the guideline was funded by the Endocrine Society. Dr. Korytkowski has reported no relevant financial disclosures.

A version of this article first appeared on Medscape.com.

Depression, self-harm, and suicide among people with type 1 and type 2 diabetes are “underappreciated” among health care practitioners, according to Katharine Barnard-Kelly, PhD, who founded the Reducing Suicide Rates Among Individuals With Diabetes (RESCUE) advocacy group in 2021.

“We have the most advanced technology to achieve glycemic control, but the mental burden remains underappreciated,” she said at a symposium with other speakers from RESCUE during the annual scientific sessions of the American Diabetes Association.

Notably, suicide and self-harm are “all too common” among young adults with type 1 diabetes who are receiving insulin, said Dr. Barnard-Kelly, a psychologist and visiting professor at Southern Health NHS Foundation Trust, Southampton, United Kingdom. And insulin under- or overdosing is the most common method of self-harm.  

However, “with a multipronged approach to awareness, education, and identification, we have the opportunity to intervene on the link between suicide and diabetes,” she said, noting that the aim is to “raise awareness and arm [doctors and others] with messages that can ultimately save a young person’s life if adopted in clinical practice and through mental health screenings.”

The rationale behind the RESCUE initiative is also described in a brief report published in Diabetes Technology & Therapeutics.
 

Six key messages

RESCUE now has “approximately 30 members across academia, clinical practice, industry, advocacy, government, regulatory bodies [including the U.S. Food and Drug Administration], and people with diabetes from several countries,” Dr. Barnard-Kelly told this news organization.

She identified six key messages from the symposium:

• “Suicide prevalence is considerably higher among people with diabetes than the general population.
• Talking about suicide does not increase an individual’s risk of suicide.
• Current screening tools for depression and suicide are not sufficiently sensitive to be effective among people with diabetes.
• Identification of suicidal acts among people with diabetes is extremely difficult.
• For every suicide, the World Health Organization reports there are 20 suicide attempts.
• Health care providers often underestimate the prevalence of suicidality among their patient population and feel ill-equipped to initiate conversations with their patients about suicide.”

Dr. Barnard-Kelly also presented some sobering statistics that highlight the need for increased awareness.

A study  reported that, of 160 cases of insulin overdose, 90% were suicides.

Adolescents and young adults with type 2 diabetes are 61% more likely to report suicidal thoughts than those without diabetes.

The risk of depression is two- to three-times higher in people with diabetes. According to another study, 7% of deaths in individuals with type 1 diabetes are estimated to be from suicide.

Survey about screening for depression, suicide risk in diabetes

During the symposium, Daniel R. Chernavvsky, MD, reported results from a small online survey of health care professionals who treat patients with type 1 or type 2 diabetes, which identified their concerns about screening for depression and assessing suicide risk in patients with diabetes.

Respondents were mainly from the United States (103) but were also from the United Kingdom (18), Slovenia, and the Netherlands (5), said Dr. Chernavvsky, who is senior director of medical affairs at Dexcom, Charlottesville, Va.

They included 59 doctors, 21 nurses,17 diabetes educators, 15 psychologists, seven dieticians, four social workers, and six “other” health care professionals, with a mean age of 46 (range, 25-72 years old) who had been working on average 14 years (range, 0.5-45 years).

Close to three-quarters (72%) reported that at least one of their patients had attempted suicide. The most common self-harm behaviors in their patients were insulin omission or a too large insulin bolus, and less often, binge eating.

Almost all respondents (95%) believed that routine visits to the diabetes clinic were appropriate times to discuss depression, self-injury, and suicidal ideation – at every visit (42% of respondents) or some visits (52%).

Only 30% were comfortable asking patients about self-harm or suicide.

Psychologists and social workers were very comfortable, but others were less comfortable or not comfortable at all.  

Many respondents expressed concerns such as, “What do I do?” “Would I make the problem worse?” “Would I give the patient the idea?” Some reported they had “limited resources” or it “feels invasive.”

They identified a need for “a better understanding of what [they could] do to support and care for patients,” and “more knowledge about how to deal with [patients’] answers” to screening questionnaires.
 

Screening for psychological morbidities in diabetes

Guidelines from the ADA and the International Society for Pediatric and Adolescent Diabetes recommend routine screening of patients with diabetes for psychological morbidities, including depression, said Shideh Majidi, MD.  

Depression is associated with higher A1c, noted Dr. Majidi, who is associate director, childhood and adolescent diabetes program at Children’s National Hospital, Washington, D.C.

She identified the following topics that need to be addressed when considering implementing a program for depression screening and suicide risk assessment in a diabetes clinic:

• Conducting screening: Which screening questionnaire will you use? Who will do it? Where? How often?
• Scoring screening questionnaires: Who will do it?
• Depression screening discussion: Who will do it? How will the person be notified of the score?
• Suicide risk assessment: Who will conduct it? What is the process to get someone to the emergency department?
• Resources/referral: Who will initiate and follow-up? 

Next steps

The RESCUE advocacy group is preparing educational and support materials for health care professionals who treat patients with diabetes, as well as other materials for patients themselves.

A version of this article first appeared on Medscape.com.

Depression, self-harm, and suicide among people with type 1 and type 2 diabetes are “underappreciated” among health care practitioners, according to Katharine Barnard-Kelly, PhD, who founded the Reducing Suicide Rates Among Individuals With Diabetes (RESCUE) advocacy group in 2021.

“We have the most advanced technology to achieve glycemic control, but the mental burden remains underappreciated,” she said at a symposium with other speakers from RESCUE during the annual scientific sessions of the American Diabetes Association.

Notably, suicide and self-harm are “all too common” among young adults with type 1 diabetes who are receiving insulin, said Dr. Barnard-Kelly, a psychologist and visiting professor at Southern Health NHS Foundation Trust, Southampton, United Kingdom. And insulin under- or overdosing is the most common method of self-harm.  

However, “with a multipronged approach to awareness, education, and identification, we have the opportunity to intervene on the link between suicide and diabetes,” she said, noting that the aim is to “raise awareness and arm [doctors and others] with messages that can ultimately save a young person’s life if adopted in clinical practice and through mental health screenings.”

The rationale behind the RESCUE initiative is also described in a brief report published in Diabetes Technology & Therapeutics.
 

Six key messages

RESCUE now has “approximately 30 members across academia, clinical practice, industry, advocacy, government, regulatory bodies [including the U.S. Food and Drug Administration], and people with diabetes from several countries,” Dr. Barnard-Kelly told this news organization.

She identified six key messages from the symposium:

• “Suicide prevalence is considerably higher among people with diabetes than the general population.
• Talking about suicide does not increase an individual’s risk of suicide.
• Current screening tools for depression and suicide are not sufficiently sensitive to be effective among people with diabetes.
• Identification of suicidal acts among people with diabetes is extremely difficult.
• For every suicide, the World Health Organization reports there are 20 suicide attempts.
• Health care providers often underestimate the prevalence of suicidality among their patient population and feel ill-equipped to initiate conversations with their patients about suicide.”

Dr. Barnard-Kelly also presented some sobering statistics that highlight the need for increased awareness.

A study  reported that, of 160 cases of insulin overdose, 90% were suicides.

Adolescents and young adults with type 2 diabetes are 61% more likely to report suicidal thoughts than those without diabetes.

The risk of depression is two- to three-times higher in people with diabetes. According to another study, 7% of deaths in individuals with type 1 diabetes are estimated to be from suicide.

Survey about screening for depression, suicide risk in diabetes

During the symposium, Daniel R. Chernavvsky, MD, reported results from a small online survey of health care professionals who treat patients with type 1 or type 2 diabetes, which identified their concerns about screening for depression and assessing suicide risk in patients with diabetes.

