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Most stent misdeployments in EUS-GE are manageable
Most instances of stent misdeployment in cases of endoscopic ultrasound–guided gastroenterostomy (EUS-GE) can be managed endoscopically, based on data from 16 tertiary care centers in the United States and Europe.
EUS-GE provides a viable alternative to traditional surgical gastroenterostomy and stent placement for patients with gastric outlet obstruction (GOO), but the potential for stent misdeployment has limited adoption of the procedure because it remains the most common cause of technical failures and adverse events, Bachir Ghandour, MD, of Johns Hopkins University, Baltimore, and colleagues wrote.
However, data on outcomes and management of stent misdeployment during EUS-GE are limited, and the researchers hypothesized that most stent misdeployments could be managed endoscopically.
In a retrospective study published in Gastrointestinal Endoscopy, the researchers reviewed data from 467 EUS-GE procedures performed for gastric outlet obstruction between March 2015 and December 2020 at eight centers in the United States and eight in Europe. The primary outcome was the rate and severity of stent misdeployment.
Stent misdeployment occurred in 46 patients (9.9%). Of these, 73.2% occurred during the operators’ first 13 cases.
The researchers created a classification system of stent misdeployment according to type, depending on which flange was misdeployed.
Type I was the most common, and occurred in 29 patients; this type was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach without evidence of a resulting enterotomy”; type II (14 patients) was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach despite an enterotomy (i.e., visual confirmation of stent having penetrated targeted small bowel, under EUS or fluoroscopy, but migrated out on deployment)”; type III (1 patient) was defined as “the deployment of the distal flange in the small bowel and proximal flange in the peritoneum”; and type IV (2 patients) was defined as “the deployment of the distal flange in the colon and proximal flange in the stomach resulting in a gastrocolic anastomosis,” the researchers wrote.
The researchers also classified the stent misdeployment in terms of severity as mild (28 patients), moderate (11 patients), severe (6 cases) or fatal (1 case) based on the American Society for Gastrointestinal Endoscopy lexicon.
Overall, type I was significantly more likely to be mild in severity, compared with type II (75.9% vs. 42.9%; P = .04), although the rate of surgical repair was similar between these two types (10.3% vs. 7.1%). Rates of ICU admission were approximately 7% in patients with type I and type II stent misdeployments, and the median postprocedural stay was 4 days for these two groups.
Same-session salvage management of GOO was achieved by EUS/endoscopic-GE in 24 patients, duodenal stent placement in 6 patients, duodenal dilation in 1 patient, and gastroenterostomy with natural orifice transluminal endoscopic surgery in 3 patients. Of the remaining 12 patients, GOO was managed with subsequent EUS-GE in 6 patients and surgical GI in 6 patients.
The study findings were limited by several factors including the retrospective design and inclusion of a time period that encompassed changes and improvements in the EUS-GE, the researchers noted. The small sample size of type III and IV stent misdeployments prohibited comparison with other types.
However, the cohort size was relatively large, compared with previous studies, and included a range of centers and countries with different strategies for managing stent misdeployments. Given the steep learning curve for EUS-GE, the study findings may help endoscopists better understand the implications and potential consequences of stent misdeployment by classifying the misdeployments into types. “We believe that such a classification or categorization of the different types is important because patient outcomes vary depending on the specific [stent misdeployment] subtype and site of injury. Such a classification will also be very helpful for future research by standardizing the terminology,” the researchers said.
“Although [stent misdeployment] is not infrequent during EUS-GE, with a rate of approximately 10%, the majority of cases are mild in severity and can be managed or repaired endoscopically without ill consequences,” they concluded. “Surgical intervention is required in less than 11% of the cases.”
Data support safe stent use in GI disease
“The lines continue to be blurred between surgical and endoscopic management of gastrointestinal disease, especially with a rise in therapeutic EUS,” Gyanprakash A. Ketwaroo, MD, of Baylor College of Medicine, Houston, said in an interview.
“Stent misdeployment has been commonly reported during EUS-GE and may limit uptake of this more technically challenging procedure,” Dr. Ketwaroo said. “A comprehensive assessment of stent misdeployment, with suggestions for management and a classification system that predicts outcomes, can help practitioners to more confidently perform this procedure.”
Risks associated with misdeployed stents include “inability to perform the endoscopic management of gastric outlet obstruction, as well as adverse events such as peritonitis,” said Dr. Ketwaroo. He noted that, in most cases, the defect was closed and same-session salvage was performed, primarily by repeat EUS-GE.
Dr. Ketwaroo highlighted one challenge to endoscopic management of stent misdeployment. “If the proximal flange is deployed/slips into peritoneum (type III by currently proposed classification system), it can be more difficult to retrieve the stent,” but “this complication was treated with surgery, and it was very rare – only one case of this in the study,” he explained. “This is a large retrospective multicenter study, which adds validity to the generalizability of the study.” However, prospective studies will be needed as EUS-GE is more widely adopted, he added.
The study received no outside funding. Lead author Dr. Ghandour had no financial conflicts to disclose. Other authors disclosed industry relationships, such as consulting for Boston Scientific, Apollo, Olympus America, Medtronic, and GI Supply. Dr. Ketwaroo had no financial conflicts to disclose, but serves as a member of the GI & Hepatology News editorial advisory board.
Most instances of stent misdeployment in cases of endoscopic ultrasound–guided gastroenterostomy (EUS-GE) can be managed endoscopically, based on data from 16 tertiary care centers in the United States and Europe.
EUS-GE provides a viable alternative to traditional surgical gastroenterostomy and stent placement for patients with gastric outlet obstruction (GOO), but the potential for stent misdeployment has limited adoption of the procedure because it remains the most common cause of technical failures and adverse events, Bachir Ghandour, MD, of Johns Hopkins University, Baltimore, and colleagues wrote.
However, data on outcomes and management of stent misdeployment during EUS-GE are limited, and the researchers hypothesized that most stent misdeployments could be managed endoscopically.
In a retrospective study published in Gastrointestinal Endoscopy, the researchers reviewed data from 467 EUS-GE procedures performed for gastric outlet obstruction between March 2015 and December 2020 at eight centers in the United States and eight in Europe. The primary outcome was the rate and severity of stent misdeployment.
Stent misdeployment occurred in 46 patients (9.9%). Of these, 73.2% occurred during the operators’ first 13 cases.
The researchers created a classification system of stent misdeployment according to type, depending on which flange was misdeployed.
Type I was the most common, and occurred in 29 patients; this type was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach without evidence of a resulting enterotomy”; type II (14 patients) was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach despite an enterotomy (i.e., visual confirmation of stent having penetrated targeted small bowel, under EUS or fluoroscopy, but migrated out on deployment)”; type III (1 patient) was defined as “the deployment of the distal flange in the small bowel and proximal flange in the peritoneum”; and type IV (2 patients) was defined as “the deployment of the distal flange in the colon and proximal flange in the stomach resulting in a gastrocolic anastomosis,” the researchers wrote.
The researchers also classified the stent misdeployment in terms of severity as mild (28 patients), moderate (11 patients), severe (6 cases) or fatal (1 case) based on the American Society for Gastrointestinal Endoscopy lexicon.
Overall, type I was significantly more likely to be mild in severity, compared with type II (75.9% vs. 42.9%; P = .04), although the rate of surgical repair was similar between these two types (10.3% vs. 7.1%). Rates of ICU admission were approximately 7% in patients with type I and type II stent misdeployments, and the median postprocedural stay was 4 days for these two groups.
Same-session salvage management of GOO was achieved by EUS/endoscopic-GE in 24 patients, duodenal stent placement in 6 patients, duodenal dilation in 1 patient, and gastroenterostomy with natural orifice transluminal endoscopic surgery in 3 patients. Of the remaining 12 patients, GOO was managed with subsequent EUS-GE in 6 patients and surgical GI in 6 patients.
The study findings were limited by several factors including the retrospective design and inclusion of a time period that encompassed changes and improvements in the EUS-GE, the researchers noted. The small sample size of type III and IV stent misdeployments prohibited comparison with other types.
However, the cohort size was relatively large, compared with previous studies, and included a range of centers and countries with different strategies for managing stent misdeployments. Given the steep learning curve for EUS-GE, the study findings may help endoscopists better understand the implications and potential consequences of stent misdeployment by classifying the misdeployments into types. “We believe that such a classification or categorization of the different types is important because patient outcomes vary depending on the specific [stent misdeployment] subtype and site of injury. Such a classification will also be very helpful for future research by standardizing the terminology,” the researchers said.
