Endocrinology

Nearly half of hospitalized COVID-19 patients without a prior diabetes diagnosis have hyperglycemia, and the latter is an independent predictor of mortality at 28 days, new research indicates.

The findings, from a retrospective analysis of 605 patients with COVID-19 seen at two hospitals in Wuhan, China, were published online July 10 in Diabetologia by Sufei Wang, of the department of respiratory and critical care medicine, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, and colleagues.

Several previous studies have demonstrated a link between hyperglycemia and worse outcomes in COVID-19, and at least one diabetes diagnosis, but this is the first to focus specifically on that group of patients.

Wang and colleagues found that a fasting blood glucose of 7.0 mmol/L (126 mg/dL) or greater on admission – present in 45.6% of those without a prior diabetes diagnosis – was an independent predictor of 28-day mortality.

Although A1c data weren’t analyzed, the population is believed to include both individuals with preexisting but undiagnosed diabetes and those without diabetes who have acute stress hyperglycemia.

“Glycemic testing and control should be recommended for all COVID-19 patients even if they do not have preexisting diabetes, as most COVID-19 patients are prone to glucose metabolic disorders,” they emphasized.

“Addressing elevated fasting blood glucose at an early stage can help clinicians better manage the condition and lower the mortality risk of COVID-19 patients,” Wang and colleagues noted.
 

Hyperglycemia predicts COVID-19 death, complications

The study involved consecutive patients with COVID-19 and definitive 28-day outcome and fasting blood glucose measurement on admission to two Wuhan-area hospitals between Jan. 24 to Feb. 10, 2020. A total of 605 patients did not have a previous diabetes diagnosis. They were a median age of 59 years and 53.2% were men.

Just over half, 54.4%, had a fasting blood glucose below 6.1 mmol/L (110.0 mg/dL). The rest had dysglycemia: 16.5% had a fasting blood glucose of 6.1-6.9 mmol/L (110-125 mg/dL), considered the prediabetes range, and 29.1% had a fasting blood glucose of 7 mmol/L (126 mg/dL) or above, the cutoff for diabetes.

“These results indicate that our study included both undiagnosed diabetic patients and nondiabetic patients with hyperglycemia caused by an acute blood glucose disorder,” the authors noted.

Over 28 days of hospitalization, 18.8% (114) of the patients died and 39.2% developed one or more in-hospital complications. 

The authors used the CRB-65 score, which assigns 1 point for each of four indicators – confusion, respiratory rate >30 breaths/min, systolic blood pressure ≤90 mm Hg or diastolic blood pressure ≤60 mm Hg, and age ≥65 years – to assess pneumonia severity.

Just over half, 55.2%, had a CRB-65 score of 0, 43.1% had a score of 1-2, and 1.7% had a score of 3-4.

In multivariable analysis, significant independent predictors of 28-day mortality were age (hazard ratio, 1.02), male sex (HR, 1.75), CRB-65 score 1-2 (HR, 2.68), CRB-65 score 3-4 (HR, 5.25), and fasting blood glucose ≥7.0 mmol/L (HR, 2.30).

Compared with patients with normal glucose (<6.1 mmol/L), 28-day mortality was twice as high (HR, 2.06) for those with a fasting blood glucose of 6.1-6.9 mmol/L and more than threefold higher for ≥7.0 mmol/L (HR, 3.54).

Pneumonia severity also predicted 28-day mortality, with hazard ratios of 4.35 and 13.80 for patients with CRB-65 scores of 1-2 and 3-4, respectively, compared with 0.

Inhospital complications, including acute respiratory distress syndrome or acute cardiac, kidney, or liver injury or cerebrovascular accident, occurred in 14.2%, 7.9%, and 17.0% of those in the lowest to highest fasting blood glucose groups.

Complications were more than twice as common in patients with a fasting blood glucose of 6.1-6.9 mmol/L (HR, 2.61) and four times more common (HR, 3.99) among those with a fasting blood glucose ≥7.0 mmol/L, compared with those with normoglycemia.

The study was supported by the National Natural Science Foundation of China and Major Projects of the National Science and Technology. The authors have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Nearly half of hospitalized COVID-19 patients without a prior diabetes diagnosis have hyperglycemia, and the latter is an independent predictor of mortality at 28 days, new research indicates.

The findings, from a retrospective analysis of 605 patients with COVID-19 seen at two hospitals in Wuhan, China, were published online July 10 in Diabetologia by Sufei Wang, of the department of respiratory and critical care medicine, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, and colleagues.

Several previous studies have demonstrated a link between hyperglycemia and worse outcomes in COVID-19, and at least one diabetes diagnosis, but this is the first to focus specifically on that group of patients.

Wang and colleagues found that a fasting blood glucose of 7.0 mmol/L (126 mg/dL) or greater on admission – present in 45.6% of those without a prior diabetes diagnosis – was an independent predictor of 28-day mortality.

Although A1c data weren’t analyzed, the population is believed to include both individuals with preexisting but undiagnosed diabetes and those without diabetes who have acute stress hyperglycemia.

“Glycemic testing and control should be recommended for all COVID-19 patients even if they do not have preexisting diabetes, as most COVID-19 patients are prone to glucose metabolic disorders,” they emphasized.

“Addressing elevated fasting blood glucose at an early stage can help clinicians better manage the condition and lower the mortality risk of COVID-19 patients,” Wang and colleagues noted.
 

Hyperglycemia predicts COVID-19 death, complications

The study involved consecutive patients with COVID-19 and definitive 28-day outcome and fasting blood glucose measurement on admission to two Wuhan-area hospitals between Jan. 24 to Feb. 10, 2020. A total of 605 patients did not have a previous diabetes diagnosis. They were a median age of 59 years and 53.2% were men.

Just over half, 54.4%, had a fasting blood glucose below 6.1 mmol/L (110.0 mg/dL). The rest had dysglycemia: 16.5% had a fasting blood glucose of 6.1-6.9 mmol/L (110-125 mg/dL), considered the prediabetes range, and 29.1% had a fasting blood glucose of 7 mmol/L (126 mg/dL) or above, the cutoff for diabetes.

“These results indicate that our study included both undiagnosed diabetic patients and nondiabetic patients with hyperglycemia caused by an acute blood glucose disorder,” the authors noted.

Over 28 days of hospitalization, 18.8% (114) of the patients died and 39.2% developed one or more in-hospital complications. 

The authors used the CRB-65 score, which assigns 1 point for each of four indicators – confusion, respiratory rate >30 breaths/min, systolic blood pressure ≤90 mm Hg or diastolic blood pressure ≤60 mm Hg, and age ≥65 years – to assess pneumonia severity.

Just over half, 55.2%, had a CRB-65 score of 0, 43.1% had a score of 1-2, and 1.7% had a score of 3-4.

In multivariable analysis, significant independent predictors of 28-day mortality were age (hazard ratio, 1.02), male sex (HR, 1.75), CRB-65 score 1-2 (HR, 2.68), CRB-65 score 3-4 (HR, 5.25), and fasting blood glucose ≥7.0 mmol/L (HR, 2.30).

Compared with patients with normal glucose (<6.1 mmol/L), 28-day mortality was twice as high (HR, 2.06) for those with a fasting blood glucose of 6.1-6.9 mmol/L and more than threefold higher for ≥7.0 mmol/L (HR, 3.54).

Pneumonia severity also predicted 28-day mortality, with hazard ratios of 4.35 and 13.80 for patients with CRB-65 scores of 1-2 and 3-4, respectively, compared with 0.

Inhospital complications, including acute respiratory distress syndrome or acute cardiac, kidney, or liver injury or cerebrovascular accident, occurred in 14.2%, 7.9%, and 17.0% of those in the lowest to highest fasting blood glucose groups.

Complications were more than twice as common in patients with a fasting blood glucose of 6.1-6.9 mmol/L (HR, 2.61) and four times more common (HR, 3.99) among those with a fasting blood glucose ≥7.0 mmol/L, compared with those with normoglycemia.

The study was supported by the National Natural Science Foundation of China and Major Projects of the National Science and Technology. The authors have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Nearly half of hospitalized COVID-19 patients without a prior diabetes diagnosis have hyperglycemia, and the latter is an independent predictor of mortality at 28 days, new research indicates.

The findings, from a retrospective analysis of 605 patients with COVID-19 seen at two hospitals in Wuhan, China, were published online July 10 in Diabetologia by Sufei Wang, of the department of respiratory and critical care medicine, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, and colleagues.

Several previous studies have demonstrated a link between hyperglycemia and worse outcomes in COVID-19, and at least one diabetes diagnosis, but this is the first to focus specifically on that group of patients.

Wang and colleagues found that a fasting blood glucose of 7.0 mmol/L (126 mg/dL) or greater on admission – present in 45.6% of those without a prior diabetes diagnosis – was an independent predictor of 28-day mortality.

Although A1c data weren’t analyzed, the population is believed to include both individuals with preexisting but undiagnosed diabetes and those without diabetes who have acute stress hyperglycemia.

“Glycemic testing and control should be recommended for all COVID-19 patients even if they do not have preexisting diabetes, as most COVID-19 patients are prone to glucose metabolic disorders,” they emphasized.

“Addressing elevated fasting blood glucose at an early stage can help clinicians better manage the condition and lower the mortality risk of COVID-19 patients,” Wang and colleagues noted.
 

Hyperglycemia predicts COVID-19 death, complications

The study involved consecutive patients with COVID-19 and definitive 28-day outcome and fasting blood glucose measurement on admission to two Wuhan-area hospitals between Jan. 24 to Feb. 10, 2020. A total of 605 patients did not have a previous diabetes diagnosis. They were a median age of 59 years and 53.2% were men.

Just over half, 54.4%, had a fasting blood glucose below 6.1 mmol/L (110.0 mg/dL). The rest had dysglycemia: 16.5% had a fasting blood glucose of 6.1-6.9 mmol/L (110-125 mg/dL), considered the prediabetes range, and 29.1% had a fasting blood glucose of 7 mmol/L (126 mg/dL) or above, the cutoff for diabetes.

“These results indicate that our study included both undiagnosed diabetic patients and nondiabetic patients with hyperglycemia caused by an acute blood glucose disorder,” the authors noted.

Over 28 days of hospitalization, 18.8% (114) of the patients died and 39.2% developed one or more in-hospital complications. 

The authors used the CRB-65 score, which assigns 1 point for each of four indicators – confusion, respiratory rate >30 breaths/min, systolic blood pressure ≤90 mm Hg or diastolic blood pressure ≤60 mm Hg, and age ≥65 years – to assess pneumonia severity.

Just over half, 55.2%, had a CRB-65 score of 0, 43.1% had a score of 1-2, and 1.7% had a score of 3-4.

In multivariable analysis, significant independent predictors of 28-day mortality were age (hazard ratio, 1.02), male sex (HR, 1.75), CRB-65 score 1-2 (HR, 2.68), CRB-65 score 3-4 (HR, 5.25), and fasting blood glucose ≥7.0 mmol/L (HR, 2.30).

Compared with patients with normal glucose (<6.1 mmol/L), 28-day mortality was twice as high (HR, 2.06) for those with a fasting blood glucose of 6.1-6.9 mmol/L and more than threefold higher for ≥7.0 mmol/L (HR, 3.54).

Pneumonia severity also predicted 28-day mortality, with hazard ratios of 4.35 and 13.80 for patients with CRB-65 scores of 1-2 and 3-4, respectively, compared with 0.

Inhospital complications, including acute respiratory distress syndrome or acute cardiac, kidney, or liver injury or cerebrovascular accident, occurred in 14.2%, 7.9%, and 17.0% of those in the lowest to highest fasting blood glucose groups.

Complications were more than twice as common in patients with a fasting blood glucose of 6.1-6.9 mmol/L (HR, 2.61) and four times more common (HR, 3.99) among those with a fasting blood glucose ≥7.0 mmol/L, compared with those with normoglycemia.

The study was supported by the National Natural Science Foundation of China and Major Projects of the National Science and Technology. The authors have reported no relevant financial relationships.

This article first appeared on Medscape.com.

Diabetes was by far the most common delayed pediatric presentation in emergency care during the COVID-19 pandemic, according to a snapshot survey of nearly 2,500 pediatricians in the United Kingdom and Ireland.

There were also nine deaths where delayed presentation was considered a contributing factor, resulting mainly from sepsis and malignancy.

By comparison, over the same 2-week period of the survey there were three child deaths from COVID-19 directly, according to senior study author Shamez Ladhani, MRCPCH, PhD, chair of the British Paediatric Surveillance Unit (BPSU), Royal College of Paediatrics and Child Health, London.

“The unintended consequences of COVID are far greater, in children, than the disease itself. The way we are trying to prevent this is causing more harm than the disease,” he lamented.

One-third of senior U.K. pediatric specialists who responded to the survey reported dealing with so-called emergency delayed presentations in children who they would normally have expected to present much earlier.

After diabetes, the most commonly reported delayed diagnoses were sepsis and child protection issues. Cancer also featured prominently.

“We’ve found that there is great concern that children are not accessing healthcare as they should during lockdown and after,” Dr. Ladhani stressed. “Our emergency departments saw a 50% reduction during the peak, and now it is still 40% less than expected. The problem is improving but it remains.”