Respondents were mainly from the United States (103) but were also from the United Kingdom (18), Slovenia, and the Netherlands (5), said Dr. Chernavvsky, who is senior director of medical affairs at Dexcom, Charlottesville, Va.

They included 59 doctors, 21 nurses,17 diabetes educators, 15 psychologists, seven dieticians, four social workers, and six “other” health care professionals, with a mean age of 46 (range, 25-72 years old) who had been working on average 14 years (range, 0.5-45 years).

Close to three-quarters (72%) reported that at least one of their patients had attempted suicide. The most common self-harm behaviors in their patients were insulin omission or a too large insulin bolus, and less often, binge eating.

Almost all respondents (95%) believed that routine visits to the diabetes clinic were appropriate times to discuss depression, self-injury, and suicidal ideation – at every visit (42% of respondents) or some visits (52%).

Only 30% were comfortable asking patients about self-harm or suicide.

Psychologists and social workers were very comfortable, but others were less comfortable or not comfortable at all.  

Many respondents expressed concerns such as, “What do I do?” “Would I make the problem worse?” “Would I give the patient the idea?” Some reported they had “limited resources” or it “feels invasive.”

They identified a need for “a better understanding of what [they could] do to support and care for patients,” and “more knowledge about how to deal with [patients’] answers” to screening questionnaires.
 

Screening for psychological morbidities in diabetes

Guidelines from the ADA and the International Society for Pediatric and Adolescent Diabetes recommend routine screening of patients with diabetes for psychological morbidities, including depression, said Shideh Majidi, MD.  

Depression is associated with higher A1c, noted Dr. Majidi, who is associate director, childhood and adolescent diabetes program at Children’s National Hospital, Washington, D.C.

She identified the following topics that need to be addressed when considering implementing a program for depression screening and suicide risk assessment in a diabetes clinic:

• Conducting screening: Which screening questionnaire will you use? Who will do it? Where? How often?
• Scoring screening questionnaires: Who will do it?
• Depression screening discussion: Who will do it? How will the person be notified of the score?
• Suicide risk assessment: Who will conduct it? What is the process to get someone to the emergency department?
• Resources/referral: Who will initiate and follow-up? 

Next steps

The RESCUE advocacy group is preparing educational and support materials for health care professionals who treat patients with diabetes, as well as other materials for patients themselves.

A version of this article first appeared on Medscape.com.

Depression, self-harm, and suicide among people with type 1 and type 2 diabetes are “underappreciated” among health care practitioners, according to Katharine Barnard-Kelly, PhD, who founded the Reducing Suicide Rates Among Individuals With Diabetes (RESCUE) advocacy group in 2021.

“We have the most advanced technology to achieve glycemic control, but the mental burden remains underappreciated,” she said at a symposium with other speakers from RESCUE during the annual scientific sessions of the American Diabetes Association.

Notably, suicide and self-harm are “all too common” among young adults with type 1 diabetes who are receiving insulin, said Dr. Barnard-Kelly, a psychologist and visiting professor at Southern Health NHS Foundation Trust, Southampton, United Kingdom. And insulin under- or overdosing is the most common method of self-harm.  

However, “with a multipronged approach to awareness, education, and identification, we have the opportunity to intervene on the link between suicide and diabetes,” she said, noting that the aim is to “raise awareness and arm [doctors and others] with messages that can ultimately save a young person’s life if adopted in clinical practice and through mental health screenings.”

The rationale behind the RESCUE initiative is also described in a brief report published in Diabetes Technology & Therapeutics.
 

Six key messages

RESCUE now has “approximately 30 members across academia, clinical practice, industry, advocacy, government, regulatory bodies [including the U.S. Food and Drug Administration], and people with diabetes from several countries,” Dr. Barnard-Kelly told this news organization.

She identified six key messages from the symposium:

• “Suicide prevalence is considerably higher among people with diabetes than the general population.
• Talking about suicide does not increase an individual’s risk of suicide.
• Current screening tools for depression and suicide are not sufficiently sensitive to be effective among people with diabetes.
• Identification of suicidal acts among people with diabetes is extremely difficult.
• For every suicide, the World Health Organization reports there are 20 suicide attempts.
• Health care providers often underestimate the prevalence of suicidality among their patient population and feel ill-equipped to initiate conversations with their patients about suicide.”

Dr. Barnard-Kelly also presented some sobering statistics that highlight the need for increased awareness.

A study  reported that, of 160 cases of insulin overdose, 90% were suicides.

Adolescents and young adults with type 2 diabetes are 61% more likely to report suicidal thoughts than those without diabetes.

The risk of depression is two- to three-times higher in people with diabetes. According to another study, 7% of deaths in individuals with type 1 diabetes are estimated to be from suicide.

Survey about screening for depression, suicide risk in diabetes

During the symposium, Daniel R. Chernavvsky, MD, reported results from a small online survey of health care professionals who treat patients with type 1 or type 2 diabetes, which identified their concerns about screening for depression and assessing suicide risk in patients with diabetes.

Respondents were mainly from the United States (103) but were also from the United Kingdom (18), Slovenia, and the Netherlands (5), said Dr. Chernavvsky, who is senior director of medical affairs at Dexcom, Charlottesville, Va.

They included 59 doctors, 21 nurses,17 diabetes educators, 15 psychologists, seven dieticians, four social workers, and six “other” health care professionals, with a mean age of 46 (range, 25-72 years old) who had been working on average 14 years (range, 0.5-45 years).

Close to three-quarters (72%) reported that at least one of their patients had attempted suicide. The most common self-harm behaviors in their patients were insulin omission or a too large insulin bolus, and less often, binge eating.

Almost all respondents (95%) believed that routine visits to the diabetes clinic were appropriate times to discuss depression, self-injury, and suicidal ideation – at every visit (42% of respondents) or some visits (52%).

Only 30% were comfortable asking patients about self-harm or suicide.

Psychologists and social workers were very comfortable, but others were less comfortable or not comfortable at all.  

Many respondents expressed concerns such as, “What do I do?” “Would I make the problem worse?” “Would I give the patient the idea?” Some reported they had “limited resources” or it “feels invasive.”

They identified a need for “a better understanding of what [they could] do to support and care for patients,” and “more knowledge about how to deal with [patients’] answers” to screening questionnaires.
 

Screening for psychological morbidities in diabetes

Guidelines from the ADA and the International Society for Pediatric and Adolescent Diabetes recommend routine screening of patients with diabetes for psychological morbidities, including depression, said Shideh Majidi, MD.  

Depression is associated with higher A1c, noted Dr. Majidi, who is associate director, childhood and adolescent diabetes program at Children’s National Hospital, Washington, D.C.

She identified the following topics that need to be addressed when considering implementing a program for depression screening and suicide risk assessment in a diabetes clinic:

• Conducting screening: Which screening questionnaire will you use? Who will do it? Where? How often?
• Scoring screening questionnaires: Who will do it?
• Depression screening discussion: Who will do it? How will the person be notified of the score?
• Suicide risk assessment: Who will conduct it? What is the process to get someone to the emergency department?
• Resources/referral: Who will initiate and follow-up? 

Next steps

The RESCUE advocacy group is preparing educational and support materials for health care professionals who treat patients with diabetes, as well as other materials for patients themselves.

A version of this article first appeared on Medscape.com.

As it gears up for the first in-person scientific sessions for 3 years, the American Diabetes Association has issued an addendum to its most recent annual clinical practice recommendations published in December 2021, the 2022 Standards of Medical Care in Diabetes, based on recent trial evidence and consensus.