“Although [stent misdeployment] is not infrequent during EUS-GE, with a rate of approximately 10%, the majority of cases are mild in severity and can be managed or repaired endoscopically without ill consequences,” they concluded. “Surgical intervention is required in less than 11% of the cases.”
Data support safe stent use in GI disease
“The lines continue to be blurred between surgical and endoscopic management of gastrointestinal disease, especially with a rise in therapeutic EUS,” Gyanprakash A. Ketwaroo, MD, of Baylor College of Medicine, Houston, said in an interview.
“Stent misdeployment has been commonly reported during EUS-GE and may limit uptake of this more technically challenging procedure,” Dr. Ketwaroo said. “A comprehensive assessment of stent misdeployment, with suggestions for management and a classification system that predicts outcomes, can help practitioners to more confidently perform this procedure.”
Risks associated with misdeployed stents include “inability to perform the endoscopic management of gastric outlet obstruction, as well as adverse events such as peritonitis,” said Dr. Ketwaroo. He noted that, in most cases, the defect was closed and same-session salvage was performed, primarily by repeat EUS-GE.
Dr. Ketwaroo highlighted one challenge to endoscopic management of stent misdeployment. “If the proximal flange is deployed/slips into peritoneum (type III by currently proposed classification system), it can be more difficult to retrieve the stent,” but “this complication was treated with surgery, and it was very rare – only one case of this in the study,” he explained. “This is a large retrospective multicenter study, which adds validity to the generalizability of the study.” However, prospective studies will be needed as EUS-GE is more widely adopted, he added.
The study received no outside funding. Lead author Dr. Ghandour had no financial conflicts to disclose. Other authors disclosed industry relationships, such as consulting for Boston Scientific, Apollo, Olympus America, Medtronic, and GI Supply. Dr. Ketwaroo had no financial conflicts to disclose, but serves as a member of the GI & Hepatology News editorial advisory board.
Most instances of stent misdeployment in cases of endoscopic ultrasound–guided gastroenterostomy (EUS-GE) can be managed endoscopically, based on data from 16 tertiary care centers in the United States and Europe.
EUS-GE provides a viable alternative to traditional surgical gastroenterostomy and stent placement for patients with gastric outlet obstruction (GOO), but the potential for stent misdeployment has limited adoption of the procedure because it remains the most common cause of technical failures and adverse events, Bachir Ghandour, MD, of Johns Hopkins University, Baltimore, and colleagues wrote.
However, data on outcomes and management of stent misdeployment during EUS-GE are limited, and the researchers hypothesized that most stent misdeployments could be managed endoscopically.
In a retrospective study published in Gastrointestinal Endoscopy, the researchers reviewed data from 467 EUS-GE procedures performed for gastric outlet obstruction between March 2015 and December 2020 at eight centers in the United States and eight in Europe. The primary outcome was the rate and severity of stent misdeployment.
Stent misdeployment occurred in 46 patients (9.9%). Of these, 73.2% occurred during the operators’ first 13 cases.
The researchers created a classification system of stent misdeployment according to type, depending on which flange was misdeployed.
Type I was the most common, and occurred in 29 patients; this type was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach without evidence of a resulting enterotomy”; type II (14 patients) was defined as “the deployment of the distal flange in the peritoneum and proximal flange in the stomach despite an enterotomy (i.e., visual confirmation of stent having penetrated targeted small bowel, under EUS or fluoroscopy, but migrated out on deployment)”; type III (1 patient) was defined as “the deployment of the distal flange in the small bowel and proximal flange in the peritoneum”; and type IV (2 patients) was defined as “the deployment of the distal flange in the colon and proximal flange in the stomach resulting in a gastrocolic anastomosis,” the researchers wrote.
The researchers also classified the stent misdeployment in terms of severity as mild (28 patients), moderate (11 patients), severe (6 cases) or fatal (1 case) based on the American Society for Gastrointestinal Endoscopy lexicon.
Overall, type I was significantly more likely to be mild in severity, compared with type II (75.9% vs. 42.9%; P = .04), although the rate of surgical repair was similar between these two types (10.3% vs. 7.1%). Rates of ICU admission were approximately 7% in patients with type I and type II stent misdeployments, and the median postprocedural stay was 4 days for these two groups.
Same-session salvage management of GOO was achieved by EUS/endoscopic-GE in 24 patients, duodenal stent placement in 6 patients, duodenal dilation in 1 patient, and gastroenterostomy with natural orifice transluminal endoscopic surgery in 3 patients. Of the remaining 12 patients, GOO was managed with subsequent EUS-GE in 6 patients and surgical GI in 6 patients.
The study findings were limited by several factors including the retrospective design and inclusion of a time period that encompassed changes and improvements in the EUS-GE, the researchers noted. The small sample size of type III and IV stent misdeployments prohibited comparison with other types.
However, the cohort size was relatively large, compared with previous studies, and included a range of centers and countries with different strategies for managing stent misdeployments. Given the steep learning curve for EUS-GE, the study findings may help endoscopists better understand the implications and potential consequences of stent misdeployment by classifying the misdeployments into types. “We believe that such a classification or categorization of the different types is important because patient outcomes vary depending on the specific [stent misdeployment] subtype and site of injury. Such a classification will also be very helpful for future research by standardizing the terminology,” the researchers said.
“Although [stent misdeployment] is not infrequent during EUS-GE, with a rate of approximately 10%, the majority of cases are mild in severity and can be managed or repaired endoscopically without ill consequences,” they concluded. “Surgical intervention is required in less than 11% of the cases.”
Data support safe stent use in GI disease
“The lines continue to be blurred between surgical and endoscopic management of gastrointestinal disease, especially with a rise in therapeutic EUS,” Gyanprakash A. Ketwaroo, MD, of Baylor College of Medicine, Houston, said in an interview.
“Stent misdeployment has been commonly reported during EUS-GE and may limit uptake of this more technically challenging procedure,” Dr. Ketwaroo said. “A comprehensive assessment of stent misdeployment, with suggestions for management and a classification system that predicts outcomes, can help practitioners to more confidently perform this procedure.”
Risks associated with misdeployed stents include “inability to perform the endoscopic management of gastric outlet obstruction, as well as adverse events such as peritonitis,” said Dr. Ketwaroo. He noted that, in most cases, the defect was closed and same-session salvage was performed, primarily by repeat EUS-GE.
Dr. Ketwaroo highlighted one challenge to endoscopic management of stent misdeployment. “If the proximal flange is deployed/slips into peritoneum (type III by currently proposed classification system), it can be more difficult to retrieve the stent,” but “this complication was treated with surgery, and it was very rare – only one case of this in the study,” he explained. “This is a large retrospective multicenter study, which adds validity to the generalizability of the study.” However, prospective studies will be needed as EUS-GE is more widely adopted, he added.
The study received no outside funding. Lead author Dr. Ghandour had no financial conflicts to disclose. Other authors disclosed industry relationships, such as consulting for Boston Scientific, Apollo, Olympus America, Medtronic, and GI Supply. Dr. Ketwaroo had no financial conflicts to disclose, but serves as a member of the GI & Hepatology News editorial advisory board.
FROM GASTROINTESTINAL ENDOSCOPY
Bimekizumab approved in Europe for psoriasis treatment
, according to a statement from the manufacturer.
Bimekizumab (Bimzelx), a humanized IgG1 monoclonal antibody, is the first approved treatment for moderate to severe plaque psoriasis that selectively inhibits interleukin (IL)–17A and IL-17F, the statement from UCB said.
In the United States, the Food and Drug Administration is expected to make a decision on approval of bimekizumab for treating psoriasis on Oct. 15.
Approval in the EU was based on data from three phase 3 trials including a total of 1,480 adult patients with moderate to severe psoriasis, which found that those treated with bimekizumab experienced significantly greater skin clearance, compared with placebo, ustekinumab, and adalimumab, with a favorable safety profile, according to the company.
In all three studies (BE VIVID, BE READY, and BE SURE), more than 80% of patients treated with bimekizumab showed improved skin clearance after 16 weeks, significantly more than those treated with ustekinumab, placebo, or adalimumab, based on an improvement of at least 90% in the Psoriasis Area & Severity Index (PASI 90) and an Investigator’s Global Assessment (IGA) response of clear or almost clear skin (IGA 0/1). In all three studies, these clinical responses persisted after 1 year.