The survey findings were recently published online in Archives of Disease in Childhood, by first author Richard M. Lynn, MSc, of the Institute of Child Health, department of epidemiology and public health, University College London Research, and colleagues.
 

New diabetes cases presented very late during lockdown

Over the 2-week reporting period in mid-April 2020, type 1 diabetes was the most frequently reported delayed diagnosis, with 44 cases overall, 23 of which involved diabetic ketoacidosis.

“If you talk to the diabetes specialists, they tell us that generally, most cases of new diabetes arrive late because it has very nonspecific symptoms,” Dr. Ladhani explained.

However, he added, “pediatricians on the frontline know what to expect with diabetes. Those children who would have come in late prior to the pandemic are now arriving very late. Those consultants surveyed were not junior doctors but consultant pediatricians with many years of experience.”

In a recent article looking at pediatric delayed presentations, one patient with diabetes entered intensive care, and the BPSU report recorded one death possibly associated with diabetes, Dr. Ladhani pointed out.

“Pediatricians are worried that children are coming in late. We need to raise awareness that parents need to access healthcare and this message needs to go out now,” he said. “We can’t wait until a second wave. It has to be now because A&E [accident and emergency] attendance is still 40% [lower than] ... expected.”
 

BPSU survey covers over 90% of pediatricians in U.K. and Ireland

After numerous anecdotal reports of delayed presentations in the United Kingdom and abroad, the snapshot survey was conducted as part of routine monthly reports where pediatricians are asked to document any cases of rare conditions seen.

“We had heard stories of delayed presentations, but we wanted to know was this a real problem or just anecdotal?” Dr. Ladhani said.

The regular BPSU survey covers over 90% of U.K.- and Ireland-based pediatric consultants (numbering 4,075). On the back of this established communication, the BPSU decided to gauge the extent of delayed presentations during the peak weeks of the COVID-19 pandemic.

Over the next 7 days, 2,433 pediatricians, representing 60% of BPSU participants, responded.

“This response rate in 7 days highlights the importance given to the survey by pediatricians ... and the widespread professional concern about delayed presentations,” the authors wrote.

Participants were asked whether they had seen any children during the previous 14 days who, in their opinion, presented later than they would have expected prior to the COVID-19 pandemic.

“There’s no one definition for this but these senior clinicians know when something is unusual,” said Dr. Ladhani.

ED attendances were compared with figures for the same period last year. Overall, a total of 32% of 752 pediatricians working in EDs and pediatric assessment units reported witnessing delayed presentations, with 57 (8%) reporting at least three patients with delayed presentation.

“It was clear that those doctors on the frontline were seeing a lot of delayed presentations. Also, neonatologists reported women arriving late for labor, and community physicians said they just weren’t witnessing child protection cases anymore,” added Dr. Ladhani.

Other issues included early discharges following births because of COVID-19 concerns, before feeding had been established, prompting return visits because of feeding problems and dehydration.

The top five delayed diagnoses were diabetes (n = 44), sepsis (n = 21), child protection (n = 14), malignancy (n = 8), and appendicitis (n = 6). There were 10 delayed perinatal presentations.

Of the nine deaths, for which delayed presentation was considered to play a role, three were caused by sepsis, three were caused by new malignancy diagnoses, one was caused by new diagnosis of metabolic disease, and two did not have the cause reported.

The delays in presentation are likely to have been influenced by the U.K. government’s message to “stay at home” during the strict lockdown period, which perhaps was sometimes interpreted too literally, Dr. Ladhani suggested. “It was the right message socially, but not medically.”

Russell Viner, MB, PhD, president of the Royal College of Paediatrics and Child Health, said in a statement: “The impact for children is what we call ‘collateral damage’, including long absences from school and delays or interruptions to vital services. We know that parents adhered very strongly to the ‘stay at home’ [message] and we need to say clearly that this doesn’t apply if your child is very sick. Should we experience a second wave or regional outbreaks, it is vital that we get the message out to parents that we want to see unwell children at the earliest possible stage.”

Dr. Ladhani reported no relevant financial relationships.

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

Diabetes was by far the most common delayed pediatric presentation in emergency care during the COVID-19 pandemic, according to a snapshot survey of nearly 2,500 pediatricians in the United Kingdom and Ireland.

There were also nine deaths where delayed presentation was considered a contributing factor, resulting mainly from sepsis and malignancy.

By comparison, over the same 2-week period of the survey there were three child deaths from COVID-19 directly, according to senior study author Shamez Ladhani, MRCPCH, PhD, chair of the British Paediatric Surveillance Unit (BPSU), Royal College of Paediatrics and Child Health, London.

“The unintended consequences of COVID are far greater, in children, than the disease itself. The way we are trying to prevent this is causing more harm than the disease,” he lamented.

One-third of senior U.K. pediatric specialists who responded to the survey reported dealing with so-called emergency delayed presentations in children who they would normally have expected to present much earlier.

After diabetes, the most commonly reported delayed diagnoses were sepsis and child protection issues. Cancer also featured prominently.

“We’ve found that there is great concern that children are not accessing healthcare as they should during lockdown and after,” Dr. Ladhani stressed. “Our emergency departments saw a 50% reduction during the peak, and now it is still 40% less than expected. The problem is improving but it remains.”

The survey findings were recently published online in Archives of Disease in Childhood, by first author Richard M. Lynn, MSc, of the Institute of Child Health, department of epidemiology and public health, University College London Research, and colleagues.
 

New diabetes cases presented very late during lockdown

Over the 2-week reporting period in mid-April 2020, type 1 diabetes was the most frequently reported delayed diagnosis, with 44 cases overall, 23 of which involved diabetic ketoacidosis.

“If you talk to the diabetes specialists, they tell us that generally, most cases of new diabetes arrive late because it has very nonspecific symptoms,” Dr. Ladhani explained.

However, he added, “pediatricians on the frontline know what to expect with diabetes. Those children who would have come in late prior to the pandemic are now arriving very late. Those consultants surveyed were not junior doctors but consultant pediatricians with many years of experience.”

In a recent article looking at pediatric delayed presentations, one patient with diabetes entered intensive care, and the BPSU report recorded one death possibly associated with diabetes, Dr. Ladhani pointed out.

“Pediatricians are worried that children are coming in late. We need to raise awareness that parents need to access healthcare and this message needs to go out now,” he said. “We can’t wait until a second wave. It has to be now because A&E [accident and emergency] attendance is still 40% [lower than] ... expected.”
 

BPSU survey covers over 90% of pediatricians in U.K. and Ireland

After numerous anecdotal reports of delayed presentations in the United Kingdom and abroad, the snapshot survey was conducted as part of routine monthly reports where pediatricians are asked to document any cases of rare conditions seen.

“We had heard stories of delayed presentations, but we wanted to know was this a real problem or just anecdotal?” Dr. Ladhani said.

The regular BPSU survey covers over 90% of U.K.- and Ireland-based pediatric consultants (numbering 4,075). On the back of this established communication, the BPSU decided to gauge the extent of delayed presentations during the peak weeks of the COVID-19 pandemic.

Over the next 7 days, 2,433 pediatricians, representing 60% of BPSU participants, responded.

“This response rate in 7 days highlights the importance given to the survey by pediatricians ... and the widespread professional concern about delayed presentations,” the authors wrote.

Participants were asked whether they had seen any children during the previous 14 days who, in their opinion, presented later than they would have expected prior to the COVID-19 pandemic.

“There’s no one definition for this but these senior clinicians know when something is unusual,” said Dr. Ladhani.

ED attendances were compared with figures for the same period last year. Overall, a total of 32% of 752 pediatricians working in EDs and pediatric assessment units reported witnessing delayed presentations, with 57 (8%) reporting at least three patients with delayed presentation.

“It was clear that those doctors on the frontline were seeing a lot of delayed presentations. Also, neonatologists reported women arriving late for labor, and community physicians said they just weren’t witnessing child protection cases anymore,” added Dr. Ladhani.

Other issues included early discharges following births because of COVID-19 concerns, before feeding had been established, prompting return visits because of feeding problems and dehydration.

The top five delayed diagnoses were diabetes (n = 44), sepsis (n = 21), child protection (n = 14), malignancy (n = 8), and appendicitis (n = 6). There were 10 delayed perinatal presentations.

Of the nine deaths, for which delayed presentation was considered to play a role, three were caused by sepsis, three were caused by new malignancy diagnoses, one was caused by new diagnosis of metabolic disease, and two did not have the cause reported.

The delays in presentation are likely to have been influenced by the U.K. government’s message to “stay at home” during the strict lockdown period, which perhaps was sometimes interpreted too literally, Dr. Ladhani suggested. “It was the right message socially, but not medically.”

Russell Viner, MB, PhD, president of the Royal College of Paediatrics and Child Health, said in a statement: “The impact for children is what we call ‘collateral damage’, including long absences from school and delays or interruptions to vital services. We know that parents adhered very strongly to the ‘stay at home’ [message] and we need to say clearly that this doesn’t apply if your child is very sick. Should we experience a second wave or regional outbreaks, it is vital that we get the message out to parents that we want to see unwell children at the earliest possible stage.”

Dr. Ladhani reported no relevant financial relationships.

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

Diabetes was by far the most common delayed pediatric presentation in emergency care during the COVID-19 pandemic, according to a snapshot survey of nearly 2,500 pediatricians in the United Kingdom and Ireland.

There were also nine deaths where delayed presentation was considered a contributing factor, resulting mainly from sepsis and malignancy.

By comparison, over the same 2-week period of the survey there were three child deaths from COVID-19 directly, according to senior study author Shamez Ladhani, MRCPCH, PhD, chair of the British Paediatric Surveillance Unit (BPSU), Royal College of Paediatrics and Child Health, London.

“The unintended consequences of COVID are far greater, in children, than the disease itself. The way we are trying to prevent this is causing more harm than the disease,” he lamented.

One-third of senior U.K. pediatric specialists who responded to the survey reported dealing with so-called emergency delayed presentations in children who they would normally have expected to present much earlier.

After diabetes, the most commonly reported delayed diagnoses were sepsis and child protection issues. Cancer also featured prominently.

“We’ve found that there is great concern that children are not accessing healthcare as they should during lockdown and after,” Dr. Ladhani stressed. “Our emergency departments saw a 50% reduction during the peak, and now it is still 40% less than expected. The problem is improving but it remains.”

The survey findings were recently published online in Archives of Disease in Childhood, by first author Richard M. Lynn, MSc, of the Institute of Child Health, department of epidemiology and public health, University College London Research, and colleagues.
 

New diabetes cases presented very late during lockdown

Over the 2-week reporting period in mid-April 2020, type 1 diabetes was the most frequently reported delayed diagnosis, with 44 cases overall, 23 of which involved diabetic ketoacidosis.

“If you talk to the diabetes specialists, they tell us that generally, most cases of new diabetes arrive late because it has very nonspecific symptoms,” Dr. Ladhani explained.

However, he added, “pediatricians on the frontline know what to expect with diabetes. Those children who would have come in late prior to the pandemic are now arriving very late. Those consultants surveyed were not junior doctors but consultant pediatricians with many years of experience.”

In a recent article looking at pediatric delayed presentations, one patient with diabetes entered intensive care, and the BPSU report recorded one death possibly associated with diabetes, Dr. Ladhani pointed out.

“Pediatricians are worried that children are coming in late. We need to raise awareness that parents need to access healthcare and this message needs to go out now,” he said. “We can’t wait until a second wave. It has to be now because A&E [accident and emergency] attendance is still 40% [lower than] ... expected.”
 

BPSU survey covers over 90% of pediatricians in U.K. and Ireland

After numerous anecdotal reports of delayed presentations in the United Kingdom and abroad, the snapshot survey was conducted as part of routine monthly reports where pediatricians are asked to document any cases of rare conditions seen.

“We had heard stories of delayed presentations, but we wanted to know was this a real problem or just anecdotal?” Dr. Ladhani said.

The regular BPSU survey covers over 90% of U.K.- and Ireland-based pediatric consultants (numbering 4,075). On the back of this established communication, the BPSU decided to gauge the extent of delayed presentations during the peak weeks of the COVID-19 pandemic.

Over the next 7 days, 2,433 pediatricians, representing 60% of BPSU participants, responded.

“This response rate in 7 days highlights the importance given to the survey by pediatricians ... and the widespread professional concern about delayed presentations,” the authors wrote.

Participants were asked whether they had seen any children during the previous 14 days who, in their opinion, presented later than they would have expected prior to the COVID-19 pandemic.

“There’s no one definition for this but these senior clinicians know when something is unusual,” said Dr. Ladhani.

ED attendances were compared with figures for the same period last year. Overall, a total of 32% of 752 pediatricians working in EDs and pediatric assessment units reported witnessing delayed presentations, with 57 (8%) reporting at least three patients with delayed presentation.

“It was clear that those doctors on the frontline were seeing a lot of delayed presentations. Also, neonatologists reported women arriving late for labor, and community physicians said they just weren’t witnessing child protection cases anymore,” added Dr. Ladhani.

Other issues included early discharges following births because of COVID-19 concerns, before feeding had been established, prompting return visits because of feeding problems and dehydration.