The update informs clinicians about:

• The effect of the nonsteroidal mineralocorticoid antagonist (Kerendia) on cardiovascular outcomes in patients with type 2 diabetes and chronic kidney disease.
• The effect of a sodium-glucose cotransporter 2 (SGLT2) inhibitor on heart failure and renal outcomes in patients with type 2 diabetes.

The National Kidney Foundation and the American Society of Nephrology Task Force recommendation to remove race in the formula for calculating estimated glomerular filtration rate (eGFR).

Checking with Dr Gabbay -- RM 08/16

“This is the fifth year that we are able to update the Standards of Care after it has been published through our Living Standards of Care updates, making it possible to give diabetes care providers the most important information and the latest evidence relevant to their practice,” Robert A. Gabbay, MD, PhD, ADA chief scientific and medical officer, said in a press release from the organization.

The addendum, entitled, “Living Standards of Care,” updates Section 10, “Cardiovascular Disease and Risk Management,” and Section 11, “Chronic Kidney Disease and Risk Management” of the 2022 Standards of Medical Care in Diabetes. 

The amendments were approved by the ADA Professional Practice Committee, which is responsible for developing the Standards of Care. The American College of Cardiology reviewed and endorsed the section on CVD and risk management.

The Living Standards Update was published online in Diabetes Care.
 

CVD and risk management

In the Addendum to Section 10, “Cardiovascular Disease and Risk Management,” the committee writes:

• “For patients with type 2 diabetes and chronic kidney disease treated with maximum tolerated doses of ACE inhibitors or angiotensin receptor blockers, addition of finerenone should be considered to improve cardiovascular outcomes and reduce the risk of chronic kidney disease progression. A”
• “Patients with type 2 diabetes and chronic kidney disease should be considered for treatment with finerenone to reduce cardiovascular outcomes and the risk of chronic kidney disease progression.”
• “In patients with type 2 diabetes and established heart failure with either preserved or reduced ejection fraction, an SGLT2 inhibitor [with proven benefit in this patient population] is recommended to reduce risk of worsening heart failure, hospitalizations for heart failure, and cardiovascular death. ”

In the section “Statin Treatment,” the addendum no longer states that “a prospective trial of a newer fibrate ... is ongoing,” because that trial investigating pemafibrate (Kowa), a novel selective peroxisome proliferator-activated receptor alpha modulator (or fibrate), has been discontinued.
 

Chronic kidney disease and risk management

In the Addendum to Section 11, “Chronic Kidney Disease and Risk Management,” the committee writes: 

• “Traditionally, eGFR is calculated from serum creatinine using a validated formula. The Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equation is preferred. ... Historically, a correction factor for muscle mass was included in a modified equation for African Americans; however, due to various issues with inequities, it was decided to the equation such that it applies to all. Hence, a committee was convened, resulting in the recommendation for immediate implementation of the CKD-EPI creatinine equation refit without the race variable in all laboratories in the U.S.” (This is based on an National Kidney Foundation and American Society of Nephrology Task Force recommendation.)
• “Additionally, increased use of cystatin C, especially to confirm estimated GFR in adults who are at risk for or have chronic kidney disease, because combining filtration markers (creatinine and cystatin C) is more accurate and would support better clinical decisions than either marker alone.” 

Evidence from clinical trials

The update is based on findings from the following clinical trials:

• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease (FIDELIO-DKD)
• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and the Clinical Diagnosis of Diabetic Kidney Disease (FIGARO-DKD)
• FIDELITY, a prespecified pooled analysis of FIDELIO-DKD and FIGARO-DKD
• Empagliflozin Outcome Trial in Patients With Chronic Heart Failure With Preserved Ejection Fraction (EMPEROR-Preserved)
• Effects of Dapagliflozin on Biomarkers, Symptoms and Functional Status in Patients with PRESERVED Ejection Fraction Heart Failure (PRESERVED-HF)
• Pemafibrate to Reduce Cardiovascular Outcomes by Reducing Triglycerides in Patients with Diabetes (PROMINENT).

A version of this article first appeared on Medscape.com.

As it gears up for the first in-person scientific sessions for 3 years, the American Diabetes Association has issued an addendum to its most recent annual clinical practice recommendations published in December 2021, the 2022 Standards of Medical Care in Diabetes, based on recent trial evidence and consensus.

The update informs clinicians about:

• The effect of the nonsteroidal mineralocorticoid antagonist (Kerendia) on cardiovascular outcomes in patients with type 2 diabetes and chronic kidney disease.
• The effect of a sodium-glucose cotransporter 2 (SGLT2) inhibitor on heart failure and renal outcomes in patients with type 2 diabetes.

The National Kidney Foundation and the American Society of Nephrology Task Force recommendation to remove race in the formula for calculating estimated glomerular filtration rate (eGFR).

Checking with Dr Gabbay -- RM 08/16

“This is the fifth year that we are able to update the Standards of Care after it has been published through our Living Standards of Care updates, making it possible to give diabetes care providers the most important information and the latest evidence relevant to their practice,” Robert A. Gabbay, MD, PhD, ADA chief scientific and medical officer, said in a press release from the organization.

The addendum, entitled, “Living Standards of Care,” updates Section 10, “Cardiovascular Disease and Risk Management,” and Section 11, “Chronic Kidney Disease and Risk Management” of the 2022 Standards of Medical Care in Diabetes. 

The amendments were approved by the ADA Professional Practice Committee, which is responsible for developing the Standards of Care. The American College of Cardiology reviewed and endorsed the section on CVD and risk management.

The Living Standards Update was published online in Diabetes Care.
 

CVD and risk management

In the Addendum to Section 10, “Cardiovascular Disease and Risk Management,” the committee writes:

• “For patients with type 2 diabetes and chronic kidney disease treated with maximum tolerated doses of ACE inhibitors or angiotensin receptor blockers, addition of finerenone should be considered to improve cardiovascular outcomes and reduce the risk of chronic kidney disease progression. A”
• “Patients with type 2 diabetes and chronic kidney disease should be considered for treatment with finerenone to reduce cardiovascular outcomes and the risk of chronic kidney disease progression.”
• “In patients with type 2 diabetes and established heart failure with either preserved or reduced ejection fraction, an SGLT2 inhibitor [with proven benefit in this patient population] is recommended to reduce risk of worsening heart failure, hospitalizations for heart failure, and cardiovascular death. ”

In the section “Statin Treatment,” the addendum no longer states that “a prospective trial of a newer fibrate ... is ongoing,” because that trial investigating pemafibrate (Kowa), a novel selective peroxisome proliferator-activated receptor alpha modulator (or fibrate), has been discontinued.
 

Chronic kidney disease and risk management

In the Addendum to Section 11, “Chronic Kidney Disease and Risk Management,” the committee writes: 

• “Traditionally, eGFR is calculated from serum creatinine using a validated formula. The Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equation is preferred. ... Historically, a correction factor for muscle mass was included in a modified equation for African Americans; however, due to various issues with inequities, it was decided to the equation such that it applies to all. Hence, a committee was convened, resulting in the recommendation for immediate implementation of the CKD-EPI creatinine equation refit without the race variable in all laboratories in the U.S.” (This is based on an National Kidney Foundation and American Society of Nephrology Task Force recommendation.)
• “Additionally, increased use of cystatin C, especially to confirm estimated GFR in adults who are at risk for or have chronic kidney disease, because combining filtration markers (creatinine and cystatin C) is more accurate and would support better clinical decisions than either marker alone.” 