The recommended dose of bimekizumab is 320 mg, given in two subcutaneous injections every 4 weeks to week 16, then every 8 weeks. However, for “some patients” weighing 120 kg or more who have not achieved complete skin clearance at 16 weeks, 320 mg every 4 weeks after that time may improve response to treatment, according to the company statement.
The most common treatment-related adverse events in the studies were upper respiratory tract infections (a majority of which were nasopharyngitis), reported by 14.5% of patients, followed by oral candidiasis, reported by 7.3%.
Results of BE READY and BE VIVID were published in The Lancet. Results of the BE SURE study were published in The New England Journal of Medicine.
Bimekizumab is contraindicated for individuals with clinically important active infections such as tuberculosis, and for individuals with any hypersensitivity to the active substance. More details on bimekizumab are available on the website of the European Medicines Agency.
, according to a statement from the manufacturer.
Bimekizumab (Bimzelx), a humanized IgG1 monoclonal antibody, is the first approved treatment for moderate to severe plaque psoriasis that selectively inhibits interleukin (IL)–17A and IL-17F, the statement from UCB said.
In the United States, the Food and Drug Administration is expected to make a decision on approval of bimekizumab for treating psoriasis on Oct. 15.
Approval in the EU was based on data from three phase 3 trials including a total of 1,480 adult patients with moderate to severe psoriasis, which found that those treated with bimekizumab experienced significantly greater skin clearance, compared with placebo, ustekinumab, and adalimumab, with a favorable safety profile, according to the company.
In all three studies (BE VIVID, BE READY, and BE SURE), more than 80% of patients treated with bimekizumab showed improved skin clearance after 16 weeks, significantly more than those treated with ustekinumab, placebo, or adalimumab, based on an improvement of at least 90% in the Psoriasis Area & Severity Index (PASI 90) and an Investigator’s Global Assessment (IGA) response of clear or almost clear skin (IGA 0/1). In all three studies, these clinical responses persisted after 1 year.
The recommended dose of bimekizumab is 320 mg, given in two subcutaneous injections every 4 weeks to week 16, then every 8 weeks. However, for “some patients” weighing 120 kg or more who have not achieved complete skin clearance at 16 weeks, 320 mg every 4 weeks after that time may improve response to treatment, according to the company statement.
The most common treatment-related adverse events in the studies were upper respiratory tract infections (a majority of which were nasopharyngitis), reported by 14.5% of patients, followed by oral candidiasis, reported by 7.3%.
Results of BE READY and BE VIVID were published in The Lancet. Results of the BE SURE study were published in The New England Journal of Medicine.
Bimekizumab is contraindicated for individuals with clinically important active infections such as tuberculosis, and for individuals with any hypersensitivity to the active substance. More details on bimekizumab are available on the website of the European Medicines Agency.
, according to a statement from the manufacturer.
Bimekizumab (Bimzelx), a humanized IgG1 monoclonal antibody, is the first approved treatment for moderate to severe plaque psoriasis that selectively inhibits interleukin (IL)–17A and IL-17F, the statement from UCB said.
In the United States, the Food and Drug Administration is expected to make a decision on approval of bimekizumab for treating psoriasis on Oct. 15.
Approval in the EU was based on data from three phase 3 trials including a total of 1,480 adult patients with moderate to severe psoriasis, which found that those treated with bimekizumab experienced significantly greater skin clearance, compared with placebo, ustekinumab, and adalimumab, with a favorable safety profile, according to the company.
In all three studies (BE VIVID, BE READY, and BE SURE), more than 80% of patients treated with bimekizumab showed improved skin clearance after 16 weeks, significantly more than those treated with ustekinumab, placebo, or adalimumab, based on an improvement of at least 90% in the Psoriasis Area & Severity Index (PASI 90) and an Investigator’s Global Assessment (IGA) response of clear or almost clear skin (IGA 0/1). In all three studies, these clinical responses persisted after 1 year.
The recommended dose of bimekizumab is 320 mg, given in two subcutaneous injections every 4 weeks to week 16, then every 8 weeks. However, for “some patients” weighing 120 kg or more who have not achieved complete skin clearance at 16 weeks, 320 mg every 4 weeks after that time may improve response to treatment, according to the company statement.
The most common treatment-related adverse events in the studies were upper respiratory tract infections (a majority of which were nasopharyngitis), reported by 14.5% of patients, followed by oral candidiasis, reported by 7.3%.
Results of BE READY and BE VIVID were published in The Lancet. Results of the BE SURE study were published in The New England Journal of Medicine.
Bimekizumab is contraindicated for individuals with clinically important active infections such as tuberculosis, and for individuals with any hypersensitivity to the active substance. More details on bimekizumab are available on the website of the European Medicines Agency.
Anxiety, inactivity linked to cognitive impairment in Parkinson’s
Parkinson’s disease patients who develop anxiety early in their disease are at risk for reduced physical activity, which promotes further anxiety and cognitive decline, data from nearly 500 individuals show.
Anxiety occurs in 20%-60% of Parkinson’s disease (PD) patients but often goes undiagnosed, wrote Jacob D. Jones, PhD, of California State University, San Bernardino, and colleagues.
“Anxiety can attenuate motivation to engage in physical activity leading to more anxiety and other negative cognitive outcomes,” although physical activity has been shown to improve cognitive function in PD patients, they said. However, physical activity as a mediator between anxiety and cognitive function in PD has not been well studied, they noted.
In a study published in Mental Health and Physical Activity Participants were followed for up to 5 years and completed neuropsychological tests, tests of motor severity, and self-reports on anxiety and physical activity. Anxiety was assessed using the State-Trait Anxiety Inventory-Trait (STAI-T) subscale. Physical activity was assessed using the Physical Activity Scale for the Elderly (PASE). Motor severity was assessed using the Unified Parkinson’s Disease Rating Scale-Part III (UPDRS). The average age of the participants was 61 years, 65% were men, and 96% were White.
Using a direct-effect model, the researchers found that individuals whose anxiety increased during the study period also showed signs of cognitive decline. A significant between-person effect showed that individuals who were generally more anxious also scored lower on cognitive tests over the 5-year study period.
In a mediation model computed with structural equation modeling, physical activity mediated the link between anxiety and cognition, most notably household activity.
“There was a significant within-person association between anxiety and household activities, meaning that individuals who became more anxious over the 5-year study also became less active in the home,” reported Dr. Jones and colleagues.
However, no significant indirect effect was noted regarding the between-person findings of the impact of physical activity on anxiety and cognitive decline. Although more severe anxiety was associated with less activity, cognitive performance was not associated with either type of physical activity.
The presence of a within-person effect “suggests that reductions in physical activity, specifically within the first 5 years of disease onset, may be detrimental to mental health,” the researchers emphasized. Given that the study population was newly diagnosed with PD “it is likely the within-person terms are more sensitive to changes in anxiety, physical activity, and cognition that are more directly the result of the PD process, as opposed to lifestyle/preexisting traits,” they said.
The study findings were limited by several factors, including the use of self-reports to measure physical activity, and the lack of granular information about the details of physical activity, the researchers noted. Another limitation was the inclusion of only newly diagnosed PD patients, which might limit generalizability.
“Future research is warranted to understand if other modes, intensities, or complexities of physical activity impact individuals with PD in a different manner in relation to cognition,” they said.
Dr. Jones and colleagues had no disclosures. The PPMI is supported by the Michael J. Fox Foundation for Parkinson’s Research and funding partners, including numerous pharmaceutical companies.
Parkinson’s disease patients who develop anxiety early in their disease are at risk for reduced physical activity, which promotes further anxiety and cognitive decline, data from nearly 500 individuals show.
Anxiety occurs in 20%-60% of Parkinson’s disease (PD) patients but often goes undiagnosed, wrote Jacob D. Jones, PhD, of California State University, San Bernardino, and colleagues.
“Anxiety can attenuate motivation to engage in physical activity leading to more anxiety and other negative cognitive outcomes,” although physical activity has been shown to improve cognitive function in PD patients, they said. However, physical activity as a mediator between anxiety and cognitive function in PD has not been well studied, they noted.
In a study published in Mental Health and Physical Activity Participants were followed for up to 5 years and completed neuropsychological tests, tests of motor severity, and self-reports on anxiety and physical activity. Anxiety was assessed using the State-Trait Anxiety Inventory-Trait (STAI-T) subscale. Physical activity was assessed using the Physical Activity Scale for the Elderly (PASE). Motor severity was assessed using the Unified Parkinson’s Disease Rating Scale-Part III (UPDRS). The average age of the participants was 61 years, 65% were men, and 96% were White.