The top five delayed diagnoses were diabetes (n = 44), sepsis (n = 21), child protection (n = 14), malignancy (n = 8), and appendicitis (n = 6). There were 10 delayed perinatal presentations.

Of the nine deaths, for which delayed presentation was considered to play a role, three were caused by sepsis, three were caused by new malignancy diagnoses, one was caused by new diagnosis of metabolic disease, and two did not have the cause reported.

The delays in presentation are likely to have been influenced by the U.K. government’s message to “stay at home” during the strict lockdown period, which perhaps was sometimes interpreted too literally, Dr. Ladhani suggested. “It was the right message socially, but not medically.”

Russell Viner, MB, PhD, president of the Royal College of Paediatrics and Child Health, said in a statement: “The impact for children is what we call ‘collateral damage’, including long absences from school and delays or interruptions to vital services. We know that parents adhered very strongly to the ‘stay at home’ [message] and we need to say clearly that this doesn’t apply if your child is very sick. Should we experience a second wave or regional outbreaks, it is vital that we get the message out to parents that we want to see unwell children at the earliest possible stage.”

Dr. Ladhani reported no relevant financial relationships.

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

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Captopril appears to be associated with a higher rate of pulmonary adverse reactions in patients with diabetes than that of other ACE inhibitors or angiotensin receptor blockers (ARBs) and therefore may not be the best choice for patients with diabetes and COVID-19, a new study suggests.

The study was published online in the Journal of the American Pharmacists Association.

The authors, led by Emma G. Stafford, PharmD, University of Missouri-Kansas City School of Pharmacy, note that diabetes seems to confer a higher risk of adverse outcomes in COVID-19 infection and there is conflicting data on the contribution of ACE inhibitors and ARBs, commonly used medications in diabetes, on the mortality and morbidity of COVID-19.

“In light of the recent COVID-19 outbreak, more research is needed to understand the effects that diabetes (and its medications) may have on the respiratory system and how that could affect the management of diseases such as COVID-19,” they say.

“Although ACE inhibitors and ARBs are generally considered to have similar adverse event profiles, evaluation of postmarketing adverse events may shed light on minute differences that could have important clinical impacts,” they add.

For the current study, the researchers analyzed data from multiple publicly available data sources on adverse drug reactions in patients with diabetes taking ACE inhibitors or ARBs. The data included all adverse drug events (ADEs) reported nationally to the US Food and Drug Administration and internationally to the Medical Dictionary for Regulatory Activities (MedDRA).

Results showed that captopril, the first ACE inhibitor approved back in 1981, has a higher incidence of pulmonary ADEs in patients with diabetes as compared with other ACE-inhibitor drugs (P = .005) as well as a statistically significant difference in pulmonary events compared with ARBs (P = .012).

“These analyses suggest that pharmacists and clinicians will need to consider the specific medication’s adverse event profile, particularly captopril, on how it may affect infections and other acute disease states that alter pulmonary function, such as COVID-19,” the authors conclude.

They say that the high incidence of pulmonary adverse drug effects with captopril “highlights the fact that the drugs belonging in one class are not identical and that its pharmacokinetics and pharmacodynamics can affect the patients’ health especially during acute processes like COVID-19.”

“This is especially important as current observational studies of COVID-19 patients tend to group drugs within a class and are not analyzing the potential differences within each class,” they add.

They note that ACE inhibitors can be broadly classified into 3 structural classes: sulfhydryl-, dicarboxyl-, and phosphorous- containing molecules. Notably, captopril is the only currently available ACE inhibitor belonging to the sulfhydryl-containing class and may explain the higher incidence of adverse drug effects observed, they comment.

“Health care providers have been left with many questions when treating patients with COVID-19, including how ACE inhibitors or ARBs may affect their clinical course. Results from this study may be helpful when prescribing or continuing ACE inhibitors or ARBs for patients with diabetes and infections or illnesses that may affect pulmonary function, such as COVID-19,” they conclude.

Questioning safety in COVID-19 an “overreach”

Commenting for Medscape Medical News, Michael A. Weber, MD, professor of medicine at State University of New York, said he thought the current article appears to overreach in questioning captopril’s safety in the COVID-19 setting.

“Captopril was the first ACE inhibitor available for clinical use. In early prescribing its dosage was not well understood and it might have been administered in excessive amounts,” Weber notes.

“There were some renal and other adverse effects reported that at first were attributed to the fact that captopril, unlike any other popular ACE inhibitors, contained a sulfhydryl (SH) group in its molecule,” he said. “It is not clear whether this feature could be responsible for the increased pulmonary side effects and potential danger to COVID-19 patients now reported with captopril in this new pharmacy article.”

But he adds: “The article contains no evidence that the effect of captopril or any other ACE inhibitor on the pulmonary ACE-2 enzyme has a deleterious effect on outcomes of COVID-19 disease. In any case, captopril — which should be prescribed in a twice-daily dose — is not frequently prescribed these days since newer ACE inhibitors are effective with just once-daily dosing.”

This article first appeared on Medscape.com.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Do not rely on more traditional signs and symptoms of COVID-19 like fever and dyspnea when assessing patients with Cushing’s syndrome for the novel coronavirus, Rosario Pivonello, MD, PhD, and colleagues urged.

Physicians evaluating patients with Cushing’s syndrome for COVID-19 “should be suspicious of any change in health status of their patients with Cushing’s syndrome, rather than relying on fever and [dyspnea] as typical features,” Dr. Pivonello, an endocrinologist with the University of Naples (Italy) Federico II, and colleagues wrote in a commentary published in The Lancet Diabetes & Endocrinology.

COVID-19 symptoms are a unique concern among patients with Cushing’s syndrome because many of the cardiometabolic and immune impairments that place someone at higher risk of more severe disease or mortality for the novel coronavirus – such as obesity, hypertension, diabetes, and immunodeficiency syndromes – are also shared with Cushing’s syndrome.

Increased cardiovascular risk factors and susceptibility to severe infection are “two leading causes of death” for patients with Cushing’s syndrome, Dr. Pivonello and colleagues noted.

The immunocompromised state of patients with Cushing’s syndrome may make detection of COVID-19 infection difficult, the authors say. For example, fever is a common symptom of patients with COVID-19, but in patients with active Cushing’s syndrome, “low-grade chronic inflammation and the poor immune response might limit febrile response in the early phase of infection,” Dr. Pivonello and colleagues wrote.

In other cases, because Cushing’s syndrome and COVID-19 have overlapping symptoms, it may be difficult to attribute a particular symptom to either disease. Dyspnea is a common symptom of COVID-19, but may present in Cushing’s syndrome because of “cardiac insufficiency or weakness of respiratory muscles,” the authors wrote. Instead, physicians should look to other COVID-19 symptoms, such as cough, dysgeusia, anosmia, and diarrhea, for signs of the disease.

Patients with Cushing’s syndrome may also be predisposed to a more severe course of COVID-19 because of the prevalence of obesity, hypertension, or diabetes in these patients, which have been identified as comorbidities that increase the likelihood of severe COVID-19 and progression to acute respiratory distress syndrome (ARDS). “However, a key element in the development of ARDS during COVID-19 is the exaggerated cellular response induced by the cytokine increase, leading to massive alveolar–capillary wall damage and a decline in gas exchange,” Dr. Pivonello and colleagues wrote. “Because patients with Cushing’s syndrome might not mount a normal cytokine response, these patients might [paradoxically] be less prone to develop severe ARDS with COVID-19.”

As both Cushing’s syndrome and COVID-19 are associated with hypercoagulability, the authors “strongly advise” using low-molecular-weight heparin in hospitalized patients with active Cushing’s syndrome who develop COVID-19. In both diseases, there is also a risk of longer duration of viral infections and opportunistic infections such as atypical bacterial and invasive fungal infections. For this reason, the authors also recommended patients with Cushing’s syndrome who have COVID-19 be placed on prolonged antiviral and broad-spectrum antibiotic treatment as a prophylactic measure.

During the pandemic, avoiding surgery for Cushing’s syndrome should be considered to reduce the likelihood of acquiring COVID-19 in a hospital setting, the authors wrote. Medical therapy can be temporarily used where appropriate, such as using ketoconazole, metyrapone, osilodrostat, and etomidate to lower cortisol levels. They acknowledge that some cases of malignant Cushing’s syndrome may require “expeditious definitive diagnosis and proper surgical resolution.”

After remission, while infection risk should be significantly lowered, other comorbidities like obesity, hypertension, diabetes, and thromboembolic diathesis may remain. “Because these are features associated with an increased death risk in patients with COVID-19, patients with Cushing’s syndrome in remission should be considered a high-risk population and consequently adopt adequate self-protection strategies to [minimize] contagion risk,” the authors wrote.

Dr. Pivonello reported relationships with Novartis, Strongbridge Biopharma, HRA Pharma, Ipsen, Shire, and Pfizer, Corcept Therapeutics, IBSA Farmaceutici, Ferring, and Italfarmaco in the form of receiving grants and/or personal fees. One coauthor reported receiving grants and/or nonfinancial support from Takeda, Ipsen, Shire, Pfizer, and Corcept Therapeutics. One coauthor reported receiving grants and personal fees from Novartis and Strongbridge, and grants from Millendo Therapeutics. Another coauthor reported receiving grants and/or personal fees from Novartis, Ipsen, Shire, Pfizer, Italfarmaco, Lilly, Merck, and Novo Nordisk. The other authors reported no relevant conflicts of interest.

SOURCE: Pivonello R et al. Lancet Diabetes Endocrinol. 2020 Jun 9. doi: 10.1016/S2213-8587(20)30215-1.

Previously, I introduced the topic of self-care for patients with diabetes to prevent complications. Now let’s explore how to help reduce risk for cardiovascular conditions in these patients, starting with blood pressure control.

CASE CONTINUED

Mr. W’s vitals include a heart rate of 82; BP, 150/86 mm Hg; and O2 saturation, 98%. He is afebrile. You consider how to best manage glucose control and reduce the risk for cardiovascular conditions.

Reducing the Risk for Cardiovascular Conditions

The ADA recommends at least annual systematic assessment of cardiovascular risk factors, including weight, hypertension, dyslipidemia, chronic kidney disease (CKD), and presence of albuminuria.² Managing these conditions to the standards supported by currently available evidence should reduce the risk for ASCVD in patients such as Mr. W. Two newer medication classes—glucagon-like peptide-1 receptor agonists and sodium-glucose cotransporter-2 inhibitors—offer potential benefit in reducing cardiovascular risk.^15,16 Consider these medications for patients with diabetes or known ASCVD or for those who are at high risk for ASCVD and/or CKD.^2,7

Furthermore, the ADA recommends using a risk calculator, such as the ASCVD Risk Estimator Plus created by the American College of Cardiology/American Heart Association (see http://tools.acc.org/ASCVD-Risk-Estimator-Plus), to stratify the 10-year risk for a first ASCVD event.2 This calculator can produce results that can help guide an individualized risk-reduction treatment plan for each patient. Also, consider low-dose aspirin for primary prevention in those at high risk for ASCVD (10-year risk > 10%) and for secondary prevention of ASCVD in those who have already had a cardiovascular event.^2,7

Setting and Meeting BP Goals

Hypertension is common in patients with diabetes, with a recent study suggesting that ≥ 67% of these patients have elevated BP.¹⁷ Significant evidence demonstrates that BP control reduces morbidity and mortality in diabetes.¹⁸ Although the importance of BP control in this setting is widely known, recent studies have demonstrated that only 30% to 42% of affected patients meet their BP goals.^19,20

How to make a BP goal. Guideline recommendations for setting specific BP goals have varied slightly over the past several years and are influenced by known comorbidities such as ASCVD and CKD. Patients should be part of the decision-making process to individualize goals based on their circumstances and safety. A BP goal of < 130/80 mm Hg is generally acceptable for patients who are known to have ASCVD or who are at high risk (≥ 15% risk) for ASCVD in the next 10 years.⁷ A goal of < 140/90 mm Hg is considered appropriate in those with a lower risk for ASCVD.^7,8,21,22

Medications. Selecting an appropriate antihypertensive medication relies on multiple factors. Evidence supports the use of angiotensin-converting enzyme inhibitors and angiotensin II receptor blockers for diabetes, and both the AACE and ADA recommend these medications as an initial treatment option.^2,7 They help reduce the progression of kidney disease in patients with albuminuria and may improve cardiovascular outcomes.^23-27 When additional agents are needed to meet BP goals, the ADA recommends thiazide-like diuretics (chlorthalidone and indapamide) or calcium channel blockers (dihydropyridine).² Although some hyperglycemic adverse effects have been observed with use of thiazide-like diuretics, these might be outweighed by the benefit of BP control.²⁴

Continue to: Monitor the patient's BP

Monitor the patient’s BP at every visit, and advise the patient to regularly measure his or her BP at home with a BP cuff. Patients who may need assistance with at-home monitoring can be directed to an online guide on how to accurately measure their BP (see www.heart.org/en/health-topics/high-blood-pressure/understanding-blood-pressure-readings/monitoring-your-blood-pressure-at-home). For those who report consistently above-goal measurements at home, advise them to check their BP cuff, because an ill-fitting cuff is a well-known cause of inaccurate measurement. Patients also should be assessed for medication nonadherence, white coat hypertension, and secondary hypertension.^7,8 If a patient’s BP is truly above goal, a step-up in therapy may be appropriate because without adequate BP control, the benefit in mortality and morbidity may not be fully realized.²⁸

In Part 3, we’ll check in with Mr. W and discuss which patients require assessment for dyslipidemia. We’ll also explore the treatments, such as statin therapy, for this condition.