Evidence from clinical trials

The update is based on findings from the following clinical trials:

• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease (FIDELIO-DKD)
• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and the Clinical Diagnosis of Diabetic Kidney Disease (FIGARO-DKD)
• FIDELITY, a prespecified pooled analysis of FIDELIO-DKD and FIGARO-DKD
• Empagliflozin Outcome Trial in Patients With Chronic Heart Failure With Preserved Ejection Fraction (EMPEROR-Preserved)
• Effects of Dapagliflozin on Biomarkers, Symptoms and Functional Status in Patients with PRESERVED Ejection Fraction Heart Failure (PRESERVED-HF)
• Pemafibrate to Reduce Cardiovascular Outcomes by Reducing Triglycerides in Patients with Diabetes (PROMINENT).

A version of this article first appeared on Medscape.com.

As it gears up for the first in-person scientific sessions for 3 years, the American Diabetes Association has issued an addendum to its most recent annual clinical practice recommendations published in December 2021, the 2022 Standards of Medical Care in Diabetes, based on recent trial evidence and consensus.

The update informs clinicians about:

• The effect of the nonsteroidal mineralocorticoid antagonist (Kerendia) on cardiovascular outcomes in patients with type 2 diabetes and chronic kidney disease.
• The effect of a sodium-glucose cotransporter 2 (SGLT2) inhibitor on heart failure and renal outcomes in patients with type 2 diabetes.

The National Kidney Foundation and the American Society of Nephrology Task Force recommendation to remove race in the formula for calculating estimated glomerular filtration rate (eGFR).

Checking with Dr Gabbay -- RM 08/16

“This is the fifth year that we are able to update the Standards of Care after it has been published through our Living Standards of Care updates, making it possible to give diabetes care providers the most important information and the latest evidence relevant to their practice,” Robert A. Gabbay, MD, PhD, ADA chief scientific and medical officer, said in a press release from the organization.

The addendum, entitled, “Living Standards of Care,” updates Section 10, “Cardiovascular Disease and Risk Management,” and Section 11, “Chronic Kidney Disease and Risk Management” of the 2022 Standards of Medical Care in Diabetes. 

The amendments were approved by the ADA Professional Practice Committee, which is responsible for developing the Standards of Care. The American College of Cardiology reviewed and endorsed the section on CVD and risk management.

The Living Standards Update was published online in Diabetes Care.
 

CVD and risk management

In the Addendum to Section 10, “Cardiovascular Disease and Risk Management,” the committee writes:

• “For patients with type 2 diabetes and chronic kidney disease treated with maximum tolerated doses of ACE inhibitors or angiotensin receptor blockers, addition of finerenone should be considered to improve cardiovascular outcomes and reduce the risk of chronic kidney disease progression. A”
• “Patients with type 2 diabetes and chronic kidney disease should be considered for treatment with finerenone to reduce cardiovascular outcomes and the risk of chronic kidney disease progression.”
• “In patients with type 2 diabetes and established heart failure with either preserved or reduced ejection fraction, an SGLT2 inhibitor [with proven benefit in this patient population] is recommended to reduce risk of worsening heart failure, hospitalizations for heart failure, and cardiovascular death. ”

In the section “Statin Treatment,” the addendum no longer states that “a prospective trial of a newer fibrate ... is ongoing,” because that trial investigating pemafibrate (Kowa), a novel selective peroxisome proliferator-activated receptor alpha modulator (or fibrate), has been discontinued.
 

Chronic kidney disease and risk management

In the Addendum to Section 11, “Chronic Kidney Disease and Risk Management,” the committee writes: 

• “Traditionally, eGFR is calculated from serum creatinine using a validated formula. The Chronic Kidney Disease Epidemiology Collaboration (CKD-EPI) equation is preferred. ... Historically, a correction factor for muscle mass was included in a modified equation for African Americans; however, due to various issues with inequities, it was decided to the equation such that it applies to all. Hence, a committee was convened, resulting in the recommendation for immediate implementation of the CKD-EPI creatinine equation refit without the race variable in all laboratories in the U.S.” (This is based on an National Kidney Foundation and American Society of Nephrology Task Force recommendation.)
• “Additionally, increased use of cystatin C, especially to confirm estimated GFR in adults who are at risk for or have chronic kidney disease, because combining filtration markers (creatinine and cystatin C) is more accurate and would support better clinical decisions than either marker alone.” 

Evidence from clinical trials

The update is based on findings from the following clinical trials:

• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and Diabetic Kidney Disease (FIDELIO-DKD)
• Efficacy and Safety of Finerenone in Subjects With Type 2 Diabetes Mellitus and the Clinical Diagnosis of Diabetic Kidney Disease (FIGARO-DKD)
• FIDELITY, a prespecified pooled analysis of FIDELIO-DKD and FIGARO-DKD
• Empagliflozin Outcome Trial in Patients With Chronic Heart Failure With Preserved Ejection Fraction (EMPEROR-Preserved)
• Effects of Dapagliflozin on Biomarkers, Symptoms and Functional Status in Patients with PRESERVED Ejection Fraction Heart Failure (PRESERVED-HF)
• Pemafibrate to Reduce Cardiovascular Outcomes by Reducing Triglycerides in Patients with Diabetes (PROMINENT).

A version of this article first appeared on Medscape.com.

NEW ORLEANS – Two patients with type 1 diabetes have now experienced improved blood glucose control with Vertex Pharmaceutical’s investigational allogeneic stem cell–derived islets (VX-880), with the first person now completely insulin independent at 9 months post transplant.

Prior to the procedure, both patients had hypoglycemic unawareness and had experienced multiple episodes of severe hypoglycemia, conditions considered severe enough to justify the risk of immune suppression (which is required for such stem cell–derived islet transplants as they are “foreign” to the recipient).

The first patient, a 64-year-old man with type 1 diabetes for more than 40 years, now has a hemoglobin A1c in the normal range without taking any insulin more than 9 months after the procedure. The second, a 35-year-old woman with type 1 diabetes for 10.7 years, experienced a 30% reduction in insulin use and significant increased time spent in target glucose range, by 5 months post transplant. Both patients were given just half the targeted VX-880 dose.

Data for those two patients – the first in Vertex’s phase 1/2 multicenter, single-arm, open-label clinical trial of VX-880 – were reported at the annual scientific sessions of the American Diabetes Association, by James F. Markmann, MD, PhD.

He has been transplanting pancreatic islet cells from deceased donors into humans via infusion into the hepatic portal vein for over 20 years.

Transplantation of pancreatic islet cells obtained from cadavers have been shown to eliminate severe hypoglycemia and improve glycemic control in patients with type 1 diabetes, but they’re limited in quantity and are of variable quality. Islets that are manufactured via differentiation from human pluripotent stem cells represent an alternative, explained Dr. Markmann, chief of the division of transplant surgery at Massachusetts General Hospital, Boston.

“This is a new area. ... We hope this will be the same or potentially better. With stem cell–derived islets the quality, consistency, and reliability might produce a better result than with cadaveric islets,” he commented during a press briefing here.

A third patient has recently received the full targeted VX-880 dose but was not part of the current report. The planned enrollment is 17 patients. The trial is currently on clinical hold per the Food and Drug Administration concerning the criteria around dose escalation, but Vertex is working with the FDA to sort that out. Meanwhile, enrollment remains open in Canada, Dr. Markmann said.

In answer to a question about how patient 1 is doing now, Dr. Markmann replied, “He’s doing great. He’s probably the most appreciative patient I’ve ever met. His life was being destroyed by diabetes. He couldn’t work. He crashed his motorcycle from [low blood sugar]. He really was tremendously appreciative that he could participate.”

When Dr. Markmann explained the potential uncertainties and risks to the patient prior to the procedure, the patient replied: “I want to participate. If I die from this and I help somebody else I’d be happy, but I can’t go on living the way I’m living.”

“These people really suffer and this, I think, brings hope to them,” Dr. Markmann said.
 