Using a direct-effect model, the researchers found that individuals whose anxiety increased during the study period also showed signs of cognitive decline. A significant between-person effect showed that individuals who were generally more anxious also scored lower on cognitive tests over the 5-year study period.
In a mediation model computed with structural equation modeling, physical activity mediated the link between anxiety and cognition, most notably household activity.
“There was a significant within-person association between anxiety and household activities, meaning that individuals who became more anxious over the 5-year study also became less active in the home,” reported Dr. Jones and colleagues.
However, no significant indirect effect was noted regarding the between-person findings of the impact of physical activity on anxiety and cognitive decline. Although more severe anxiety was associated with less activity, cognitive performance was not associated with either type of physical activity.
The presence of a within-person effect “suggests that reductions in physical activity, specifically within the first 5 years of disease onset, may be detrimental to mental health,” the researchers emphasized. Given that the study population was newly diagnosed with PD “it is likely the within-person terms are more sensitive to changes in anxiety, physical activity, and cognition that are more directly the result of the PD process, as opposed to lifestyle/preexisting traits,” they said.
The study findings were limited by several factors, including the use of self-reports to measure physical activity, and the lack of granular information about the details of physical activity, the researchers noted. Another limitation was the inclusion of only newly diagnosed PD patients, which might limit generalizability.
“Future research is warranted to understand if other modes, intensities, or complexities of physical activity impact individuals with PD in a different manner in relation to cognition,” they said.
Dr. Jones and colleagues had no disclosures. The PPMI is supported by the Michael J. Fox Foundation for Parkinson’s Research and funding partners, including numerous pharmaceutical companies.
Parkinson’s disease patients who develop anxiety early in their disease are at risk for reduced physical activity, which promotes further anxiety and cognitive decline, data from nearly 500 individuals show.
Anxiety occurs in 20%-60% of Parkinson’s disease (PD) patients but often goes undiagnosed, wrote Jacob D. Jones, PhD, of California State University, San Bernardino, and colleagues.
“Anxiety can attenuate motivation to engage in physical activity leading to more anxiety and other negative cognitive outcomes,” although physical activity has been shown to improve cognitive function in PD patients, they said. However, physical activity as a mediator between anxiety and cognitive function in PD has not been well studied, they noted.
In a study published in Mental Health and Physical Activity Participants were followed for up to 5 years and completed neuropsychological tests, tests of motor severity, and self-reports on anxiety and physical activity. Anxiety was assessed using the State-Trait Anxiety Inventory-Trait (STAI-T) subscale. Physical activity was assessed using the Physical Activity Scale for the Elderly (PASE). Motor severity was assessed using the Unified Parkinson’s Disease Rating Scale-Part III (UPDRS). The average age of the participants was 61 years, 65% were men, and 96% were White.
Using a direct-effect model, the researchers found that individuals whose anxiety increased during the study period also showed signs of cognitive decline. A significant between-person effect showed that individuals who were generally more anxious also scored lower on cognitive tests over the 5-year study period.
In a mediation model computed with structural equation modeling, physical activity mediated the link between anxiety and cognition, most notably household activity.
“There was a significant within-person association between anxiety and household activities, meaning that individuals who became more anxious over the 5-year study also became less active in the home,” reported Dr. Jones and colleagues.
However, no significant indirect effect was noted regarding the between-person findings of the impact of physical activity on anxiety and cognitive decline. Although more severe anxiety was associated with less activity, cognitive performance was not associated with either type of physical activity.
The presence of a within-person effect “suggests that reductions in physical activity, specifically within the first 5 years of disease onset, may be detrimental to mental health,” the researchers emphasized. Given that the study population was newly diagnosed with PD “it is likely the within-person terms are more sensitive to changes in anxiety, physical activity, and cognition that are more directly the result of the PD process, as opposed to lifestyle/preexisting traits,” they said.
The study findings were limited by several factors, including the use of self-reports to measure physical activity, and the lack of granular information about the details of physical activity, the researchers noted. Another limitation was the inclusion of only newly diagnosed PD patients, which might limit generalizability.
“Future research is warranted to understand if other modes, intensities, or complexities of physical activity impact individuals with PD in a different manner in relation to cognition,” they said.
Dr. Jones and colleagues had no disclosures. The PPMI is supported by the Michael J. Fox Foundation for Parkinson’s Research and funding partners, including numerous pharmaceutical companies.
FROM MENTAL HEALTH AND PHYSICAL ACTIVITY
Psychotic features among older adults tied to Parkinson’s
Adults aged 65 years and older who develop psychotic manifestations are significantly more likely than those without such manifestations to develop prodromal Parkinson’s disease, data from 925 individuals suggest.
“The presence of perceptual abnormalities and/or delusional ideation among community-dwelling elderly individuals is more widespread than considered in the past,” wrote Ioanna Pachi, MD, of National and Kapodistrian University of Athens Medical School and colleagues. However, those psychoses and their potential impact on prodromal Parkinson’s disease (PD) have not been well studied in community-dwelling populations, they noted in the study, published in Parkinsonism and Related Disorders.
In the study, Dr. Pachi and colleagues reviewed data from 914 participants in the Hellenic Longitudinal Investigation of Aging and Diet study (HELIAD), a cross-sectional, population-based cohort study of older adults in Greece. The average age of the participants was 76 years, and 41% were men. Participants had no delusional features at baseline; delusional features were assessed using the Neuropsychiatric Inventory scale and the Columbia University Scale for Psychopathology in Alzheimer’s disease. The researchers calculated the probability of prodromal PD (pPD) for each participant based on the 2019 International Parkinson and Movement Disorders Society research criteria for prodromal PD.
Over a 3-year follow-up period, 20 participants developed psychotic manifestations and were 1.3 times more likely to have pPD, compared with those without psychoses (P = .006). Those with new-onset psychotic features were categorized together as the NPSY group, regardless of symptom severity or frequency; those with no symptoms at either baseline or during follow-up were categorized as unaffected (UPSY). Most of the NPSY participants showed isolated delusional features, although some expressed hallucinations. Most symptoms were mild.
New-onset psychosis was associated with a fivefold increased risk of both subthreshold parkinsonism and depression (adjusted odds ratios, 4.5 and 5.0, respectively) and with a threefold increased risk of constipation (aOR 2.6). Other factors, including nonsmoking, global cognitive deficit, and anxiety were not significantly associated with new-onset psychotic symptoms after adjusting for confounding factors.
Although the mechanism behind the association remains unclear,
The study findings were limited by several factors, including the administration of neuropsychiatric questionnaires by nonpsychiatrists, and lack of detailed psychiatric history, including complete information on medication use, the researchers noted. The small size of the NPSY group also prevented evaluation of the potential associations between pPD and different modalities of hallucinations, they said.
However, the results were strengthened by the overall large and population-based sample size, and the comprehensive evaluation of psychotic features, they wrote. More follow-up evaluations in the HELIAD cohort are planned to further explore the underlying mechanism of the association between late-life psychosis and pPD.
“Provided that these results are confirmed in other community cohorts of elderly subjects, psychotic features may be added to the list of manifestations of pPD,” they concluded.
The study was supported in part by grants from the Alzheimer’s Association, ARISTEIA, and the ESPA-EU program Excellence Grant. It was cofunded by the European Social Fund and Greek National resources, the Ministry for Health and Social Solidarity, Greece, and the Greek State Scholarships Foundation. Dr. Pachi had no disclosures.
Adults aged 65 years and older who develop psychotic manifestations are significantly more likely than those without such manifestations to develop prodromal Parkinson’s disease, data from 925 individuals suggest.
“The presence of perceptual abnormalities and/or delusional ideation among community-dwelling elderly individuals is more widespread than considered in the past,” wrote Ioanna Pachi, MD, of National and Kapodistrian University of Athens Medical School and colleagues. However, those psychoses and their potential impact on prodromal Parkinson’s disease (PD) have not been well studied in community-dwelling populations, they noted in the study, published in Parkinsonism and Related Disorders.
In the study, Dr. Pachi and colleagues reviewed data from 914 participants in the Hellenic Longitudinal Investigation of Aging and Diet study (HELIAD), a cross-sectional, population-based cohort study of older adults in Greece. The average age of the participants was 76 years, and 41% were men. Participants had no delusional features at baseline; delusional features were assessed using the Neuropsychiatric Inventory scale and the Columbia University Scale for Psychopathology in Alzheimer’s disease. The researchers calculated the probability of prodromal PD (pPD) for each participant based on the 2019 International Parkinson and Movement Disorders Society research criteria for prodromal PD.