Previously, I introduced the topic of self-care for patients with diabetes to prevent complications. Now let’s explore how to help reduce risk for cardiovascular conditions in these patients, starting with blood pressure control.

CASE CONTINUED

Mr. W’s vitals include a heart rate of 82; BP, 150/86 mm Hg; and O2 saturation, 98%. He is afebrile. You consider how to best manage glucose control and reduce the risk for cardiovascular conditions.

Reducing the Risk for Cardiovascular Conditions

The ADA recommends at least annual systematic assessment of cardiovascular risk factors, including weight, hypertension, dyslipidemia, chronic kidney disease (CKD), and presence of albuminuria.² Managing these conditions to the standards supported by currently available evidence should reduce the risk for ASCVD in patients such as Mr. W. Two newer medication classes—glucagon-like peptide-1 receptor agonists and sodium-glucose cotransporter-2 inhibitors—offer potential benefit in reducing cardiovascular risk.^15,16 Consider these medications for patients with diabetes or known ASCVD or for those who are at high risk for ASCVD and/or CKD.^2,7

Furthermore, the ADA recommends using a risk calculator, such as the ASCVD Risk Estimator Plus created by the American College of Cardiology/American Heart Association (see http://tools.acc.org/ASCVD-Risk-Estimator-Plus), to stratify the 10-year risk for a first ASCVD event.2 This calculator can produce results that can help guide an individualized risk-reduction treatment plan for each patient. Also, consider low-dose aspirin for primary prevention in those at high risk for ASCVD (10-year risk > 10%) and for secondary prevention of ASCVD in those who have already had a cardiovascular event.^2,7

Setting and Meeting BP Goals

Hypertension is common in patients with diabetes, with a recent study suggesting that ≥ 67% of these patients have elevated BP.¹⁷ Significant evidence demonstrates that BP control reduces morbidity and mortality in diabetes.¹⁸ Although the importance of BP control in this setting is widely known, recent studies have demonstrated that only 30% to 42% of affected patients meet their BP goals.^19,20

How to make a BP goal. Guideline recommendations for setting specific BP goals have varied slightly over the past several years and are influenced by known comorbidities such as ASCVD and CKD. Patients should be part of the decision-making process to individualize goals based on their circumstances and safety. A BP goal of < 130/80 mm Hg is generally acceptable for patients who are known to have ASCVD or who are at high risk (≥ 15% risk) for ASCVD in the next 10 years.⁷ A goal of < 140/90 mm Hg is considered appropriate in those with a lower risk for ASCVD.^7,8,21,22

Medications. Selecting an appropriate antihypertensive medication relies on multiple factors. Evidence supports the use of angiotensin-converting enzyme inhibitors and angiotensin II receptor blockers for diabetes, and both the AACE and ADA recommend these medications as an initial treatment option.^2,7 They help reduce the progression of kidney disease in patients with albuminuria and may improve cardiovascular outcomes.^23-27 When additional agents are needed to meet BP goals, the ADA recommends thiazide-like diuretics (chlorthalidone and indapamide) or calcium channel blockers (dihydropyridine).² Although some hyperglycemic adverse effects have been observed with use of thiazide-like diuretics, these might be outweighed by the benefit of BP control.²⁴

Continue to: Monitor the patient's BP

Monitor the patient’s BP at every visit, and advise the patient to regularly measure his or her BP at home with a BP cuff. Patients who may need assistance with at-home monitoring can be directed to an online guide on how to accurately measure their BP (see www.heart.org/en/health-topics/high-blood-pressure/understanding-blood-pressure-readings/monitoring-your-blood-pressure-at-home). For those who report consistently above-goal measurements at home, advise them to check their BP cuff, because an ill-fitting cuff is a well-known cause of inaccurate measurement. Patients also should be assessed for medication nonadherence, white coat hypertension, and secondary hypertension.^7,8 If a patient’s BP is truly above goal, a step-up in therapy may be appropriate because without adequate BP control, the benefit in mortality and morbidity may not be fully realized.²⁸

In Part 3, we’ll check in with Mr. W and discuss which patients require assessment for dyslipidemia. We’ll also explore the treatments, such as statin therapy, for this condition.

Previously, I introduced the topic of self-care for patients with diabetes to prevent complications. Now let’s explore how to help reduce risk for cardiovascular conditions in these patients, starting with blood pressure control.

CASE CONTINUED

Mr. W’s vitals include a heart rate of 82; BP, 150/86 mm Hg; and O2 saturation, 98%. He is afebrile. You consider how to best manage glucose control and reduce the risk for cardiovascular conditions.

Reducing the Risk for Cardiovascular Conditions

The ADA recommends at least annual systematic assessment of cardiovascular risk factors, including weight, hypertension, dyslipidemia, chronic kidney disease (CKD), and presence of albuminuria.² Managing these conditions to the standards supported by currently available evidence should reduce the risk for ASCVD in patients such as Mr. W. Two newer medication classes—glucagon-like peptide-1 receptor agonists and sodium-glucose cotransporter-2 inhibitors—offer potential benefit in reducing cardiovascular risk.^15,16 Consider these medications for patients with diabetes or known ASCVD or for those who are at high risk for ASCVD and/or CKD.^2,7

Furthermore, the ADA recommends using a risk calculator, such as the ASCVD Risk Estimator Plus created by the American College of Cardiology/American Heart Association (see http://tools.acc.org/ASCVD-Risk-Estimator-Plus), to stratify the 10-year risk for a first ASCVD event.2 This calculator can produce results that can help guide an individualized risk-reduction treatment plan for each patient. Also, consider low-dose aspirin for primary prevention in those at high risk for ASCVD (10-year risk > 10%) and for secondary prevention of ASCVD in those who have already had a cardiovascular event.^2,7

Setting and Meeting BP Goals

Hypertension is common in patients with diabetes, with a recent study suggesting that ≥ 67% of these patients have elevated BP.¹⁷ Significant evidence demonstrates that BP control reduces morbidity and mortality in diabetes.¹⁸ Although the importance of BP control in this setting is widely known, recent studies have demonstrated that only 30% to 42% of affected patients meet their BP goals.^19,20

How to make a BP goal. Guideline recommendations for setting specific BP goals have varied slightly over the past several years and are influenced by known comorbidities such as ASCVD and CKD. Patients should be part of the decision-making process to individualize goals based on their circumstances and safety. A BP goal of < 130/80 mm Hg is generally acceptable for patients who are known to have ASCVD or who are at high risk (≥ 15% risk) for ASCVD in the next 10 years.⁷ A goal of < 140/90 mm Hg is considered appropriate in those with a lower risk for ASCVD.^7,8,21,22

Medications. Selecting an appropriate antihypertensive medication relies on multiple factors. Evidence supports the use of angiotensin-converting enzyme inhibitors and angiotensin II receptor blockers for diabetes, and both the AACE and ADA recommend these medications as an initial treatment option.^2,7 They help reduce the progression of kidney disease in patients with albuminuria and may improve cardiovascular outcomes.^23-27 When additional agents are needed to meet BP goals, the ADA recommends thiazide-like diuretics (chlorthalidone and indapamide) or calcium channel blockers (dihydropyridine).² Although some hyperglycemic adverse effects have been observed with use of thiazide-like diuretics, these might be outweighed by the benefit of BP control.²⁴

Continue to: Monitor the patient's BP

Monitor the patient’s BP at every visit, and advise the patient to regularly measure his or her BP at home with a BP cuff. Patients who may need assistance with at-home monitoring can be directed to an online guide on how to accurately measure their BP (see www.heart.org/en/health-topics/high-blood-pressure/understanding-blood-pressure-readings/monitoring-your-blood-pressure-at-home). For those who report consistently above-goal measurements at home, advise them to check their BP cuff, because an ill-fitting cuff is a well-known cause of inaccurate measurement. Patients also should be assessed for medication nonadherence, white coat hypertension, and secondary hypertension.^7,8 If a patient’s BP is truly above goal, a step-up in therapy may be appropriate because without adequate BP control, the benefit in mortality and morbidity may not be fully realized.²⁸

In Part 3, we’ll check in with Mr. W and discuss which patients require assessment for dyslipidemia. We’ll also explore the treatments, such as statin therapy, for this condition.

Background: Type 2 diabetes is the leading cause of kidney failure worldwide. Few treatment options exist to help improve on this outcome in patients with chronic kidney disease.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

Background: Type 2 diabetes is the leading cause of kidney failure worldwide. Few treatment options exist to help improve on this outcome in patients with chronic kidney disease.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

Background: Type 2 diabetes is the leading cause of kidney failure worldwide. Few treatment options exist to help improve on this outcome in patients with chronic kidney disease.

Dr. Hoegh is a hospitalist at the University of Colorado at Denver, Aurora.

A single yearly dose of zoledronic acid had no impact on the progression of abdominal aortic calcification in postmenopausal women with osteoporosis, based on data from 502 women.

Although bisphosphonates have been shown to reduce the formation and progression of vascular calcification in animal studies, the impact on aortic calcification in humans has not been studied, wrote Guoqi Cai, PhD, of the University of Tasmania, Australia, and colleagues.

In a post hoc analysis published in Osteoporosis International, the researchers reviewed data from the HORIZON Pivotal Fracture trial of women with osteoporosis.

The study population included 234 postmenopausal women with osteoporosis who received an annual infusion of 5 mg zoledronic acid (ZA) and 268 who received a placebo. The mean age of the women was 72.5 years. Overall, abdominal aortic calcification (AAC) was present in 292 women (58%) at baseline, defined as an AAC score greater than 0, and AAC scores were similar between the intervention and placebo groups.

Over 3 years, AAC progressed similarly between the ZA and placebo groups (29% and 31%, respectively). Progression was defined as an increase in AAC score, which was measured by comparing spinal x-rays at baseline and after 3 years. In a subgroup analysis, progression of AAC was similar between the ZA and placebo groups with and without baseline AAC.

“The lack of effect on the progression of vascular calcification with zoledronic acid treatment in this study does not rule out a potential role of bisphosphonates in reducing cardiovascular mortality mediated through other mechanisms,” the researchers noted.

No correlation appeared between change in AAC score and change in bone mineral density at the total hip and femoral neck during the study period in any of the groups.

The study findings were limited by several factors including the post hoc analysis, potential lack of sensitivity of the AAC-8 scale in measuring small AAC changes, and homogenous study population, the researchers noted.

However, the study is the first to examine the impact of zoledronic acid on aortic calcification in humans, and was strengthened by the randomized design, the researchers said. Although other studies on the impact of bisphosphonates on vascular calcification have been inconsistent, the “finding that zoledronic acid was not protective against vascular calcification agrees with previous trials of nitrogen-containing bisphosphonates conducted in postmenopausal women with osteoporosis,” as well as chronic kidney disease patients and renal transplant patients, they said.

“Thus, our findings do not support the use of zoledronic acid for the treatment of vascular calcification,” they concluded.

The study was supported by Novartis. Dr. Cai had no financial conflicts to disclose.

[email protected]

SOURCE: Cai G. et al. Osteoporosis Int. 2020 May 2. doi: 10.1007/s00198-020-05430-z.

A single yearly dose of zoledronic acid had no impact on the progression of abdominal aortic calcification in postmenopausal women with osteoporosis, based on data from 502 women.

Although bisphosphonates have been shown to reduce the formation and progression of vascular calcification in animal studies, the impact on aortic calcification in humans has not been studied, wrote Guoqi Cai, PhD, of the University of Tasmania, Australia, and colleagues.

In a post hoc analysis published in Osteoporosis International, the researchers reviewed data from the HORIZON Pivotal Fracture trial of women with osteoporosis.

The study population included 234 postmenopausal women with osteoporosis who received an annual infusion of 5 mg zoledronic acid (ZA) and 268 who received a placebo. The mean age of the women was 72.5 years. Overall, abdominal aortic calcification (AAC) was present in 292 women (58%) at baseline, defined as an AAC score greater than 0, and AAC scores were similar between the intervention and placebo groups.

Over 3 years, AAC progressed similarly between the ZA and placebo groups (29% and 31%, respectively). Progression was defined as an increase in AAC score, which was measured by comparing spinal x-rays at baseline and after 3 years. In a subgroup analysis, progression of AAC was similar between the ZA and placebo groups with and without baseline AAC.

“The lack of effect on the progression of vascular calcification with zoledronic acid treatment in this study does not rule out a potential role of bisphosphonates in reducing cardiovascular mortality mediated through other mechanisms,” the researchers noted.

No correlation appeared between change in AAC score and change in bone mineral density at the total hip and femoral neck during the study period in any of the groups.

The study findings were limited by several factors including the post hoc analysis, potential lack of sensitivity of the AAC-8 scale in measuring small AAC changes, and homogenous study population, the researchers noted.