‘Beautiful data’ seen in two patients, with ‘transformational’ potential

Asked to comment, Marlon Pragnell, PhD, vice president for Research & Science at the ADA, told this news organization: “It’s beautiful data. People who have type 1 diabetes lack [pancreatic] beta cells ... it was impossible to get sufficient beta cells from cadaveric transplants. It’s just nowhere near enough. If this is safe and effective, if they continue to show safety and efficacy like patient 1, this will be transformational.”

Dr. Markmann presented data for the most recent study visit for each of the two patients, 270 days for patient 1 and 150 days for patient 2. Prior to the transplants, patient 1 had experienced five severe hypoglycemic events and patient 2 had experienced three.

Both had undetectable C-peptide levels at baseline. In response to a mixed-meal tolerance test, patient 1 showed a “robust” C-peptide response by day 90, which increased by day 180. Those levels had dropped but were still detectable by day 270, “possibly due to improved insulin sensitivity,” Dr. Markmann said.

Similarly, Patient 2 also had increased C-peptide that increased to detectable range by day 90 with improved glucose disposal.

Hemoglobin A1c dropped in patient 1 from 8.6% at baseline to 6.9% at day 180, to a “remarkable” 5.2% at day 270. For patient 2, the drop was from 7.5% to a nadir of 6.4% by day 57, then reversing back to 7.1% at day 150.  

Both patients also had significant reductions in insulin dose. For patient 1, the dose reduction was more than 90% – from 34 units at baseline to 2.6 units by day 90. By day 210 he was able to stop insulin and by day 270 he met formal criteria for insulin independence.

Patient 2 also had a significant reduction in insulin dose, from 25.9 units to 18.7 by day 57 and remained stable thereafter, at 18.2 units by day 150.

Asked why Patient 2’s results weren’t quite as impressive as patient 1’s, Dr. Markmann replied “I think what’s important is that both patients did great. And since this was a half-dose, we might have expected that the outcome was going to be more like patient 2 rather than patient 1. So, I think we’re just going to have to [study this in] more patients to understand where it falls.” 

Although patient 1 experienced a cluster of six severe hypoglycemic events early in the posttransplant period, he had no further events after day 35. Patient 2 had no severe hypoglycemic events.

Other safety events were generally consistent with that seen with the immunosuppressive regimen in the perioperative period. Patient 1 had a “mild and self-limited” rise in liver function test and also experienced two severe adverse events: A rash from the immune suppression that resolved spontaneously, and dehydration requiring hospitalization on day 186. Patient 2’s adverse events were all mild to moderate, most commonly headache and hypomagnesemia and not related to VX-880.

Immunosuppression: Work is ongoing

The immunosuppression regimen used comprises a depletion of lymphocytes at induction, followed by a maintenance regimen of two standard agents used in kidney transplant patients and found to be well tolerated, Dr. Markmann said.

Still, the risk of immunosuppression generally outweighs the potential benefit for most people with type 1 diabetes who are managing reasonably well with insulin treatment.

“This is part one of a two-part problem. One is to have a reliable, consistent, effective cell therapy. The second is to develop an approach that doesn’t require immunosuppression. ... But if we had a way of transplanting the cells without the need for immunosuppression, then it could be really widely available. That’s an opportunity for the future since these cells can be made in unlimited quantities,” Dr. Markmann commented during the press briefing.

Asked for his thoughts about the immunosuppression aspect, Dr. Pragnell told this news organization: “Immune suppression is a concern, but I feel that this is just the start of so much research in this area. They’re going to take this step by step. This is just the start. My understanding is they have additional strategies around immune suppression, and in the future they might not even need immunosuppression. But even at this stage right now, it’s amazing.”

He added: “The ‘artificial pancreas’ is a huge step forward, but it’s just a bridge to a cure, whereas if they’re able to show safety and efficacy, this is potentially a cure. ... I’m very excited about it.”

Dr. Markmann serves on advisory boards for iTolerance, eGenesis, and QihanBio. He is a consultant to Vertex Pharmaceuticals. Dr. Pragnell is an ADA employee and has no further disclosures.

A version of this article first appeared on Medscape.com.

NEW ORLEANS – Two patients with type 1 diabetes have now experienced improved blood glucose control with Vertex Pharmaceutical’s investigational allogeneic stem cell–derived islets (VX-880), with the first person now completely insulin independent at 9 months post transplant.

Prior to the procedure, both patients had hypoglycemic unawareness and had experienced multiple episodes of severe hypoglycemia, conditions considered severe enough to justify the risk of immune suppression (which is required for such stem cell–derived islet transplants as they are “foreign” to the recipient).

The first patient, a 64-year-old man with type 1 diabetes for more than 40 years, now has a hemoglobin A1c in the normal range without taking any insulin more than 9 months after the procedure. The second, a 35-year-old woman with type 1 diabetes for 10.7 years, experienced a 30% reduction in insulin use and significant increased time spent in target glucose range, by 5 months post transplant. Both patients were given just half the targeted VX-880 dose.

Data for those two patients – the first in Vertex’s phase 1/2 multicenter, single-arm, open-label clinical trial of VX-880 – were reported at the annual scientific sessions of the American Diabetes Association, by James F. Markmann, MD, PhD.

He has been transplanting pancreatic islet cells from deceased donors into humans via infusion into the hepatic portal vein for over 20 years.

Transplantation of pancreatic islet cells obtained from cadavers have been shown to eliminate severe hypoglycemia and improve glycemic control in patients with type 1 diabetes, but they’re limited in quantity and are of variable quality. Islets that are manufactured via differentiation from human pluripotent stem cells represent an alternative, explained Dr. Markmann, chief of the division of transplant surgery at Massachusetts General Hospital, Boston.

“This is a new area. ... We hope this will be the same or potentially better. With stem cell–derived islets the quality, consistency, and reliability might produce a better result than with cadaveric islets,” he commented during a press briefing here.

A third patient has recently received the full targeted VX-880 dose but was not part of the current report. The planned enrollment is 17 patients. The trial is currently on clinical hold per the Food and Drug Administration concerning the criteria around dose escalation, but Vertex is working with the FDA to sort that out. Meanwhile, enrollment remains open in Canada, Dr. Markmann said.

In answer to a question about how patient 1 is doing now, Dr. Markmann replied, “He’s doing great. He’s probably the most appreciative patient I’ve ever met. His life was being destroyed by diabetes. He couldn’t work. He crashed his motorcycle from [low blood sugar]. He really was tremendously appreciative that he could participate.”

When Dr. Markmann explained the potential uncertainties and risks to the patient prior to the procedure, the patient replied: “I want to participate. If I die from this and I help somebody else I’d be happy, but I can’t go on living the way I’m living.”

“These people really suffer and this, I think, brings hope to them,” Dr. Markmann said.
 

‘Beautiful data’ seen in two patients, with ‘transformational’ potential

Asked to comment, Marlon Pragnell, PhD, vice president for Research & Science at the ADA, told this news organization: “It’s beautiful data. People who have type 1 diabetes lack [pancreatic] beta cells ... it was impossible to get sufficient beta cells from cadaveric transplants. It’s just nowhere near enough. If this is safe and effective, if they continue to show safety and efficacy like patient 1, this will be transformational.”

Dr. Markmann presented data for the most recent study visit for each of the two patients, 270 days for patient 1 and 150 days for patient 2. Prior to the transplants, patient 1 had experienced five severe hypoglycemic events and patient 2 had experienced three.

Both had undetectable C-peptide levels at baseline. In response to a mixed-meal tolerance test, patient 1 showed a “robust” C-peptide response by day 90, which increased by day 180. Those levels had dropped but were still detectable by day 270, “possibly due to improved insulin sensitivity,” Dr. Markmann said.

Similarly, Patient 2 also had increased C-peptide that increased to detectable range by day 90 with improved glucose disposal.