Over a 3-year follow-up period, 20 participants developed psychotic manifestations and were 1.3 times more likely to have pPD, compared with those without psychoses (P = .006). Those with new-onset psychotic features were categorized together as the NPSY group, regardless of symptom severity or frequency; those with no symptoms at either baseline or during follow-up were categorized as unaffected (UPSY). Most of the NPSY participants showed isolated delusional features, although some expressed hallucinations. Most symptoms were mild.
New-onset psychosis was associated with a fivefold increased risk of both subthreshold parkinsonism and depression (adjusted odds ratios, 4.5 and 5.0, respectively) and with a threefold increased risk of constipation (aOR 2.6). Other factors, including nonsmoking, global cognitive deficit, and anxiety were not significantly associated with new-onset psychotic symptoms after adjusting for confounding factors.
Although the mechanism behind the association remains unclear,
The study findings were limited by several factors, including the administration of neuropsychiatric questionnaires by nonpsychiatrists, and lack of detailed psychiatric history, including complete information on medication use, the researchers noted. The small size of the NPSY group also prevented evaluation of the potential associations between pPD and different modalities of hallucinations, they said.
However, the results were strengthened by the overall large and population-based sample size, and the comprehensive evaluation of psychotic features, they wrote. More follow-up evaluations in the HELIAD cohort are planned to further explore the underlying mechanism of the association between late-life psychosis and pPD.
“Provided that these results are confirmed in other community cohorts of elderly subjects, psychotic features may be added to the list of manifestations of pPD,” they concluded.
The study was supported in part by grants from the Alzheimer’s Association, ARISTEIA, and the ESPA-EU program Excellence Grant. It was cofunded by the European Social Fund and Greek National resources, the Ministry for Health and Social Solidarity, Greece, and the Greek State Scholarships Foundation. Dr. Pachi had no disclosures.
Adults aged 65 years and older who develop psychotic manifestations are significantly more likely than those without such manifestations to develop prodromal Parkinson’s disease, data from 925 individuals suggest.
“The presence of perceptual abnormalities and/or delusional ideation among community-dwelling elderly individuals is more widespread than considered in the past,” wrote Ioanna Pachi, MD, of National and Kapodistrian University of Athens Medical School and colleagues. However, those psychoses and their potential impact on prodromal Parkinson’s disease (PD) have not been well studied in community-dwelling populations, they noted in the study, published in Parkinsonism and Related Disorders.
In the study, Dr. Pachi and colleagues reviewed data from 914 participants in the Hellenic Longitudinal Investigation of Aging and Diet study (HELIAD), a cross-sectional, population-based cohort study of older adults in Greece. The average age of the participants was 76 years, and 41% were men. Participants had no delusional features at baseline; delusional features were assessed using the Neuropsychiatric Inventory scale and the Columbia University Scale for Psychopathology in Alzheimer’s disease. The researchers calculated the probability of prodromal PD (pPD) for each participant based on the 2019 International Parkinson and Movement Disorders Society research criteria for prodromal PD.
Over a 3-year follow-up period, 20 participants developed psychotic manifestations and were 1.3 times more likely to have pPD, compared with those without psychoses (P = .006). Those with new-onset psychotic features were categorized together as the NPSY group, regardless of symptom severity or frequency; those with no symptoms at either baseline or during follow-up were categorized as unaffected (UPSY). Most of the NPSY participants showed isolated delusional features, although some expressed hallucinations. Most symptoms were mild.
New-onset psychosis was associated with a fivefold increased risk of both subthreshold parkinsonism and depression (adjusted odds ratios, 4.5 and 5.0, respectively) and with a threefold increased risk of constipation (aOR 2.6). Other factors, including nonsmoking, global cognitive deficit, and anxiety were not significantly associated with new-onset psychotic symptoms after adjusting for confounding factors.
Although the mechanism behind the association remains unclear,
The study findings were limited by several factors, including the administration of neuropsychiatric questionnaires by nonpsychiatrists, and lack of detailed psychiatric history, including complete information on medication use, the researchers noted. The small size of the NPSY group also prevented evaluation of the potential associations between pPD and different modalities of hallucinations, they said.
However, the results were strengthened by the overall large and population-based sample size, and the comprehensive evaluation of psychotic features, they wrote. More follow-up evaluations in the HELIAD cohort are planned to further explore the underlying mechanism of the association between late-life psychosis and pPD.
“Provided that these results are confirmed in other community cohorts of elderly subjects, psychotic features may be added to the list of manifestations of pPD,” they concluded.
The study was supported in part by grants from the Alzheimer’s Association, ARISTEIA, and the ESPA-EU program Excellence Grant. It was cofunded by the European Social Fund and Greek National resources, the Ministry for Health and Social Solidarity, Greece, and the Greek State Scholarships Foundation. Dr. Pachi had no disclosures.
FROM PARKINSONISM AND RELATED DISORDERS
Antibiotics, microbiome may affect immunogenicity in IBD
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In the current study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used “to reduce risk of ADAs and enhance efficacy of anti-TNF therapy.”
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
Help your patients better understand their IBD treatment options by sharing AGA’s patient education, “Living with IBD,” in the AGA GI Patient Center at www.gastro.org/IBD.
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In the current study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used “to reduce risk of ADAs and enhance efficacy of anti-TNF therapy.”
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
Help your patients better understand their IBD treatment options by sharing AGA’s patient education, “Living with IBD,” in the AGA GI Patient Center at www.gastro.org/IBD.
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In the current study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used “to reduce risk of ADAs and enhance efficacy of anti-TNF therapy.”
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
Help your patients better understand their IBD treatment options by sharing AGA’s patient education, “Living with IBD,” in the AGA GI Patient Center at www.gastro.org/IBD.
FROM GUT
Antibiotics, microbiome may affect immunogenicity in IBD
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In this study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used "to reduce risk of ADAs and enhance efficacy of anti-TNF therapy."
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In this study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used "to reduce risk of ADAs and enhance efficacy of anti-TNF therapy."
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
The use fluoroquinolones or macrolides reduced immunogenicity risk in inflammatory bowel disease (IBD) patients on anti–tumor necrosis factor (anti-TNF) therapy, according to data from nearly 2,000 individuals.
Anti-TNF therapy with monoclonal antibodies is an established treatment for Crohn’s disease and ulcerative colitis, but approximately 40% of patients fail to respond initially and even more fail to achieve complete remission, wrote Yuri Gorelik, MD, of Rambam Health Care Campus, Haifa, Israel, and colleagues.
“Immunogenicity, which refers to the development of antidrug antibodies [ADA] is considered as the main factor driving secondary loss of response and is likely involved in primary nonresponse as well,” but data on how to predict the risk for ADA formation are limited, they said.
In a study published in Gut, the researchers identified data from 1,946 IBD patients using the epi-IIRN (epidemiology group of the Israeli IBD research nucleus), a nationwide registry of all IBD patients in Israel.
A total of 363 patients had positive ADA after a median follow-up period of 651 days after starting therapy. Overall, the risk of ADA development was significantly higher in patients on cephalosporins (adjusted hazard ratio, 1.97; 95% confidence interval, 1.58-2.44) or penicillin with beta-lactamase inhibitors (BLIs) (aHR, 1.38; 95% CI, 1.13-1.74) during anti-TNF therapy, and it was higher still for patients using both. By contrast, the risk was lower in patients on macrolides (aHR, 0.36; 95% CI, 0.16-0.82) or fluoroquinolones (aHR, 0.20; 95% CI; 95% CI, 0.12-0.35). All P values were less than .05 when compared with nontreated groups.
In the same study, the researchers reported data on mice treated with antibiotics and challenged with infliximab to evaluate the causative effect of antibiotics and the associated disruption to the gut microbiome on the formation of ADA. After 14 days, the researchers found significantly increased ADA production in mice treated with cephalosporins, compared with those treated with macrolides, but germ-free mice produced no ADA, which supports the role of microbial composition on ADA production.
The investigators cited previous research into the microbiome as a biomarker for prediction response to anti-TNF therapy; past results have also suggested that the effect of cephalosporins and penicillin-BLIs could be explained by the particular dysbiosis induced by those agents.