However, the study is the first to examine the impact of zoledronic acid on aortic calcification in humans, and was strengthened by the randomized design, the researchers said. Although other studies on the impact of bisphosphonates on vascular calcification have been inconsistent, the “finding that zoledronic acid was not protective against vascular calcification agrees with previous trials of nitrogen-containing bisphosphonates conducted in postmenopausal women with osteoporosis,” as well as chronic kidney disease patients and renal transplant patients, they said.

“Thus, our findings do not support the use of zoledronic acid for the treatment of vascular calcification,” they concluded.

The study was supported by Novartis. Dr. Cai had no financial conflicts to disclose.

[email protected]

SOURCE: Cai G. et al. Osteoporosis Int. 2020 May 2. doi: 10.1007/s00198-020-05430-z.

A single yearly dose of zoledronic acid had no impact on the progression of abdominal aortic calcification in postmenopausal women with osteoporosis, based on data from 502 women.

Although bisphosphonates have been shown to reduce the formation and progression of vascular calcification in animal studies, the impact on aortic calcification in humans has not been studied, wrote Guoqi Cai, PhD, of the University of Tasmania, Australia, and colleagues.

In a post hoc analysis published in Osteoporosis International, the researchers reviewed data from the HORIZON Pivotal Fracture trial of women with osteoporosis.

The study population included 234 postmenopausal women with osteoporosis who received an annual infusion of 5 mg zoledronic acid (ZA) and 268 who received a placebo. The mean age of the women was 72.5 years. Overall, abdominal aortic calcification (AAC) was present in 292 women (58%) at baseline, defined as an AAC score greater than 0, and AAC scores were similar between the intervention and placebo groups.

Over 3 years, AAC progressed similarly between the ZA and placebo groups (29% and 31%, respectively). Progression was defined as an increase in AAC score, which was measured by comparing spinal x-rays at baseline and after 3 years. In a subgroup analysis, progression of AAC was similar between the ZA and placebo groups with and without baseline AAC.

“The lack of effect on the progression of vascular calcification with zoledronic acid treatment in this study does not rule out a potential role of bisphosphonates in reducing cardiovascular mortality mediated through other mechanisms,” the researchers noted.

No correlation appeared between change in AAC score and change in bone mineral density at the total hip and femoral neck during the study period in any of the groups.

The study findings were limited by several factors including the post hoc analysis, potential lack of sensitivity of the AAC-8 scale in measuring small AAC changes, and homogenous study population, the researchers noted.

However, the study is the first to examine the impact of zoledronic acid on aortic calcification in humans, and was strengthened by the randomized design, the researchers said. Although other studies on the impact of bisphosphonates on vascular calcification have been inconsistent, the “finding that zoledronic acid was not protective against vascular calcification agrees with previous trials of nitrogen-containing bisphosphonates conducted in postmenopausal women with osteoporosis,” as well as chronic kidney disease patients and renal transplant patients, they said.

“Thus, our findings do not support the use of zoledronic acid for the treatment of vascular calcification,” they concluded.

The study was supported by Novartis. Dr. Cai had no financial conflicts to disclose.

[email protected]

SOURCE: Cai G. et al. Osteoporosis Int. 2020 May 2. doi: 10.1007/s00198-020-05430-z.

The Food and Drug Administration has approved oral octreotide (Mycapssa, Chiasma) delayed-release capsules for the long-term maintenance treatment of patients with acromegaly who previously responded to and tolerated octreotide or lanreotide injections.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“People living with acromegaly experience many challenges associated with injectable therapies and are in need of new treatment options,” Jill Sisco, president of Acromegaly Community, a patient support group, said in a Chiasma press release.

“The entire acromegaly community has long awaited oral therapeutic options and it is gratifying to see that the FDA has now approved the first oral somatostatin analog (SSA) therapy with the potential to make a significant impact in the lives of people with acromegaly and their caregivers,” she added.

Acromegaly, a rare, chronic disease usually caused by a benign pituitary tumor that leads to excess production of growth hormone and insulin-like growth factor-1 (IGF-1) hormone, can be cured through the successful surgical removal of the pituitary tumor. However, management of the disease remains a lifelong challenge for many who must rely on chronic injections.

The new oral formulation of octreotide is the first and only oral somatostatin analog approved by the FDA.

The approval was based on the results of the 9-month, phase 3 pivotal CHIASMA OPTIMAL clinical trial, involving 56 adults with acromegaly controlled by injectable SSAs.

The patients, who were randomized 1:1 to octreotide capsules or placebo, were dose-titrated from 40 mg/day up to a maximum of 80 mg/day, equaling two capsules in the morning and two in the evening.

The study met its primary endpoint. Overall, 58% of patients taking octreotide maintained IGF-1 response compared with 19% of those on placebo at the end of 9 months (P = .008), according to the average of the last two IGF-1 levels that were 1 times or less the upper limit of normal, assessed at weeks 34 and 36.  

The trial also met its secondary endpoints, which included the proportion of patients who maintain growth hormone response at week 36 compared with screening; time to loss of response; and proportion of patients requiring reversion to prior treatment.

Safety data were favorable. Adverse reactions to the drug, detailed in the prescribing information, include cholelithiasis and associated complications; hyperglycemia and hypoglycemia; thyroid function abnormalities; cardiac function abnormalities; decreased vitamin B12 levels, and abnormal Schilling’s test results.

Results from the clinical trial “are encouraging for patients with acromegaly,” the study’s principal investigator, Susan Samson, MD, PhD, of Baylor College of Medicine, Houston, said in the Chiasma statement.

“Based on data from the CHIASMA OPTIMAL trial showing patients on therapy being able to maintain mean IGF-1 levels within the normal range at the end of treatment, I believe oral octreotide capsules hold meaningful promise for patients with this disease and will address a long-standing unmet treatment need,” she added.

Chiasma reports that it expects Mycapssa to be available in the fourth quarter of 2020, pending FDA approval of a planned manufacturing supplement to the approved new drug application.

The company further plans to provide patient support services including assistance with insurance providers and specialty pharmacies and support in incorporating treatment into patients’ daily routines.

Despite effective biochemical control of growth hormone, many patients with acromegaly continue to suffer symptoms, mainly because of comorbidities, so it is important that these are also adequately treated, a consensus group concluded earlier this year.

The CHIASMA OPTIMAL trial was funded by Chiasma.
 

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

The Food and Drug Administration has approved oral octreotide (Mycapssa, Chiasma) delayed-release capsules for the long-term maintenance treatment of patients with acromegaly who previously responded to and tolerated octreotide or lanreotide injections.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“People living with acromegaly experience many challenges associated with injectable therapies and are in need of new treatment options,” Jill Sisco, president of Acromegaly Community, a patient support group, said in a Chiasma press release.

“The entire acromegaly community has long awaited oral therapeutic options and it is gratifying to see that the FDA has now approved the first oral somatostatin analog (SSA) therapy with the potential to make a significant impact in the lives of people with acromegaly and their caregivers,” she added.

Acromegaly, a rare, chronic disease usually caused by a benign pituitary tumor that leads to excess production of growth hormone and insulin-like growth factor-1 (IGF-1) hormone, can be cured through the successful surgical removal of the pituitary tumor. However, management of the disease remains a lifelong challenge for many who must rely on chronic injections.

The new oral formulation of octreotide is the first and only oral somatostatin analog approved by the FDA.

The approval was based on the results of the 9-month, phase 3 pivotal CHIASMA OPTIMAL clinical trial, involving 56 adults with acromegaly controlled by injectable SSAs.

The patients, who were randomized 1:1 to octreotide capsules or placebo, were dose-titrated from 40 mg/day up to a maximum of 80 mg/day, equaling two capsules in the morning and two in the evening.

The study met its primary endpoint. Overall, 58% of patients taking octreotide maintained IGF-1 response compared with 19% of those on placebo at the end of 9 months (P = .008), according to the average of the last two IGF-1 levels that were 1 times or less the upper limit of normal, assessed at weeks 34 and 36.  

The trial also met its secondary endpoints, which included the proportion of patients who maintain growth hormone response at week 36 compared with screening; time to loss of response; and proportion of patients requiring reversion to prior treatment.

Safety data were favorable. Adverse reactions to the drug, detailed in the prescribing information, include cholelithiasis and associated complications; hyperglycemia and hypoglycemia; thyroid function abnormalities; cardiac function abnormalities; decreased vitamin B12 levels, and abnormal Schilling’s test results.

Results from the clinical trial “are encouraging for patients with acromegaly,” the study’s principal investigator, Susan Samson, MD, PhD, of Baylor College of Medicine, Houston, said in the Chiasma statement.

“Based on data from the CHIASMA OPTIMAL trial showing patients on therapy being able to maintain mean IGF-1 levels within the normal range at the end of treatment, I believe oral octreotide capsules hold meaningful promise for patients with this disease and will address a long-standing unmet treatment need,” she added.

Chiasma reports that it expects Mycapssa to be available in the fourth quarter of 2020, pending FDA approval of a planned manufacturing supplement to the approved new drug application.

The company further plans to provide patient support services including assistance with insurance providers and specialty pharmacies and support in incorporating treatment into patients’ daily routines.

Despite effective biochemical control of growth hormone, many patients with acromegaly continue to suffer symptoms, mainly because of comorbidities, so it is important that these are also adequately treated, a consensus group concluded earlier this year.

The CHIASMA OPTIMAL trial was funded by Chiasma.
 

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

The Food and Drug Administration has approved oral octreotide (Mycapssa, Chiasma) delayed-release capsules for the long-term maintenance treatment of patients with acromegaly who previously responded to and tolerated octreotide or lanreotide injections.

Wikimedia Commons/FitzColinGerald/ Creative Commons License

“People living with acromegaly experience many challenges associated with injectable therapies and are in need of new treatment options,” Jill Sisco, president of Acromegaly Community, a patient support group, said in a Chiasma press release.

“The entire acromegaly community has long awaited oral therapeutic options and it is gratifying to see that the FDA has now approved the first oral somatostatin analog (SSA) therapy with the potential to make a significant impact in the lives of people with acromegaly and their caregivers,” she added.

Acromegaly, a rare, chronic disease usually caused by a benign pituitary tumor that leads to excess production of growth hormone and insulin-like growth factor-1 (IGF-1) hormone, can be cured through the successful surgical removal of the pituitary tumor. However, management of the disease remains a lifelong challenge for many who must rely on chronic injections.

The new oral formulation of octreotide is the first and only oral somatostatin analog approved by the FDA.

The approval was based on the results of the 9-month, phase 3 pivotal CHIASMA OPTIMAL clinical trial, involving 56 adults with acromegaly controlled by injectable SSAs.

The patients, who were randomized 1:1 to octreotide capsules or placebo, were dose-titrated from 40 mg/day up to a maximum of 80 mg/day, equaling two capsules in the morning and two in the evening.

The study met its primary endpoint. Overall, 58% of patients taking octreotide maintained IGF-1 response compared with 19% of those on placebo at the end of 9 months (P = .008), according to the average of the last two IGF-1 levels that were 1 times or less the upper limit of normal, assessed at weeks 34 and 36.  

The trial also met its secondary endpoints, which included the proportion of patients who maintain growth hormone response at week 36 compared with screening; time to loss of response; and proportion of patients requiring reversion to prior treatment.

Safety data were favorable. Adverse reactions to the drug, detailed in the prescribing information, include cholelithiasis and associated complications; hyperglycemia and hypoglycemia; thyroid function abnormalities; cardiac function abnormalities; decreased vitamin B12 levels, and abnormal Schilling’s test results.

Results from the clinical trial “are encouraging for patients with acromegaly,” the study’s principal investigator, Susan Samson, MD, PhD, of Baylor College of Medicine, Houston, said in the Chiasma statement.

“Based on data from the CHIASMA OPTIMAL trial showing patients on therapy being able to maintain mean IGF-1 levels within the normal range at the end of treatment, I believe oral octreotide capsules hold meaningful promise for patients with this disease and will address a long-standing unmet treatment need,” she added.

Chiasma reports that it expects Mycapssa to be available in the fourth quarter of 2020, pending FDA approval of a planned manufacturing supplement to the approved new drug application.

The company further plans to provide patient support services including assistance with insurance providers and specialty pharmacies and support in incorporating treatment into patients’ daily routines.

Despite effective biochemical control of growth hormone, many patients with acromegaly continue to suffer symptoms, mainly because of comorbidities, so it is important that these are also adequately treated, a consensus group concluded earlier this year.

The CHIASMA OPTIMAL trial was funded by Chiasma.
 

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

Older adults, particularly postmenopausal women, are often advised to pursue low-impact, low-intensity exercise as a way to preserve joint health, but that approach might actually contribute to a decline in bone mineral density, researchers report.

Concerns about falls and fracture risk have led many clinicians to advise against higher-impact activities, like jumping, but that is exactly the type of activity that improves bone density and physical function, said Belinda Beck, PhD, professor at the Griffith University School of Allied Health Sciences in Southport, Australia.

“There has always been a quandary in terms of pursuing research on this,” she said in an interview. “We know from animal studies that bone only responds to high-intensity activity, but we worry about advising that for people with low bone mass, so instead we give them medications.”