Hemoglobin A1c dropped in patient 1 from 8.6% at baseline to 6.9% at day 180, to a “remarkable” 5.2% at day 270. For patient 2, the drop was from 7.5% to a nadir of 6.4% by day 57, then reversing back to 7.1% at day 150.  

Both patients also had significant reductions in insulin dose. For patient 1, the dose reduction was more than 90% – from 34 units at baseline to 2.6 units by day 90. By day 210 he was able to stop insulin and by day 270 he met formal criteria for insulin independence.

Patient 2 also had a significant reduction in insulin dose, from 25.9 units to 18.7 by day 57 and remained stable thereafter, at 18.2 units by day 150.

Asked why Patient 2’s results weren’t quite as impressive as patient 1’s, Dr. Markmann replied “I think what’s important is that both patients did great. And since this was a half-dose, we might have expected that the outcome was going to be more like patient 2 rather than patient 1. So, I think we’re just going to have to [study this in] more patients to understand where it falls.” 

Although patient 1 experienced a cluster of six severe hypoglycemic events early in the posttransplant period, he had no further events after day 35. Patient 2 had no severe hypoglycemic events.

Other safety events were generally consistent with that seen with the immunosuppressive regimen in the perioperative period. Patient 1 had a “mild and self-limited” rise in liver function test and also experienced two severe adverse events: A rash from the immune suppression that resolved spontaneously, and dehydration requiring hospitalization on day 186. Patient 2’s adverse events were all mild to moderate, most commonly headache and hypomagnesemia and not related to VX-880.

Immunosuppression: Work is ongoing

The immunosuppression regimen used comprises a depletion of lymphocytes at induction, followed by a maintenance regimen of two standard agents used in kidney transplant patients and found to be well tolerated, Dr. Markmann said.

Still, the risk of immunosuppression generally outweighs the potential benefit for most people with type 1 diabetes who are managing reasonably well with insulin treatment.

“This is part one of a two-part problem. One is to have a reliable, consistent, effective cell therapy. The second is to develop an approach that doesn’t require immunosuppression. ... But if we had a way of transplanting the cells without the need for immunosuppression, then it could be really widely available. That’s an opportunity for the future since these cells can be made in unlimited quantities,” Dr. Markmann commented during the press briefing.

Asked for his thoughts about the immunosuppression aspect, Dr. Pragnell told this news organization: “Immune suppression is a concern, but I feel that this is just the start of so much research in this area. They’re going to take this step by step. This is just the start. My understanding is they have additional strategies around immune suppression, and in the future they might not even need immunosuppression. But even at this stage right now, it’s amazing.”

He added: “The ‘artificial pancreas’ is a huge step forward, but it’s just a bridge to a cure, whereas if they’re able to show safety and efficacy, this is potentially a cure. ... I’m very excited about it.”

Dr. Markmann serves on advisory boards for iTolerance, eGenesis, and QihanBio. He is a consultant to Vertex Pharmaceuticals. Dr. Pragnell is an ADA employee and has no further disclosures.

A version of this article first appeared on Medscape.com.

NEW ORLEANS – Two patients with type 1 diabetes have now experienced improved blood glucose control with Vertex Pharmaceutical’s investigational allogeneic stem cell–derived islets (VX-880), with the first person now completely insulin independent at 9 months post transplant.

Prior to the procedure, both patients had hypoglycemic unawareness and had experienced multiple episodes of severe hypoglycemia, conditions considered severe enough to justify the risk of immune suppression (which is required for such stem cell–derived islet transplants as they are “foreign” to the recipient).

The first patient, a 64-year-old man with type 1 diabetes for more than 40 years, now has a hemoglobin A1c in the normal range without taking any insulin more than 9 months after the procedure. The second, a 35-year-old woman with type 1 diabetes for 10.7 years, experienced a 30% reduction in insulin use and significant increased time spent in target glucose range, by 5 months post transplant. Both patients were given just half the targeted VX-880 dose.

Data for those two patients – the first in Vertex’s phase 1/2 multicenter, single-arm, open-label clinical trial of VX-880 – were reported at the annual scientific sessions of the American Diabetes Association, by James F. Markmann, MD, PhD.

He has been transplanting pancreatic islet cells from deceased donors into humans via infusion into the hepatic portal vein for over 20 years.

Transplantation of pancreatic islet cells obtained from cadavers have been shown to eliminate severe hypoglycemia and improve glycemic control in patients with type 1 diabetes, but they’re limited in quantity and are of variable quality. Islets that are manufactured via differentiation from human pluripotent stem cells represent an alternative, explained Dr. Markmann, chief of the division of transplant surgery at Massachusetts General Hospital, Boston.

“This is a new area. ... We hope this will be the same or potentially better. With stem cell–derived islets the quality, consistency, and reliability might produce a better result than with cadaveric islets,” he commented during a press briefing here.

A third patient has recently received the full targeted VX-880 dose but was not part of the current report. The planned enrollment is 17 patients. The trial is currently on clinical hold per the Food and Drug Administration concerning the criteria around dose escalation, but Vertex is working with the FDA to sort that out. Meanwhile, enrollment remains open in Canada, Dr. Markmann said.

In answer to a question about how patient 1 is doing now, Dr. Markmann replied, “He’s doing great. He’s probably the most appreciative patient I’ve ever met. His life was being destroyed by diabetes. He couldn’t work. He crashed his motorcycle from [low blood sugar]. He really was tremendously appreciative that he could participate.”

When Dr. Markmann explained the potential uncertainties and risks to the patient prior to the procedure, the patient replied: “I want to participate. If I die from this and I help somebody else I’d be happy, but I can’t go on living the way I’m living.”

“These people really suffer and this, I think, brings hope to them,” Dr. Markmann said.
 

‘Beautiful data’ seen in two patients, with ‘transformational’ potential

Asked to comment, Marlon Pragnell, PhD, vice president for Research & Science at the ADA, told this news organization: “It’s beautiful data. People who have type 1 diabetes lack [pancreatic] beta cells ... it was impossible to get sufficient beta cells from cadaveric transplants. It’s just nowhere near enough. If this is safe and effective, if they continue to show safety and efficacy like patient 1, this will be transformational.”

Dr. Markmann presented data for the most recent study visit for each of the two patients, 270 days for patient 1 and 150 days for patient 2. Prior to the transplants, patient 1 had experienced five severe hypoglycemic events and patient 2 had experienced three.

Both had undetectable C-peptide levels at baseline. In response to a mixed-meal tolerance test, patient 1 showed a “robust” C-peptide response by day 90, which increased by day 180. Those levels had dropped but were still detectable by day 270, “possibly due to improved insulin sensitivity,” Dr. Markmann said.

Similarly, Patient 2 also had increased C-peptide that increased to detectable range by day 90 with improved glucose disposal.

Hemoglobin A1c dropped in patient 1 from 8.6% at baseline to 6.9% at day 180, to a “remarkable” 5.2% at day 270. For patient 2, the drop was from 7.5% to a nadir of 6.4% by day 57, then reversing back to 7.1% at day 150.  

Both patients also had significant reductions in insulin dose. For patient 1, the dose reduction was more than 90% – from 34 units at baseline to 2.6 units by day 90. By day 210 he was able to stop insulin and by day 270 he met formal criteria for insulin independence.

Patient 2 also had a significant reduction in insulin dose, from 25.9 units to 18.7 by day 57 and remained stable thereafter, at 18.2 units by day 150.

Asked why Patient 2’s results weren’t quite as impressive as patient 1’s, Dr. Markmann replied “I think what’s important is that both patients did great. And since this was a half-dose, we might have expected that the outcome was going to be more like patient 2 rather than patient 1. So, I think we’re just going to have to [study this in] more patients to understand where it falls.” 