The study findings were limited by several factors including the retrospective design and potential for selection bias, as well as the inability to adjust antibiotic exposure according to type and severity of infection, they noted. However, “this is the first large scale study that extensively evaluated the effect of different antibiotic classes on immunogenicity of anti-TNF therapy,” and the results suggest that ADA development during anti-TNF therapy may to reduced by the use of fluoroquinolones and macrolides.
“Specific microbial manipulation may serve as a tool to modify immunogenicity which is preferably turned on for protective immunizations and off for biological therapy,” they noted. “Further studies involving detailed analysis of the antibiotic effects on the human microbiome and immune milieu are needed, as well as comparative experiments with other medications used to reduce immunogenicity.”
Unexpected findings may drive future drug choices
“Development of antidrug antibodies in patients on biologics for inflammatory bowel disease is an important mechanism for loss of response to a therapeutic agent,” Kim L. Isaacs, MD, AGAF, of the University of North Carolina at Chapel Hill, said in an interview. “To date the causes of development of ADAs is relatively understudied. Our approach to prevent ADA includes increasing immunosuppression in patients most commonly with combination therapy with thiopurines. If factors that provoke or prevent antibody formation are elucidated, therapy can be tailored to prevent ADAs and maximize the duration of response of many of our biologic therapies.”
A prior study performed by the ABIRISK European consortium demonstrated associations with antibiotics. “In this study, there was a differential effect of cephalosporins/penicillins (increased immunogenicity) and macrolides (decreased immunogenicity),” she said. “These studies suggest that the microbiome may be important in ADA formation to biologics – this is a concept that is novel and unexpected.
“The rationale for the choice of antibiotics in the population studied is not known, and it is possible that different infections may have led to different antibiotic choices, which in turn may have affected immunogenicity,” said Dr. Isaacs. However, clinicians might be able to tailor antibiotic choice in the future if the microbiome is playing a major role in risk for development of ADA.
“Further research is needed to further correlate microbiome changes with immunogenicity, to look at other classes of antibiotics and their role in immunogenicity, and to clarify the infections or reasons that these patients are receiving antibiotics,” Dr. Isaacs concluded.
Understanding the microbiome
Recent observations have shown associations between clinical response to anti-TNF and gut microbiota composition, noted Jatin Roper, MD, of Duke University, Durham, N.C. “More broadly, a growing body of evidence suggests that the gut microbiota modulates the metabolism of many therapeutic agents, as well as immune responses to infections.”
That said, Dr. Roper was surprised that “clinical use of different antibiotics, often short term, had such distinct effects on ADA levels.” Furthermore, “these findings suggest that distinct microbiota or microbial metabolic products impact antibody development to common immunomodulatory therapies in opposite ways,” which is itself a surprising finding.
Such antibodies to anti-TNF therapy are common in IBD, he said, but one implication of the study is how antibiotics could be carefully used "to reduce risk of ADAs and enhance efficacy of anti-TNF therapy."
However, because any antibiotic therapy will modify the gut microbiome and lead to unwanted effects, “further research is needed on how these agents impact the gut microbiome, with the ultimate goal of identifying specific microbiota or microbial metabolic products that can reproduce the intriguing findings of this paper.”
The study was supported in part by the Leona M. and Harry B. Helmsley Charitable Trust and the Israeli Ministry of Science and Technology. Dr. Gorelik had no financial conflicts to disclose. Several coauthors disclosed relationships with multiple pharmaceutical companies including AbbVie, CytoReason, Takeda, and Pfizer. Dr. Isaacs had no financial conflicts to disclose, but serves on the GI&Hepatology News board of editors. Dr. Roper had no relevant disclosures.
FROM GUT
Move from awareness to action to combat racism in medicine
Structural racism and implicit bias are connected, and both must be addressed to move from awareness of racism to action, said Nathan Chomilo, MD, of HealthPartners/Park Nicollet, Brooklyn Center, Minn., in a presentation at the virtual Pediatric Hospital Medicine annual conference.
“We need pediatricians with the courage to address racism head on,” he said.
One step in moving from awareness to action against structural and institutional racism in medicine is examining policies, Dr. Chomilo said. He cited the creation of Medicare and Medicaid in 1965 as examples of how policy changes can make a difference, illustrated by data from 1955-1975 that showed a significant decrease in infant deaths among Black infants in Mississippi after 1965.
Medicaid expansion has helped to narrow, but not eliminate, racial disparities in health care, Dr. Chomilo said. The impact of Medicare and Medicaid is evident in the current COVID-19 pandemic, as county level data show that areas where more than 25% of the population are uninsured have higher rates of COVID-19 infections, said Dr. Chomilo. Policies that impact access to care also impact their incidence of chronic diseases and risk for severe disease, he noted.
“If you don’t have ready access to a health care provider, you don’t have access to the vaccine, and you don’t have information that would inform your getting the vaccine,” he added.
Prioritizing the power of voting
“Voting is one of many ways we can impact structural racism in health care policy,” Dr. Chomilo emphasized.
However, voting inequity remains a challenge, Dr. Chomilo noted. Community level disparities lead to inequity in voting access and subsequent disparities in voter participation, he said. “Leaders are less responsive to nonvoting constituents,” which can result in policies that impact health inequitably, and loop back to community level health disparities, he explained.
Historically, physicians have had an 8%-9% lower voter turnout than the general public, although this may have changed in recent elections, Dr. Chomilo said. He encouraged all clinicians to set an example and vote, and to empower their patients to vote. Evidence shows that enfranchisement of Black voters is associated with reductions in education gaps for Blacks and Whites, and that enfranchisement of women is associated with increased spending on children and lower child mortality, he said. Dr. Chomilo encouraged pediatricians and all clinicians to take advantage of the resources on voting available from the American Academy of Pediatrics (aap.org/votekids).
“When we see more people in a community vote, leaders are more responsive to their needs,” he said.
Informing racial identity
“Racial identity is informed by racial socialization,” Dr. Chomilo said. “All of us are socialized along the lines of race; it happens in conversations with parents, family, peers, community.” Another point in moving from awareness to action in eliminating structural racism is recognizing that children are not too young to talk about race, Dr. Chomilo emphasized.
Children start to navigate racial identity and to take note of other differences at an early age. For example, a 3-year-old might ask, “why does that person talk funny, why is that person being pushed in a chair?” Dr. Chomilo said, and it is important for parents and as pediatricians to be prepared for these questions, which are part of normal development. As children get older, they start to reflect on what differences mean for them, which is not rooted in anything negative, he noted.
Children first develop racial identity at home, but children solidify their identities in child care and school settings, Dr. Chomilo said. The American Academy of Pediatrics has acknowledged the potential for racial bias in education and child care, and said in a statement that, “it is critical for pediatricians to recognize the institutional personally mediated, and internalized levels of racism that occur in the educational setting, because education is a critical social determinant of health for children.” In fact, data from children in preschool show that they use racial categories to identify themselves and others, to include or exclude children from activities, and to negotiate power in their social and play networks.
Early intervention matters in educating children about racism, Dr. Chomilo said. “If we were not taught to talk about race, it is on us to learn about it ourselves as well,” he said.
Ultimately, the goal is to create active antiracism among adults and children, said Dr. Chomilo. He encouraged pediatricians and parents not to shut down or discourage children when they raise questions of race, but to take the opportunity to teach. “There may be hurt feelings around what a child said, even if they didn’t mean to offend someone,” he noted. Take the topic seriously, and make racism conversations ongoing; teach children to safely oppose negative messages and behaviors in others, and replace them with something positive, he emphasized.
Addressing bias in clinical settings
Dr. Chomilo also encouraged hospitalists to consider internalized racism in clinical settings and take action to build confidence and cultural pride in all patients by ensuring that a pediatric hospital unit is welcoming and representative of the diversity in a given community, with appropriate options for books, movies, and toys. He also encouraged pediatric hospitalists to assess children for experiences of racism as part of a social assessment. Be aware of signs of posttraumatic stress, anxiety, depression, or grief that might have a racial component, he said.
Dr. Chomilo had no financial conflicts to disclose.
Structural racism and implicit bias are connected, and both must be addressed to move from awareness of racism to action, said Nathan Chomilo, MD, of HealthPartners/Park Nicollet, Brooklyn Center, Minn., in a presentation at the virtual Pediatric Hospital Medicine annual conference.
“We need pediatricians with the courage to address racism head on,” he said.