“But not everyone likes to go on meds, they’re not 100% effective, and they’re not free of side effects,” said Beck, who is also the owner and director of The Bone Clinic in Brisbane, Australia.

In 2014, to assess whether high-intensity resistance and impact training (HiRIT) was a safe and effective way to improve bone mass, Beck and her colleagues conducted the LIFTMOR study of 101 postmenopausal women. The researchers showed that bone mineral density in the lumbar spine and femoral neck regions and functional performance measures were significantly better in the 49 participants randomized to HiRIT for 8 months than in the 52 randomized to low-intensity training.

Three years after the completion of LIFTMOR, the researchers looked at bone mineral density in 23 women from the HiRIT group in their retrospective observational study, the results of which were presented at the virtual American College of Sports Medicine 2020 Annual Meeting.

Ongoing gains were significantly better for the seven participants who continued with HiRIT (at least 25% compliance) than for the 16 who did not when looking at both bone mineral density of the lumbar spine (8.63% vs. 2.18%; P = .042) and femoral neck (3.67% vs. 2.85%; P = 0.14).

However, the women who discontinued HiRIT after 8 months maintained the gains in bone mineral density that they had achieved 3 years earlier.

Functional outcomes in the women who continued HiRIT were better than those in the women who did not, but the differences were not significant.

“The takeaway here is that this type of exercise appears to be a highly effective therapy to reduce risk of osteoporotic fracture, since it improves bone mass,” Beck said.

Jump more, lose less bone density

Given the widespread reluctance to suggest HiRIT-type activity to those with low bone mass, this research is significant, said Vanessa Yingling, PhD, from the Department of Kinesiology at California State University, East Bay.

“Once women hit 60, they’re somehow regarded as frail, but that becomes a self-fulfilling prophecy when we take this kinder, gentler approach to exercise,” Yingling said in an interview. “Building bone density in older adults is important, but maintaining current bone density is just as crucial. Without high-impact activity, we are likely to see decelerating density at a faster rate.”

The other key to the recent research is the functional testing, Yingling added. In addition to bone density measures, high-intensity activity can improve mobility and muscle strength, as the study noted.

This type of activity can be done in shorter bursts, making these workouts more efficient, she explained. For example, a Tabata high-intensity interval training session usually takes about 10 minutes, warm-up and cool-down included.

“A HiRIT workout even once or twice a week would likely improve function, strength, and bone density maintenance,” Beck said. “The result of that would be better fall prevention and potentially less medication usage for BMD issues.”

Both men and women can benefit from a HiRIT workout, Beck and Yingling said. Initially, supervision by a knowledgeable trainer or physical therapist is ideal, they added.

This article first appeared on Medscape.com.

Older adults, particularly postmenopausal women, are often advised to pursue low-impact, low-intensity exercise as a way to preserve joint health, but that approach might actually contribute to a decline in bone mineral density, researchers report.

Concerns about falls and fracture risk have led many clinicians to advise against higher-impact activities, like jumping, but that is exactly the type of activity that improves bone density and physical function, said Belinda Beck, PhD, professor at the Griffith University School of Allied Health Sciences in Southport, Australia.

“There has always been a quandary in terms of pursuing research on this,” she said in an interview. “We know from animal studies that bone only responds to high-intensity activity, but we worry about advising that for people with low bone mass, so instead we give them medications.”

“But not everyone likes to go on meds, they’re not 100% effective, and they’re not free of side effects,” said Beck, who is also the owner and director of The Bone Clinic in Brisbane, Australia.

In 2014, to assess whether high-intensity resistance and impact training (HiRIT) was a safe and effective way to improve bone mass, Beck and her colleagues conducted the LIFTMOR study of 101 postmenopausal women. The researchers showed that bone mineral density in the lumbar spine and femoral neck regions and functional performance measures were significantly better in the 49 participants randomized to HiRIT for 8 months than in the 52 randomized to low-intensity training.

Three years after the completion of LIFTMOR, the researchers looked at bone mineral density in 23 women from the HiRIT group in their retrospective observational study, the results of which were presented at the virtual American College of Sports Medicine 2020 Annual Meeting.

Ongoing gains were significantly better for the seven participants who continued with HiRIT (at least 25% compliance) than for the 16 who did not when looking at both bone mineral density of the lumbar spine (8.63% vs. 2.18%; P = .042) and femoral neck (3.67% vs. 2.85%; P = 0.14).

However, the women who discontinued HiRIT after 8 months maintained the gains in bone mineral density that they had achieved 3 years earlier.

Functional outcomes in the women who continued HiRIT were better than those in the women who did not, but the differences were not significant.

“The takeaway here is that this type of exercise appears to be a highly effective therapy to reduce risk of osteoporotic fracture, since it improves bone mass,” Beck said.

Jump more, lose less bone density

Given the widespread reluctance to suggest HiRIT-type activity to those with low bone mass, this research is significant, said Vanessa Yingling, PhD, from the Department of Kinesiology at California State University, East Bay.

“Once women hit 60, they’re somehow regarded as frail, but that becomes a self-fulfilling prophecy when we take this kinder, gentler approach to exercise,” Yingling said in an interview. “Building bone density in older adults is important, but maintaining current bone density is just as crucial. Without high-impact activity, we are likely to see decelerating density at a faster rate.”

The other key to the recent research is the functional testing, Yingling added. In addition to bone density measures, high-intensity activity can improve mobility and muscle strength, as the study noted.

This type of activity can be done in shorter bursts, making these workouts more efficient, she explained. For example, a Tabata high-intensity interval training session usually takes about 10 minutes, warm-up and cool-down included.

“A HiRIT workout even once or twice a week would likely improve function, strength, and bone density maintenance,” Beck said. “The result of that would be better fall prevention and potentially less medication usage for BMD issues.”

Both men and women can benefit from a HiRIT workout, Beck and Yingling said. Initially, supervision by a knowledgeable trainer or physical therapist is ideal, they added.

This article first appeared on Medscape.com.

Older adults, particularly postmenopausal women, are often advised to pursue low-impact, low-intensity exercise as a way to preserve joint health, but that approach might actually contribute to a decline in bone mineral density, researchers report.

Concerns about falls and fracture risk have led many clinicians to advise against higher-impact activities, like jumping, but that is exactly the type of activity that improves bone density and physical function, said Belinda Beck, PhD, professor at the Griffith University School of Allied Health Sciences in Southport, Australia.

“There has always been a quandary in terms of pursuing research on this,” she said in an interview. “We know from animal studies that bone only responds to high-intensity activity, but we worry about advising that for people with low bone mass, so instead we give them medications.”

“But not everyone likes to go on meds, they’re not 100% effective, and they’re not free of side effects,” said Beck, who is also the owner and director of The Bone Clinic in Brisbane, Australia.

In 2014, to assess whether high-intensity resistance and impact training (HiRIT) was a safe and effective way to improve bone mass, Beck and her colleagues conducted the LIFTMOR study of 101 postmenopausal women. The researchers showed that bone mineral density in the lumbar spine and femoral neck regions and functional performance measures were significantly better in the 49 participants randomized to HiRIT for 8 months than in the 52 randomized to low-intensity training.

Three years after the completion of LIFTMOR, the researchers looked at bone mineral density in 23 women from the HiRIT group in their retrospective observational study, the results of which were presented at the virtual American College of Sports Medicine 2020 Annual Meeting.

Ongoing gains were significantly better for the seven participants who continued with HiRIT (at least 25% compliance) than for the 16 who did not when looking at both bone mineral density of the lumbar spine (8.63% vs. 2.18%; P = .042) and femoral neck (3.67% vs. 2.85%; P = 0.14).

However, the women who discontinued HiRIT after 8 months maintained the gains in bone mineral density that they had achieved 3 years earlier.

Functional outcomes in the women who continued HiRIT were better than those in the women who did not, but the differences were not significant.

“The takeaway here is that this type of exercise appears to be a highly effective therapy to reduce risk of osteoporotic fracture, since it improves bone mass,” Beck said.

Jump more, lose less bone density

Given the widespread reluctance to suggest HiRIT-type activity to those with low bone mass, this research is significant, said Vanessa Yingling, PhD, from the Department of Kinesiology at California State University, East Bay.

“Once women hit 60, they’re somehow regarded as frail, but that becomes a self-fulfilling prophecy when we take this kinder, gentler approach to exercise,” Yingling said in an interview. “Building bone density in older adults is important, but maintaining current bone density is just as crucial. Without high-impact activity, we are likely to see decelerating density at a faster rate.”

The other key to the recent research is the functional testing, Yingling added. In addition to bone density measures, high-intensity activity can improve mobility and muscle strength, as the study noted.

This type of activity can be done in shorter bursts, making these workouts more efficient, she explained. For example, a Tabata high-intensity interval training session usually takes about 10 minutes, warm-up and cool-down included.

“A HiRIT workout even once or twice a week would likely improve function, strength, and bone density maintenance,” Beck said. “The result of that would be better fall prevention and potentially less medication usage for BMD issues.”

Both men and women can benefit from a HiRIT workout, Beck and Yingling said. Initially, supervision by a knowledgeable trainer or physical therapist is ideal, they added.

This article first appeared on Medscape.com.

For the first 10 months of Christine’s gender transition, a progressive LGBT health clinic in Boston made getting on hormones easy. But after a year or so on estrogen and a testosterone-blocker, she found herself in financial trouble. She had just recently moved to the city, where she was unable to find a job, and her savings were starting to wear thin.

Finding employment as a transgender person, she says, was overwhelmingly difficult: “I was turned down for more jobs than I can count — 20 or 40 different positions in a couple of months.” She would land an interview, then wouldn’t hear back, she says, which she suspects happened because the company noticed she was “not like their other potential hires.”

Christine, a transgender woman, had been enrolled in the state’s Medicaid program, MassHealth, for four months, and her copay for hormone therapy was only $5. But without a job, she found herself torn between food, rent, and medication. For a while, she juggled all three expenses with donations from friends. But after several months, she felt guilty about asking for help and stopped treatment. (Undark has agreed to use only Christine's chosen name because she said she feared both online and in-person harassment for sharing her story.)

At first, Christine didn’t mind being off hormones. She marched in political protests alongside older trans people who assured her that starting and stopping hormones was a normal part of the trans experience. But eventually, Christine felt her body reverting back to the way it had been before her transition; her chest flattened and her fat moved from her hips to her stomach. She stopped wearing dresses and makeup.

“I wasn't looking at myself in the mirror anymore,” she says. “I existed for 10 months, and then I was gone.”

People who are visibly transgender often have trouble finding a job. Nearly a third live in poverty. Many don’t have health insurance, and those who do may have a plan that doesn’t cover hormones. Although testosterone and estrogen only cost $5 to $30 a month for patients with an insurance plan (and typically less than $100 per month for the uninsured), doctors often require consistent therapy and blood work, which ratchets up the cost. Even when trans people have the money, finding doctors willing to treat them can prove impossible. Trans people are also likely to have had bad experiences with the health care system and want to avoid it altogether.

Without access to quality medical care, trans people around the world are seeking hormones from friends or through illegal online markets, even when the cost exceeds what it would through insurance. Although rare, others are resorting to self-surgery by cutting off their own penis and testicles or breasts.

Even with a doctor’s oversight, the health risks of transgender hormone therapy remain unclear, but without formal medical care, the do-it-yourself transition may be downright dangerous. To minimize these risks, some experts suggest health care reforms such as making it easier for primary care physicians to assess trans patients and prescribe hormones or creating specialized clinics where doctors prescribe hormones on demand.

But those solutions aren’t available to most people who are seeking DIY treatments right now. Many doctors aren’t even aware that DIY transitioning exists, although the few experts who are following the community aren’t surprised. Self-treatment is “the reality for most trans people in the world,” says Ayden Scheim, an epidemiologist focusing on transgender health at Drexel University who is trans himself.

While there isn’t a lot of other existing research on DIY hormone treatment, and some of it may be outdated, the available studies suggest it is fairly common and researchers may in fact be underestimating the prevalence of DIY hormone use because they miss people who avoid the medical system completely. In 2014, researchers in the U.K. found that at the time of their first gender clinic visit, 17 percent of transgender people were already taking hormones that they had bought online or from a friend. In Canada, a quarter of trans people on hormones had self-medicated, according to a 2013 study in the American Journal of Public Health. And in a survey of trans people in Washington, D.C. in 2000, 58 percent said they used non-prescribed hormones.

People cite all sorts of reasons for ordering the drugs online or acquiring them by other means. In addition to distrust of doctors and a lack of insurance or access to health care, some simply don’t want to endure long waits for medications. That’s the case for Emma, a trans woman in college in the Netherlands, where it can take two to three years to receive a physician prescription. (Emma is only using her first name to avoid online harassment, which she says she’s experienced in the past.)

As for surgery, far fewer people turn to DIY versions compared to those who try hormones. A 2012 study in the Journal of Sexual Medicine reported that only 109 cases of self-castration or self-mutilation of the genitals appear in the scientific literature, and not all are related to gender identity. “But one is too many,” Scheim says. “No one should be in a position where they feel like they need to do that.”