Although patient 1 experienced a cluster of six severe hypoglycemic events early in the posttransplant period, he had no further events after day 35. Patient 2 had no severe hypoglycemic events.

Other safety events were generally consistent with that seen with the immunosuppressive regimen in the perioperative period. Patient 1 had a “mild and self-limited” rise in liver function test and also experienced two severe adverse events: A rash from the immune suppression that resolved spontaneously, and dehydration requiring hospitalization on day 186. Patient 2’s adverse events were all mild to moderate, most commonly headache and hypomagnesemia and not related to VX-880.

Immunosuppression: Work is ongoing

The immunosuppression regimen used comprises a depletion of lymphocytes at induction, followed by a maintenance regimen of two standard agents used in kidney transplant patients and found to be well tolerated, Dr. Markmann said.

Still, the risk of immunosuppression generally outweighs the potential benefit for most people with type 1 diabetes who are managing reasonably well with insulin treatment.

“This is part one of a two-part problem. One is to have a reliable, consistent, effective cell therapy. The second is to develop an approach that doesn’t require immunosuppression. ... But if we had a way of transplanting the cells without the need for immunosuppression, then it could be really widely available. That’s an opportunity for the future since these cells can be made in unlimited quantities,” Dr. Markmann commented during the press briefing.

Asked for his thoughts about the immunosuppression aspect, Dr. Pragnell told this news organization: “Immune suppression is a concern, but I feel that this is just the start of so much research in this area. They’re going to take this step by step. This is just the start. My understanding is they have additional strategies around immune suppression, and in the future they might not even need immunosuppression. But even at this stage right now, it’s amazing.”

He added: “The ‘artificial pancreas’ is a huge step forward, but it’s just a bridge to a cure, whereas if they’re able to show safety and efficacy, this is potentially a cure. ... I’m very excited about it.”

Dr. Markmann serves on advisory boards for iTolerance, eGenesis, and QihanBio. He is a consultant to Vertex Pharmaceuticals. Dr. Pragnell is an ADA employee and has no further disclosures.

A version of this article first appeared on Medscape.com.

A novel approach that involves sensors, artificial intelligence, and real-time individualized lifestyle guidance from an app and live coaches led to a high rate of remission of type 2 diabetes in a new study.

Specifically, among 199 patients with type 2 diabetes in India who received the app-delivered lifestyle guidance developed by Twin Health, Mountain View, Calif., mean hemoglobin A1c dropped from 9.0% to 5.7% at 6 months.

This is “huge,” Paramesh Shamanna, MD, told a press briefing at the annual scientific sessions of the American Diabetes Association. The research was presented as three posters by the group at the meeting.

Patients were a mean age of 43 and had diabetes for a mean of 3.7 years and up to 8 years.

An “unprecedented” 84% of patients had remission of diabetes at 6 months, Dr. Shamanna, medical director at Twin Health, noted.

Diabetes remission was defined according to the 2021 joint consensus statement from the ADA and other organizations as an A1c less than 6.5% without the use of diabetes medications for at least 3 months.

Importantly, patients’ time in range (percentage of time spent in target blood glucose range) increased from 53% to 81%, Dr. Shamanna pointed out. On average, patients’ waist circumference decreased by 10 cm (3.9 inches) and their weight dropped from 79 kg (approximately 174 lb) to 68 kg (150 lb).

These results are driven by “the continuous individualized and precise guidance regarding nutrition, activity, and sleep,” Dr. Shamanna said in an interview.
 

Remission is not reversal or cure ...

“Remission” from type 2 diabetes is not “reversal” or a “cure,” Robert A. Gabbay, MD, PhD, chief scientific and medical officer of the ADA, stressed to the press. Just like cancer, diabetes can return after remission

Therefore, it is important to follow the lifestyle guidance. Patients may still be at risk for diabetes complications after diabetes remission, so it’s also important to continue to be screened for eye disease, nerve damage, and lipid levels.

However, “remission can be made to last,” Dr. Shamanna said, by continuing to follow the lifestyle advice and getting back on track after a relapse.

“We’re in a different time right now,” Lisa Shah, MD, chief medical officer, Twin Health, noted. “This is very different from management of blood glucose to a certain number.”

This study shows that “remission [from type 2 diabetes] is possible. How you achieve it can be precise for you.”

The program is designed to consider the health and happiness of the patient, added Shashank R. Joshi, MD, chief scientist, Twin Health. “We want remission to be complication free. These findings give patients hope.”

“It’s exciting now that we can really start thinking about remission as an option for people with [type 2] diabetes, and that just provides such incredible hope for all of those living with [type 2] diabetes,” Dr. Gabbay said in an interview.
 

How the intervention works

The Twin Precision Treatment (TPT) intervention integrates multiple data – glucose values from a continuous glucose monitor (CGM); heart rate, activity, and sleep time from a fitness tracker; blood pressure values from a blood pressure cuff; food intake from the patient’s food log; and weight and body fat data from a smart scale – and provides the patient with precise, individualized nutrition and health guidance.

The four most critical sensors are the CGM, the fitness tracker, the smart scale, and the blood pressure cuff, Dr. Shah explained. The system gathers thousands of signals combined with patient self-reported data including mood or anxiety.

The CGM is used to build the initial nutrition guidance during the first 30 days. Once a patient is in remission, he or she can just keep the fitness tracker and smart scale.

The coaches who are part of this program include dietitians who are trained to provide compassionate patient education and help patients avoid diabetes relapse, and they are overseen by a licensed provider.

The program does not restrict calories. “It is not a diet,” Dr. Shah stressed.

The algorithm makes mini adjustments to the food a person is already eating to improve nutrition, Dr. Joshi explained. “This is personalized medicine at its best.” Patients eat food that they like and are guided to make small changes to get glucose under control and avoid glucose spikes.

The program is designed to safely deescalate diabetes medications as A1c decreases, Dr. Shamanna added.

U.S. clinical trial, health insurance coverage

The 1-year results of the current trial are expected in August, and the trial will continue for 2-=5 years, Dr. Shamanna said.

The company has started a clinical trial in the United States, with 5-year results expected in 2027.

“Currently, in the United States, we are partnering with self-insured employers and select health plans that offer [Twin Precision Treatment ] as an available benefit for their members,” Dr. Shah said. It “is suitable for most members living with type 2 diabetes, with rare exclusion situations.”

The study was funded by Twin Health. Dr. Shamanna, Dr. Shah, and Dr. Joshi are employees of Twin Health.

A version of this article first appeared on Medscape.com.

A novel approach that involves sensors, artificial intelligence, and real-time individualized lifestyle guidance from an app and live coaches led to a high rate of remission of type 2 diabetes in a new study.

Specifically, among 199 patients with type 2 diabetes in India who received the app-delivered lifestyle guidance developed by Twin Health, Mountain View, Calif., mean hemoglobin A1c dropped from 9.0% to 5.7% at 6 months.

This is “huge,” Paramesh Shamanna, MD, told a press briefing at the annual scientific sessions of the American Diabetes Association. The research was presented as three posters by the group at the meeting.

Patients were a mean age of 43 and had diabetes for a mean of 3.7 years and up to 8 years.

An “unprecedented” 84% of patients had remission of diabetes at 6 months, Dr. Shamanna, medical director at Twin Health, noted.

Diabetes remission was defined according to the 2021 joint consensus statement from the ADA and other organizations as an A1c less than 6.5% without the use of diabetes medications for at least 3 months.

Importantly, patients’ time in range (percentage of time spent in target blood glucose range) increased from 53% to 81%, Dr. Shamanna pointed out. On average, patients’ waist circumference decreased by 10 cm (3.9 inches) and their weight dropped from 79 kg (approximately 174 lb) to 68 kg (150 lb).