One step in moving from awareness to action against structural and institutional racism in medicine is examining policies, Dr. Chomilo said. He cited the creation of Medicare and Medicaid in 1965 as examples of how policy changes can make a difference, illustrated by data from 1955-1975 that showed a significant decrease in infant deaths among Black infants in Mississippi after 1965.
Medicaid expansion has helped to narrow, but not eliminate, racial disparities in health care, Dr. Chomilo said. The impact of Medicare and Medicaid is evident in the current COVID-19 pandemic, as county level data show that areas where more than 25% of the population are uninsured have higher rates of COVID-19 infections, said Dr. Chomilo. Policies that impact access to care also impact their incidence of chronic diseases and risk for severe disease, he noted.
“If you don’t have ready access to a health care provider, you don’t have access to the vaccine, and you don’t have information that would inform your getting the vaccine,” he added.
Prioritizing the power of voting
“Voting is one of many ways we can impact structural racism in health care policy,” Dr. Chomilo emphasized.
However, voting inequity remains a challenge, Dr. Chomilo noted. Community level disparities lead to inequity in voting access and subsequent disparities in voter participation, he said. “Leaders are less responsive to nonvoting constituents,” which can result in policies that impact health inequitably, and loop back to community level health disparities, he explained.
Historically, physicians have had an 8%-9% lower voter turnout than the general public, although this may have changed in recent elections, Dr. Chomilo said. He encouraged all clinicians to set an example and vote, and to empower their patients to vote. Evidence shows that enfranchisement of Black voters is associated with reductions in education gaps for Blacks and Whites, and that enfranchisement of women is associated with increased spending on children and lower child mortality, he said. Dr. Chomilo encouraged pediatricians and all clinicians to take advantage of the resources on voting available from the American Academy of Pediatrics (aap.org/votekids).
“When we see more people in a community vote, leaders are more responsive to their needs,” he said.
Informing racial identity
“Racial identity is informed by racial socialization,” Dr. Chomilo said. “All of us are socialized along the lines of race; it happens in conversations with parents, family, peers, community.” Another point in moving from awareness to action in eliminating structural racism is recognizing that children are not too young to talk about race, Dr. Chomilo emphasized.
Children start to navigate racial identity and to take note of other differences at an early age. For example, a 3-year-old might ask, “why does that person talk funny, why is that person being pushed in a chair?” Dr. Chomilo said, and it is important for parents and as pediatricians to be prepared for these questions, which are part of normal development. As children get older, they start to reflect on what differences mean for them, which is not rooted in anything negative, he noted.
Children first develop racial identity at home, but children solidify their identities in child care and school settings, Dr. Chomilo said. The American Academy of Pediatrics has acknowledged the potential for racial bias in education and child care, and said in a statement that, “it is critical for pediatricians to recognize the institutional personally mediated, and internalized levels of racism that occur in the educational setting, because education is a critical social determinant of health for children.” In fact, data from children in preschool show that they use racial categories to identify themselves and others, to include or exclude children from activities, and to negotiate power in their social and play networks.
Early intervention matters in educating children about racism, Dr. Chomilo said. “If we were not taught to talk about race, it is on us to learn about it ourselves as well,” he said.
Ultimately, the goal is to create active antiracism among adults and children, said Dr. Chomilo. He encouraged pediatricians and parents not to shut down or discourage children when they raise questions of race, but to take the opportunity to teach. “There may be hurt feelings around what a child said, even if they didn’t mean to offend someone,” he noted. Take the topic seriously, and make racism conversations ongoing; teach children to safely oppose negative messages and behaviors in others, and replace them with something positive, he emphasized.
Addressing bias in clinical settings
Dr. Chomilo also encouraged hospitalists to consider internalized racism in clinical settings and take action to build confidence and cultural pride in all patients by ensuring that a pediatric hospital unit is welcoming and representative of the diversity in a given community, with appropriate options for books, movies, and toys. He also encouraged pediatric hospitalists to assess children for experiences of racism as part of a social assessment. Be aware of signs of posttraumatic stress, anxiety, depression, or grief that might have a racial component, he said.
Dr. Chomilo had no financial conflicts to disclose.
Structural racism and implicit bias are connected, and both must be addressed to move from awareness of racism to action, said Nathan Chomilo, MD, of HealthPartners/Park Nicollet, Brooklyn Center, Minn., in a presentation at the virtual Pediatric Hospital Medicine annual conference.
“We need pediatricians with the courage to address racism head on,” he said.
One step in moving from awareness to action against structural and institutional racism in medicine is examining policies, Dr. Chomilo said. He cited the creation of Medicare and Medicaid in 1965 as examples of how policy changes can make a difference, illustrated by data from 1955-1975 that showed a significant decrease in infant deaths among Black infants in Mississippi after 1965.
Medicaid expansion has helped to narrow, but not eliminate, racial disparities in health care, Dr. Chomilo said. The impact of Medicare and Medicaid is evident in the current COVID-19 pandemic, as county level data show that areas where more than 25% of the population are uninsured have higher rates of COVID-19 infections, said Dr. Chomilo. Policies that impact access to care also impact their incidence of chronic diseases and risk for severe disease, he noted.
“If you don’t have ready access to a health care provider, you don’t have access to the vaccine, and you don’t have information that would inform your getting the vaccine,” he added.
Prioritizing the power of voting
“Voting is one of many ways we can impact structural racism in health care policy,” Dr. Chomilo emphasized.
However, voting inequity remains a challenge, Dr. Chomilo noted. Community level disparities lead to inequity in voting access and subsequent disparities in voter participation, he said. “Leaders are less responsive to nonvoting constituents,” which can result in policies that impact health inequitably, and loop back to community level health disparities, he explained.
Historically, physicians have had an 8%-9% lower voter turnout than the general public, although this may have changed in recent elections, Dr. Chomilo said. He encouraged all clinicians to set an example and vote, and to empower their patients to vote. Evidence shows that enfranchisement of Black voters is associated with reductions in education gaps for Blacks and Whites, and that enfranchisement of women is associated with increased spending on children and lower child mortality, he said. Dr. Chomilo encouraged pediatricians and all clinicians to take advantage of the resources on voting available from the American Academy of Pediatrics (aap.org/votekids).
“When we see more people in a community vote, leaders are more responsive to their needs,” he said.
Informing racial identity
“Racial identity is informed by racial socialization,” Dr. Chomilo said. “All of us are socialized along the lines of race; it happens in conversations with parents, family, peers, community.” Another point in moving from awareness to action in eliminating structural racism is recognizing that children are not too young to talk about race, Dr. Chomilo emphasized.
Children start to navigate racial identity and to take note of other differences at an early age. For example, a 3-year-old might ask, “why does that person talk funny, why is that person being pushed in a chair?” Dr. Chomilo said, and it is important for parents and as pediatricians to be prepared for these questions, which are part of normal development. As children get older, they start to reflect on what differences mean for them, which is not rooted in anything negative, he noted.
Children first develop racial identity at home, but children solidify their identities in child care and school settings, Dr. Chomilo said. The American Academy of Pediatrics has acknowledged the potential for racial bias in education and child care, and said in a statement that, “it is critical for pediatricians to recognize the institutional personally mediated, and internalized levels of racism that occur in the educational setting, because education is a critical social determinant of health for children.” In fact, data from children in preschool show that they use racial categories to identify themselves and others, to include or exclude children from activities, and to negotiate power in their social and play networks.
Early intervention matters in educating children about racism, Dr. Chomilo said. “If we were not taught to talk about race, it is on us to learn about it ourselves as well,” he said.
Ultimately, the goal is to create active antiracism among adults and children, said Dr. Chomilo. He encouraged pediatricians and parents not to shut down or discourage children when they raise questions of race, but to take the opportunity to teach. “There may be hurt feelings around what a child said, even if they didn’t mean to offend someone,” he noted. Take the topic seriously, and make racism conversations ongoing; teach children to safely oppose negative messages and behaviors in others, and replace them with something positive, he emphasized.
Addressing bias in clinical settings
Dr. Chomilo also encouraged hospitalists to consider internalized racism in clinical settings and take action to build confidence and cultural pride in all patients by ensuring that a pediatric hospital unit is welcoming and representative of the diversity in a given community, with appropriate options for books, movies, and toys. He also encouraged pediatric hospitalists to assess children for experiences of racism as part of a social assessment. Be aware of signs of posttraumatic stress, anxiety, depression, or grief that might have a racial component, he said.
Dr. Chomilo had no financial conflicts to disclose.