The individual cases reveal a practice that is dangerous and devastating. In Hangzhou, China, a 30-year-old transgender woman feared rejection from her family, so she hid her true gender, according to a 2019 Amnesty International report. She also tried to transition in secret. At first, the woman tried putting ice on her genitals to stop them from functioning. When that didn’t work, she booked an appointment with a black-market surgeon, but the doctor was arrested before her session. She attempted surgery on herself, the report says, and after losing a profuse amount of blood, hailed a taxi to the emergency room. There, she asked the doctor to tell her family she had been in an accident.

When it comes to self-surgery, the dangers of DIY transitioning are obvious. The dangers of DIY hormones are more far-ranging, from “not ideal to serious,” Scheim says. Some DIY users take a more-is-better approach, but taking too much testosterone too quickly can fry the vocal cords. Even buying hormones from an online pharmacy is risky. In 2010, more than half of all treatments from illicit websites — not only of hormones, but of any drug — were counterfeit, according to a bulletin from the World Health Organization.

Still, Charley isn’t worried about the legitimacy of the drugs he’s taking. The packaging his estrogen comes in matches what he would get from a pharmacy with a doctor’s prescription, he says. He’s also unconcerned about the side effects. “I just did a metric century” — a 100-kilometer bike ride — “in under four hours and walked away from it feeling great. I’m healthy,” he says. “So, yeah, there might be a few side effects. But I know where the local hospital is.”

Yet waiting to see if a seemingly minor side effect leads to a health emergency may mean a patient gets help too late. “I don’t want to say that the risks are incredibly high and there is a high mortality,” Metastasio says. “I am saying, though, that this is a procedure best to be monitored.” Metastasio and others recommend seeing a doctor regularly to catch any health issues that arise as quickly as possible.

But even when doctors prescribe the drugs, the risks are unclear because of a lack of research on trans health, says Scheim: “There’s so much we don’t know about hormone use.”

Researchers do know a little bit, though. Even when a doctor weighs in on the proper dosages, there is an increased risk of heart attack. Taking testosterone increases the chances of developing acne, headaches and migraines, and anger and irritability, according to the Trans Care Project, a program of the Transcend Transgender Support and Education Society and Vancouver Coastal Health’s Transgender Health Program in Canada. Testosterone also increases the risk of having abnormally high levels of red blood cells, or polycythemia, which thickens the blood and can lead to clotting. Meanwhile, studies suggest estrogen can up the risk for breast cancer, stroke, blood clots, gallstones, and a range of heart issues. And the most common testosterone-blocker, spironolactone, can cause dehydration and weaken the kidneys.

All of these risks make it especially important for trans people to have the support of a medical provider, Metastasio says. Specialists are in short supply, but general practitioners and family doctors should be able to fill the gap. After all, they already sign off on the hormone medications for cisgender people for birth control and conditions such as menopause and male pattern baldness — which come with similar side effects and warnings as when trans people use them.

Some doctors have already realized the connection. “People can increasingly get hormone therapy from their pre-existing family doctor,” Scheim says, “which is really ideal because people should be able to have a sort of continuity of health care.”

Zil Goldstein, associate medical director for transgender and gender non-binary health at the Callen-Lorde Community Health Center in New York City, would like to see more of this. Treating gender dysphoria, she says, should be just like treating a patient for any other condition. “It wouldn't be acceptable for someone to come into a primary care provider’s office with diabetes” and for the doctor to say “‘I can't actually treat you. Please leave,’” she says. Primary care providers need to see transgender care, she adds, “as a regular part of their practice.”

Another way to increase access to hormones is through informed consent, a system which received a green light from the newest WPATH guidelines. That’s how Christine received her hormones from Fenway Health before she moved from Boston to Cape Cod. Under informed consent, if someone has a blood test to assess personal health risks of treatment, they can receive a diagnosis of gender dysphoria, sign off on knowing the risks and benefits of hormone therapy, and get a prescription — all in one day.

And Jaime Lynn Gilmour, a trans woman using the full name she chose to match her gender identity, turned to informed consent after struggling to find DIY hormones. In 2017, Jaime realized she was trans while serving in the military, and says she felt she had to keep her gender a secret. When her service ended, she was ready to start taking hormones right away. So she tried to find them online, but her order wouldn’t go through on three different websites. Instead, she visited a Planned Parenthood clinic. After blood work and a few questions, she walked out with three months of estrogen and spironolactone.

But Goldstein says even informed consent doesn’t go far enough: “If I have someone who's diabetic, I don't make them sign a document eliciting their informed consent before starting insulin.”

For trans people, hormone treatments “are life-saving therapies,” Goldstein adds, “and we shouldn’t delay or stigmatize.”

For now Christine still lives with her parents in Cape Cod. She’s also still off hormones. But she found a job. After she stashes a bit more cash in the bank, she plans to move closer to Boston and find a physician.

Despite the positive shifts in her life, it’s been a difficult few months. After moving to Cape Cod, Christine lost most of her social life and support system — particularly since her parents don’t understand or accept her gender identity. Though she has reconnected with a few friends in the past several weeks, she says she’s in a tough place emotionally. In public, she typically dresses and styles herself to look more masculine to avoid rude stares, and she is experiencing self-hatred that she fears won’t go away when she restarts treatment. Transitioning again isn’t going to be easy, as she explained to Undark in a private message on Facebook: “I've been beaten down enough that now I don't wanna get back up most of the time.”

Even worse is the fear that she might not be able to restart treatment at all. Earlier this year, Christine suffered two health emergencies within the span of a week, in which she says her blood pressure spiked, potentially causing organ damage. Christine has had one similar episode in the past and her family has a history of heart issues.

Christine may not be able to get back on estrogen despite the hard work she’s done to be able to afford it, she says, since it can increase the risk of heart attack and stroke. Because she has so far resisted trying DIY treatments again, she may have saved herself from additional health problems.

But Christine doesn’t see it that way. “Even if it was unsafe, even if I risked health concerns making myself a guinea pig, I wish I followed through,” she wrote. “Being off hormones is hell. And now that I face potentially never taking them again, I wish I had.”

Tara Santora is a science journalist based out of Denver. They have written for Psychology Today, Live Science, Fatherly, Audubon, and more.

This article was originally published on Undark. Read the original article.

For the first 10 months of Christine’s gender transition, a progressive LGBT health clinic in Boston made getting on hormones easy. But after a year or so on estrogen and a testosterone-blocker, she found herself in financial trouble. She had just recently moved to the city, where she was unable to find a job, and her savings were starting to wear thin.

Finding employment as a transgender person, she says, was overwhelmingly difficult: “I was turned down for more jobs than I can count — 20 or 40 different positions in a couple of months.” She would land an interview, then wouldn’t hear back, she says, which she suspects happened because the company noticed she was “not like their other potential hires.”

Christine, a transgender woman, had been enrolled in the state’s Medicaid program, MassHealth, for four months, and her copay for hormone therapy was only $5. But without a job, she found herself torn between food, rent, and medication. For a while, she juggled all three expenses with donations from friends. But after several months, she felt guilty about asking for help and stopped treatment. (Undark has agreed to use only Christine's chosen name because she said she feared both online and in-person harassment for sharing her story.)

At first, Christine didn’t mind being off hormones. She marched in political protests alongside older trans people who assured her that starting and stopping hormones was a normal part of the trans experience. But eventually, Christine felt her body reverting back to the way it had been before her transition; her chest flattened and her fat moved from her hips to her stomach. She stopped wearing dresses and makeup.

“I wasn't looking at myself in the mirror anymore,” she says. “I existed for 10 months, and then I was gone.”

People who are visibly transgender often have trouble finding a job. Nearly a third live in poverty. Many don’t have health insurance, and those who do may have a plan that doesn’t cover hormones. Although testosterone and estrogen only cost $5 to $30 a month for patients with an insurance plan (and typically less than $100 per month for the uninsured), doctors often require consistent therapy and blood work, which ratchets up the cost. Even when trans people have the money, finding doctors willing to treat them can prove impossible. Trans people are also likely to have had bad experiences with the health care system and want to avoid it altogether.

Without access to quality medical care, trans people around the world are seeking hormones from friends or through illegal online markets, even when the cost exceeds what it would through insurance. Although rare, others are resorting to self-surgery by cutting off their own penis and testicles or breasts.

Even with a doctor’s oversight, the health risks of transgender hormone therapy remain unclear, but without formal medical care, the do-it-yourself transition may be downright dangerous. To minimize these risks, some experts suggest health care reforms such as making it easier for primary care physicians to assess trans patients and prescribe hormones or creating specialized clinics where doctors prescribe hormones on demand.

But those solutions aren’t available to most people who are seeking DIY treatments right now. Many doctors aren’t even aware that DIY transitioning exists, although the few experts who are following the community aren’t surprised. Self-treatment is “the reality for most trans people in the world,” says Ayden Scheim, an epidemiologist focusing on transgender health at Drexel University who is trans himself.

While there isn’t a lot of other existing research on DIY hormone treatment, and some of it may be outdated, the available studies suggest it is fairly common and researchers may in fact be underestimating the prevalence of DIY hormone use because they miss people who avoid the medical system completely. In 2014, researchers in the U.K. found that at the time of their first gender clinic visit, 17 percent of transgender people were already taking hormones that they had bought online or from a friend. In Canada, a quarter of trans people on hormones had self-medicated, according to a 2013 study in the American Journal of Public Health. And in a survey of trans people in Washington, D.C. in 2000, 58 percent said they used non-prescribed hormones.

People cite all sorts of reasons for ordering the drugs online or acquiring them by other means. In addition to distrust of doctors and a lack of insurance or access to health care, some simply don’t want to endure long waits for medications. That’s the case for Emma, a trans woman in college in the Netherlands, where it can take two to three years to receive a physician prescription. (Emma is only using her first name to avoid online harassment, which she says she’s experienced in the past.)

As for surgery, far fewer people turn to DIY versions compared to those who try hormones. A 2012 study in the Journal of Sexual Medicine reported that only 109 cases of self-castration or self-mutilation of the genitals appear in the scientific literature, and not all are related to gender identity. “But one is too many,” Scheim says. “No one should be in a position where they feel like they need to do that.”

The individual cases reveal a practice that is dangerous and devastating. In Hangzhou, China, a 30-year-old transgender woman feared rejection from her family, so she hid her true gender, according to a 2019 Amnesty International report. She also tried to transition in secret. At first, the woman tried putting ice on her genitals to stop them from functioning. When that didn’t work, she booked an appointment with a black-market surgeon, but the doctor was arrested before her session. She attempted surgery on herself, the report says, and after losing a profuse amount of blood, hailed a taxi to the emergency room. There, she asked the doctor to tell her family she had been in an accident.

When it comes to self-surgery, the dangers of DIY transitioning are obvious. The dangers of DIY hormones are more far-ranging, from “not ideal to serious,” Scheim says. Some DIY users take a more-is-better approach, but taking too much testosterone too quickly can fry the vocal cords. Even buying hormones from an online pharmacy is risky. In 2010, more than half of all treatments from illicit websites — not only of hormones, but of any drug — were counterfeit, according to a bulletin from the World Health Organization.

Still, Charley isn’t worried about the legitimacy of the drugs he’s taking. The packaging his estrogen comes in matches what he would get from a pharmacy with a doctor’s prescription, he says. He’s also unconcerned about the side effects. “I just did a metric century” — a 100-kilometer bike ride — “in under four hours and walked away from it feeling great. I’m healthy,” he says. “So, yeah, there might be a few side effects. But I know where the local hospital is.”

Yet waiting to see if a seemingly minor side effect leads to a health emergency may mean a patient gets help too late. “I don’t want to say that the risks are incredibly high and there is a high mortality,” Metastasio says. “I am saying, though, that this is a procedure best to be monitored.” Metastasio and others recommend seeing a doctor regularly to catch any health issues that arise as quickly as possible.

But even when doctors prescribe the drugs, the risks are unclear because of a lack of research on trans health, says Scheim: “There’s so much we don’t know about hormone use.”

Researchers do know a little bit, though. Even when a doctor weighs in on the proper dosages, there is an increased risk of heart attack. Taking testosterone increases the chances of developing acne, headaches and migraines, and anger and irritability, according to the Trans Care Project, a program of the Transcend Transgender Support and Education Society and Vancouver Coastal Health’s Transgender Health Program in Canada. Testosterone also increases the risk of having abnormally high levels of red blood cells, or polycythemia, which thickens the blood and can lead to clotting. Meanwhile, studies suggest estrogen can up the risk for breast cancer, stroke, blood clots, gallstones, and a range of heart issues. And the most common testosterone-blocker, spironolactone, can cause dehydration and weaken the kidneys.

All of these risks make it especially important for trans people to have the support of a medical provider, Metastasio says. Specialists are in short supply, but general practitioners and family doctors should be able to fill the gap. After all, they already sign off on the hormone medications for cisgender people for birth control and conditions such as menopause and male pattern baldness — which come with similar side effects and warnings as when trans people use them.

Some doctors have already realized the connection. “People can increasingly get hormone therapy from their pre-existing family doctor,” Scheim says, “which is really ideal because people should be able to have a sort of continuity of health care.”