These results are driven by “the continuous individualized and precise guidance regarding nutrition, activity, and sleep,” Dr. Shamanna said in an interview.
 

Remission is not reversal or cure ...

“Remission” from type 2 diabetes is not “reversal” or a “cure,” Robert A. Gabbay, MD, PhD, chief scientific and medical officer of the ADA, stressed to the press. Just like cancer, diabetes can return after remission

Therefore, it is important to follow the lifestyle guidance. Patients may still be at risk for diabetes complications after diabetes remission, so it’s also important to continue to be screened for eye disease, nerve damage, and lipid levels.

However, “remission can be made to last,” Dr. Shamanna said, by continuing to follow the lifestyle advice and getting back on track after a relapse.

“We’re in a different time right now,” Lisa Shah, MD, chief medical officer, Twin Health, noted. “This is very different from management of blood glucose to a certain number.”

This study shows that “remission [from type 2 diabetes] is possible. How you achieve it can be precise for you.”

The program is designed to consider the health and happiness of the patient, added Shashank R. Joshi, MD, chief scientist, Twin Health. “We want remission to be complication free. These findings give patients hope.”

“It’s exciting now that we can really start thinking about remission as an option for people with [type 2] diabetes, and that just provides such incredible hope for all of those living with [type 2] diabetes,” Dr. Gabbay said in an interview.
 

How the intervention works

The Twin Precision Treatment (TPT) intervention integrates multiple data – glucose values from a continuous glucose monitor (CGM); heart rate, activity, and sleep time from a fitness tracker; blood pressure values from a blood pressure cuff; food intake from the patient’s food log; and weight and body fat data from a smart scale – and provides the patient with precise, individualized nutrition and health guidance.

The four most critical sensors are the CGM, the fitness tracker, the smart scale, and the blood pressure cuff, Dr. Shah explained. The system gathers thousands of signals combined with patient self-reported data including mood or anxiety.

The CGM is used to build the initial nutrition guidance during the first 30 days. Once a patient is in remission, he or she can just keep the fitness tracker and smart scale.

The coaches who are part of this program include dietitians who are trained to provide compassionate patient education and help patients avoid diabetes relapse, and they are overseen by a licensed provider.

The program does not restrict calories. “It is not a diet,” Dr. Shah stressed.

The algorithm makes mini adjustments to the food a person is already eating to improve nutrition, Dr. Joshi explained. “This is personalized medicine at its best.” Patients eat food that they like and are guided to make small changes to get glucose under control and avoid glucose spikes.

The program is designed to safely deescalate diabetes medications as A1c decreases, Dr. Shamanna added.

U.S. clinical trial, health insurance coverage

The 1-year results of the current trial are expected in August, and the trial will continue for 2-=5 years, Dr. Shamanna said.

The company has started a clinical trial in the United States, with 5-year results expected in 2027.

“Currently, in the United States, we are partnering with self-insured employers and select health plans that offer [Twin Precision Treatment ] as an available benefit for their members,” Dr. Shah said. It “is suitable for most members living with type 2 diabetes, with rare exclusion situations.”

The study was funded by Twin Health. Dr. Shamanna, Dr. Shah, and Dr. Joshi are employees of Twin Health.

A version of this article first appeared on Medscape.com.

A novel approach that involves sensors, artificial intelligence, and real-time individualized lifestyle guidance from an app and live coaches led to a high rate of remission of type 2 diabetes in a new study.

Specifically, among 199 patients with type 2 diabetes in India who received the app-delivered lifestyle guidance developed by Twin Health, Mountain View, Calif., mean hemoglobin A1c dropped from 9.0% to 5.7% at 6 months.

This is “huge,” Paramesh Shamanna, MD, told a press briefing at the annual scientific sessions of the American Diabetes Association. The research was presented as three posters by the group at the meeting.

Patients were a mean age of 43 and had diabetes for a mean of 3.7 years and up to 8 years.

An “unprecedented” 84% of patients had remission of diabetes at 6 months, Dr. Shamanna, medical director at Twin Health, noted.

Diabetes remission was defined according to the 2021 joint consensus statement from the ADA and other organizations as an A1c less than 6.5% without the use of diabetes medications for at least 3 months.

Importantly, patients’ time in range (percentage of time spent in target blood glucose range) increased from 53% to 81%, Dr. Shamanna pointed out. On average, patients’ waist circumference decreased by 10 cm (3.9 inches) and their weight dropped from 79 kg (approximately 174 lb) to 68 kg (150 lb).

These results are driven by “the continuous individualized and precise guidance regarding nutrition, activity, and sleep,” Dr. Shamanna said in an interview.
 

Remission is not reversal or cure ...

“Remission” from type 2 diabetes is not “reversal” or a “cure,” Robert A. Gabbay, MD, PhD, chief scientific and medical officer of the ADA, stressed to the press. Just like cancer, diabetes can return after remission

Therefore, it is important to follow the lifestyle guidance. Patients may still be at risk for diabetes complications after diabetes remission, so it’s also important to continue to be screened for eye disease, nerve damage, and lipid levels.

However, “remission can be made to last,” Dr. Shamanna said, by continuing to follow the lifestyle advice and getting back on track after a relapse.

“We’re in a different time right now,” Lisa Shah, MD, chief medical officer, Twin Health, noted. “This is very different from management of blood glucose to a certain number.”

This study shows that “remission [from type 2 diabetes] is possible. How you achieve it can be precise for you.”

The program is designed to consider the health and happiness of the patient, added Shashank R. Joshi, MD, chief scientist, Twin Health. “We want remission to be complication free. These findings give patients hope.”

“It’s exciting now that we can really start thinking about remission as an option for people with [type 2] diabetes, and that just provides such incredible hope for all of those living with [type 2] diabetes,” Dr. Gabbay said in an interview.
 

How the intervention works

The Twin Precision Treatment (TPT) intervention integrates multiple data – glucose values from a continuous glucose monitor (CGM); heart rate, activity, and sleep time from a fitness tracker; blood pressure values from a blood pressure cuff; food intake from the patient’s food log; and weight and body fat data from a smart scale – and provides the patient with precise, individualized nutrition and health guidance.

The four most critical sensors are the CGM, the fitness tracker, the smart scale, and the blood pressure cuff, Dr. Shah explained. The system gathers thousands of signals combined with patient self-reported data including mood or anxiety.

The CGM is used to build the initial nutrition guidance during the first 30 days. Once a patient is in remission, he or she can just keep the fitness tracker and smart scale.

The coaches who are part of this program include dietitians who are trained to provide compassionate patient education and help patients avoid diabetes relapse, and they are overseen by a licensed provider.

The program does not restrict calories. “It is not a diet,” Dr. Shah stressed.

The algorithm makes mini adjustments to the food a person is already eating to improve nutrition, Dr. Joshi explained. “This is personalized medicine at its best.” Patients eat food that they like and are guided to make small changes to get glucose under control and avoid glucose spikes.

The program is designed to safely deescalate diabetes medications as A1c decreases, Dr. Shamanna added.

U.S. clinical trial, health insurance coverage

The 1-year results of the current trial are expected in August, and the trial will continue for 2-=5 years, Dr. Shamanna said.

The company has started a clinical trial in the United States, with 5-year results expected in 2027.

“Currently, in the United States, we are partnering with self-insured employers and select health plans that offer [Twin Precision Treatment ] as an available benefit for their members,” Dr. Shah said. It “is suitable for most members living with type 2 diabetes, with rare exclusion situations.”

The study was funded by Twin Health. Dr. Shamanna, Dr. Shah, and Dr. Joshi are employees of Twin Health.

A version of this article first appeared on Medscape.com.