Zil Goldstein, associate medical director for transgender and gender non-binary health at the Callen-Lorde Community Health Center in New York City, would like to see more of this. Treating gender dysphoria, she says, should be just like treating a patient for any other condition. “It wouldn't be acceptable for someone to come into a primary care provider’s office with diabetes” and for the doctor to say “‘I can't actually treat you. Please leave,’” she says. Primary care providers need to see transgender care, she adds, “as a regular part of their practice.”

Another way to increase access to hormones is through informed consent, a system which received a green light from the newest WPATH guidelines. That’s how Christine received her hormones from Fenway Health before she moved from Boston to Cape Cod. Under informed consent, if someone has a blood test to assess personal health risks of treatment, they can receive a diagnosis of gender dysphoria, sign off on knowing the risks and benefits of hormone therapy, and get a prescription — all in one day.

And Jaime Lynn Gilmour, a trans woman using the full name she chose to match her gender identity, turned to informed consent after struggling to find DIY hormones. In 2017, Jaime realized she was trans while serving in the military, and says she felt she had to keep her gender a secret. When her service ended, she was ready to start taking hormones right away. So she tried to find them online, but her order wouldn’t go through on three different websites. Instead, she visited a Planned Parenthood clinic. After blood work and a few questions, she walked out with three months of estrogen and spironolactone.

But Goldstein says even informed consent doesn’t go far enough: “If I have someone who's diabetic, I don't make them sign a document eliciting their informed consent before starting insulin.”

For trans people, hormone treatments “are life-saving therapies,” Goldstein adds, “and we shouldn’t delay or stigmatize.”

For now Christine still lives with her parents in Cape Cod. She’s also still off hormones. But she found a job. After she stashes a bit more cash in the bank, she plans to move closer to Boston and find a physician.

Despite the positive shifts in her life, it’s been a difficult few months. After moving to Cape Cod, Christine lost most of her social life and support system — particularly since her parents don’t understand or accept her gender identity. Though she has reconnected with a few friends in the past several weeks, she says she’s in a tough place emotionally. In public, she typically dresses and styles herself to look more masculine to avoid rude stares, and she is experiencing self-hatred that she fears won’t go away when she restarts treatment. Transitioning again isn’t going to be easy, as she explained to Undark in a private message on Facebook: “I've been beaten down enough that now I don't wanna get back up most of the time.”

Even worse is the fear that she might not be able to restart treatment at all. Earlier this year, Christine suffered two health emergencies within the span of a week, in which she says her blood pressure spiked, potentially causing organ damage. Christine has had one similar episode in the past and her family has a history of heart issues.

Christine may not be able to get back on estrogen despite the hard work she’s done to be able to afford it, she says, since it can increase the risk of heart attack and stroke. Because she has so far resisted trying DIY treatments again, she may have saved herself from additional health problems.

But Christine doesn’t see it that way. “Even if it was unsafe, even if I risked health concerns making myself a guinea pig, I wish I followed through,” she wrote. “Being off hormones is hell. And now that I face potentially never taking them again, I wish I had.”

Tara Santora is a science journalist based out of Denver. They have written for Psychology Today, Live Science, Fatherly, Audubon, and more.

This article was originally published on Undark. Read the original article.

For the first 10 months of Christine’s gender transition, a progressive LGBT health clinic in Boston made getting on hormones easy. But after a year or so on estrogen and a testosterone-blocker, she found herself in financial trouble. She had just recently moved to the city, where she was unable to find a job, and her savings were starting to wear thin.

Finding employment as a transgender person, she says, was overwhelmingly difficult: “I was turned down for more jobs than I can count — 20 or 40 different positions in a couple of months.” She would land an interview, then wouldn’t hear back, she says, which she suspects happened because the company noticed she was “not like their other potential hires.”

Christine, a transgender woman, had been enrolled in the state’s Medicaid program, MassHealth, for four months, and her copay for hormone therapy was only $5. But without a job, she found herself torn between food, rent, and medication. For a while, she juggled all three expenses with donations from friends. But after several months, she felt guilty about asking for help and stopped treatment. (Undark has agreed to use only Christine's chosen name because she said she feared both online and in-person harassment for sharing her story.)

At first, Christine didn’t mind being off hormones. She marched in political protests alongside older trans people who assured her that starting and stopping hormones was a normal part of the trans experience. But eventually, Christine felt her body reverting back to the way it had been before her transition; her chest flattened and her fat moved from her hips to her stomach. She stopped wearing dresses and makeup.

“I wasn't looking at myself in the mirror anymore,” she says. “I existed for 10 months, and then I was gone.”

People who are visibly transgender often have trouble finding a job. Nearly a third live in poverty. Many don’t have health insurance, and those who do may have a plan that doesn’t cover hormones. Although testosterone and estrogen only cost $5 to $30 a month for patients with an insurance plan (and typically less than $100 per month for the uninsured), doctors often require consistent therapy and blood work, which ratchets up the cost. Even when trans people have the money, finding doctors willing to treat them can prove impossible. Trans people are also likely to have had bad experiences with the health care system and want to avoid it altogether.

Without access to quality medical care, trans people around the world are seeking hormones from friends or through illegal online markets, even when the cost exceeds what it would through insurance. Although rare, others are resorting to self-surgery by cutting off their own penis and testicles or breasts.

Even with a doctor’s oversight, the health risks of transgender hormone therapy remain unclear, but without formal medical care, the do-it-yourself transition may be downright dangerous. To minimize these risks, some experts suggest health care reforms such as making it easier for primary care physicians to assess trans patients and prescribe hormones or creating specialized clinics where doctors prescribe hormones on demand.

But those solutions aren’t available to most people who are seeking DIY treatments right now. Many doctors aren’t even aware that DIY transitioning exists, although the few experts who are following the community aren’t surprised. Self-treatment is “the reality for most trans people in the world,” says Ayden Scheim, an epidemiologist focusing on transgender health at Drexel University who is trans himself.

While there isn’t a lot of other existing research on DIY hormone treatment, and some of it may be outdated, the available studies suggest it is fairly common and researchers may in fact be underestimating the prevalence of DIY hormone use because they miss people who avoid the medical system completely. In 2014, researchers in the U.K. found that at the time of their first gender clinic visit, 17 percent of transgender people were already taking hormones that they had bought online or from a friend. In Canada, a quarter of trans people on hormones had self-medicated, according to a 2013 study in the American Journal of Public Health. And in a survey of trans people in Washington, D.C. in 2000, 58 percent said they used non-prescribed hormones.

People cite all sorts of reasons for ordering the drugs online or acquiring them by other means. In addition to distrust of doctors and a lack of insurance or access to health care, some simply don’t want to endure long waits for medications. That’s the case for Emma, a trans woman in college in the Netherlands, where it can take two to three years to receive a physician prescription. (Emma is only using her first name to avoid online harassment, which she says she’s experienced in the past.)

As for surgery, far fewer people turn to DIY versions compared to those who try hormones. A 2012 study in the Journal of Sexual Medicine reported that only 109 cases of self-castration or self-mutilation of the genitals appear in the scientific literature, and not all are related to gender identity. “But one is too many,” Scheim says. “No one should be in a position where they feel like they need to do that.”

The individual cases reveal a practice that is dangerous and devastating. In Hangzhou, China, a 30-year-old transgender woman feared rejection from her family, so she hid her true gender, according to a 2019 Amnesty International report. She also tried to transition in secret. At first, the woman tried putting ice on her genitals to stop them from functioning. When that didn’t work, she booked an appointment with a black-market surgeon, but the doctor was arrested before her session. She attempted surgery on herself, the report says, and after losing a profuse amount of blood, hailed a taxi to the emergency room. There, she asked the doctor to tell her family she had been in an accident.

When it comes to self-surgery, the dangers of DIY transitioning are obvious. The dangers of DIY hormones are more far-ranging, from “not ideal to serious,” Scheim says. Some DIY users take a more-is-better approach, but taking too much testosterone too quickly can fry the vocal cords. Even buying hormones from an online pharmacy is risky. In 2010, more than half of all treatments from illicit websites — not only of hormones, but of any drug — were counterfeit, according to a bulletin from the World Health Organization.

Still, Charley isn’t worried about the legitimacy of the drugs he’s taking. The packaging his estrogen comes in matches what he would get from a pharmacy with a doctor’s prescription, he says. He’s also unconcerned about the side effects. “I just did a metric century” — a 100-kilometer bike ride — “in under four hours and walked away from it feeling great. I’m healthy,” he says. “So, yeah, there might be a few side effects. But I know where the local hospital is.”

Yet waiting to see if a seemingly minor side effect leads to a health emergency may mean a patient gets help too late. “I don’t want to say that the risks are incredibly high and there is a high mortality,” Metastasio says. “I am saying, though, that this is a procedure best to be monitored.” Metastasio and others recommend seeing a doctor regularly to catch any health issues that arise as quickly as possible.

But even when doctors prescribe the drugs, the risks are unclear because of a lack of research on trans health, says Scheim: “There’s so much we don’t know about hormone use.”

Researchers do know a little bit, though. Even when a doctor weighs in on the proper dosages, there is an increased risk of heart attack. Taking testosterone increases the chances of developing acne, headaches and migraines, and anger and irritability, according to the Trans Care Project, a program of the Transcend Transgender Support and Education Society and Vancouver Coastal Health’s Transgender Health Program in Canada. Testosterone also increases the risk of having abnormally high levels of red blood cells, or polycythemia, which thickens the blood and can lead to clotting. Meanwhile, studies suggest estrogen can up the risk for breast cancer, stroke, blood clots, gallstones, and a range of heart issues. And the most common testosterone-blocker, spironolactone, can cause dehydration and weaken the kidneys.

All of these risks make it especially important for trans people to have the support of a medical provider, Metastasio says. Specialists are in short supply, but general practitioners and family doctors should be able to fill the gap. After all, they already sign off on the hormone medications for cisgender people for birth control and conditions such as menopause and male pattern baldness — which come with similar side effects and warnings as when trans people use them.

Some doctors have already realized the connection. “People can increasingly get hormone therapy from their pre-existing family doctor,” Scheim says, “which is really ideal because people should be able to have a sort of continuity of health care.”

Zil Goldstein, associate medical director for transgender and gender non-binary health at the Callen-Lorde Community Health Center in New York City, would like to see more of this. Treating gender dysphoria, she says, should be just like treating a patient for any other condition. “It wouldn't be acceptable for someone to come into a primary care provider’s office with diabetes” and for the doctor to say “‘I can't actually treat you. Please leave,’” she says. Primary care providers need to see transgender care, she adds, “as a regular part of their practice.”

Another way to increase access to hormones is through informed consent, a system which received a green light from the newest WPATH guidelines. That’s how Christine received her hormones from Fenway Health before she moved from Boston to Cape Cod. Under informed consent, if someone has a blood test to assess personal health risks of treatment, they can receive a diagnosis of gender dysphoria, sign off on knowing the risks and benefits of hormone therapy, and get a prescription — all in one day.

And Jaime Lynn Gilmour, a trans woman using the full name she chose to match her gender identity, turned to informed consent after struggling to find DIY hormones. In 2017, Jaime realized she was trans while serving in the military, and says she felt she had to keep her gender a secret. When her service ended, she was ready to start taking hormones right away. So she tried to find them online, but her order wouldn’t go through on three different websites. Instead, she visited a Planned Parenthood clinic. After blood work and a few questions, she walked out with three months of estrogen and spironolactone.

But Goldstein says even informed consent doesn’t go far enough: “If I have someone who's diabetic, I don't make them sign a document eliciting their informed consent before starting insulin.”

For trans people, hormone treatments “are life-saving therapies,” Goldstein adds, “and we shouldn’t delay or stigmatize.”

For now Christine still lives with her parents in Cape Cod. She’s also still off hormones. But she found a job. After she stashes a bit more cash in the bank, she plans to move closer to Boston and find a physician.

Despite the positive shifts in her life, it’s been a difficult few months. After moving to Cape Cod, Christine lost most of her social life and support system — particularly since her parents don’t understand or accept her gender identity. Though she has reconnected with a few friends in the past several weeks, she says she’s in a tough place emotionally. In public, she typically dresses and styles herself to look more masculine to avoid rude stares, and she is experiencing self-hatred that she fears won’t go away when she restarts treatment. Transitioning again isn’t going to be easy, as she explained to Undark in a private message on Facebook: “I've been beaten down enough that now I don't wanna get back up most of the time.”

Even worse is the fear that she might not be able to restart treatment at all. Earlier this year, Christine suffered two health emergencies within the span of a week, in which she says her blood pressure spiked, potentially causing organ damage. Christine has had one similar episode in the past and her family has a history of heart issues.

Christine may not be able to get back on estrogen despite the hard work she’s done to be able to afford it, she says, since it can increase the risk of heart attack and stroke. Because she has so far resisted trying DIY treatments again, she may have saved herself from additional health problems.

But Christine doesn’t see it that way. “Even if it was unsafe, even if I risked health concerns making myself a guinea pig, I wish I followed through,” she wrote. “Being off hormones is hell. And now that I face potentially never taking them again, I wish I had.”

Tara Santora is a science journalist based out of Denver. They have written for Psychology Today, Live Science, Fatherly, Audubon, and more.

This article was originally published on Undark. Read the original article.