FROM PHM 2021
Febrile infant guideline allows wiggle room on hospital admission, testing
The long-anticipated American Academy of Pediatrics guidelines for the treatment of well-appearing febrile infants have arrived, and key points include updated guidance for cerebrospinal fluid testing and urine cultures, according to Robert Pantell, MD, and Kenneth Roberts, MD, who presented the guidelines at the virtual Pediatric Hospital Medicine annual conference.
The AAP guideline was published in the August 2021 issue of Pediatrics. The guideline includes 21 key action statements and 40 total recommendations, and describes separate management algorithms for three age groups: infants aged 8-21 days, 22-28 days, and 29-60 days.
Dr. Roberts, of the University of North Carolina at Chapel Hill, and Dr. Pantell, of the University of California, San Francisco, emphasized that all pediatricians should read the full guideline, but they offered an overview of some of the notable points.
Some changes that drove the development of evidence-based guideline included changes in technology, such as the increased use of procalcitonin, the development of large research networks for studies of sufficient size, and a need to reduce the costs of unnecessary care and unnecessary trauma for infants, Dr. Roberts said. Use of data from large networks such as the Pediatric Emergency Care Applied Research Network provided enough evidence to support dividing the aged 8- to 60-day population into three groups.
The guideline applies to well-appearing term infants aged 8-60 days and at least 37 weeks’ gestation, with fever of 38° C (100.4° F) or higher in the past 24 hours in the home or clinical setting. The decision to exclude infants in the first week of life from the guideline was because at this age, infants “are sufficiently different in rates and types of illness, including early-onset bacterial infection,” according to the authors.
Dr. Roberts emphasized that the guidelines apply to “well-appearing infants,” which is not always obvious. “If a clinician is not confident an infant is well appearing, the clinical practice guideline should not be applied,” he said.
The guideline also includes a visual algorithm for each age group.
Dr. Pantell summarized the key action statements for the three age groups, and encouraged pediatricians to review the visual algorithms and footnotes available in the full text of the guideline.
The guideline includes seven key action statements for each of the three age groups. Four of these address evaluations, using urine, blood culture, inflammatory markers (IM), and cerebrospinal fluid (CSF). One action statement focuses on initial treatment, and two on management: hospital admission versus monitoring at home, and treatment cessation.
Infants aged 8-21 days
The key action statements for well-appearing infants aged 8-21 days are similar to what clinicians likely would do for ill-appearing infants, the authors noted, based in part on the challenge of assessing an infant this age as “well appearing,” because they don’t yet have the ability to interact with the clinician.
For the 8- to 21-day group, the first two key actions are to obtain a urine specimen and blood culture, Dr. Pantell said. Also, clinicians “should” obtain a CSF for analysis and culture. “We recognize that the ability to get CSF quickly is a challenge,” he added. However, for the 8- to 21-day age group, a new feature is that these infants may be discharged if the CSF is negative. Evaluation in this youngest group states that clinicians “may assess inflammatory markers” including height of fever, absolute neutrophil count, C-reactive protein, and procalcitonin.
Treatment of infants in the 8- to 21-day group “should” include parenteral antimicrobial therapy, according to the guideline, and these infants “should” be actively monitored in the hospital by nurses and staff experienced in neonatal care, Dr. Pantell said. The guideline also includes a key action statement to stop antimicrobials at 24-36 hours if cultures are negative, but to treat identified organisms.
Infants aged 22-28 days
In both the 22- to 28-day-old and 29- to 60-day-old groups, the guideline offers opportunities for less testing and treatment, such as avoiding a lumbar puncture, and fewer hospitalizations. The development of a separate guideline for the 22- to 28-day group is something new, said Dr. Pantell. The guideline states that clinicians should obtain urine specimens and blood culture, and should assess IM in this group. Further key action statements note that clinicians “should obtain a CSF if any IM is positive,” but “may” obtain CSF if the infant is hospitalized, if blood and urine cultures have been obtained, and if none of the IMs are abnormal.
As with younger patients, those with a negative CSF can go home, he said. As for treatment, clinicians “should” administer parenteral antimicrobial therapy to infants managed at home even if they have a negative CSF and urinalysis (UA), and no abnormal inflammatory markers Other points for management of infants in this age group at home include verbal teaching and written instructions for caregivers, plans for a re-evaluation at home in 24 hours, and a plan for communication and access to emergency care in case of a change in clinical status, Dr. Pantell explained. The guideline states that infants “should” be hospitalized if CSF is either not obtained or not interpretable, which leaves room for clinical judgment and individual circumstances. Antimicrobials “should” be discontinued in this group once all cultures are negative after 24-36 hours and no other infection requires treatment.
Infants aged 29-60 days
For the 29- to 60-day group, there are some differences, the main one is the recommendation of blood cultures in this group, said Dr. Pantell. “We are seeing a lot of UTIs [urinary tract infections], and we would like those treated.” However, clinicians need not obtain a CSF if other IMs are normal, but may do so if any IM is abnormal. Antimicrobial therapy may include ceftriaxone or cephalexin for UTIs, or vancomycin for bacteremia.
Although antimicrobial therapy is an option for UTIs and bacterial meningitis, clinicians “need not” use antimicrobials if CSF is normal, if UA is negative, and if no IMs are abnormal, Dr. Pantell added. Overall, further management of infants in this oldest age group should focus on discharge to home in the absence of abnormal findings, but hospitalization in the presence of abnormal CSF, IMs, or other concerns.
During a question-and-answer session, Dr. Roberts said that, while rectal temperature is preferable, any method is acceptable as a starting point for applying the guideline. Importantly, the guideline still leaves room for clinical judgment. “We hope this will change some thinking as far as whether one model fits all,” he noted. The authors tried to temper the word “should” with the word “may” when possible, so clinicians can say: “I’m going to individualize my decision to the infant in front of me.”
Ultimately, the guideline is meant as a guide, and not an absolute standard of care, the authors said. The language of the key action statements includes the words “should, may, need not” in place of “must, must not.” The guideline recommends factoring family values and preferences into any treatment decisions. “Variations, taking into account individual circumstances, may be appropriate.”
The guideline received no outside funding. The authors had no financial conflicts to disclose.
The long-anticipated American Academy of Pediatrics guidelines for the treatment of well-appearing febrile infants have arrived, and key points include updated guidance for cerebrospinal fluid testing and urine cultures, according to Robert Pantell, MD, and Kenneth Roberts, MD, who presented the guidelines at the virtual Pediatric Hospital Medicine annual conference.
The AAP guideline was published in the August 2021 issue of Pediatrics. The guideline includes 21 key action statements and 40 total recommendations, and describes separate management algorithms for three age groups: infants aged 8-21 days, 22-28 days, and 29-60 days.
Dr. Roberts, of the University of North Carolina at Chapel Hill, and Dr. Pantell, of the University of California, San Francisco, emphasized that all pediatricians should read the full guideline, but they offered an overview of some of the notable points.
Some changes that drove the development of evidence-based guideline included changes in technology, such as the increased use of procalcitonin, the development of large research networks for studies of sufficient size, and a need to reduce the costs of unnecessary care and unnecessary trauma for infants, Dr. Roberts said. Use of data from large networks such as the Pediatric Emergency Care Applied Research Network provided enough evidence to support dividing the aged 8- to 60-day population into three groups.
The guideline applies to well-appearing term infants aged 8-60 days and at least 37 weeks’ gestation, with fever of 38° C (100.4° F) or higher in the past 24 hours in the home or clinical setting. The decision to exclude infants in the first week of life from the guideline was because at this age, infants “are sufficiently different in rates and types of illness, including early-onset bacterial infection,” according to the authors.
Dr. Roberts emphasized that the guidelines apply to “well-appearing infants,” which is not always obvious. “If a clinician is not confident an infant is well appearing, the clinical practice guideline should not be applied,” he said.
The guideline also includes a visual algorithm for each age group.
Dr. Pantell summarized the key action statements for the three age groups, and encouraged pediatricians to review the visual algorithms and footnotes available in the full text of the guideline.
The guideline includes seven key action statements for each of the three age groups. Four of these address evaluations, using urine, blood culture, inflammatory markers (IM), and cerebrospinal fluid (CSF). One action statement focuses on initial treatment, and two on management: hospital admission versus monitoring at home, and treatment cessation.
Infants aged 8-21 days
The key action statements for well-appearing infants aged 8-21 days are similar to what clinicians likely would do for ill-appearing infants, the authors noted, based in part on the challenge of assessing an infant this age as “well appearing,” because they don’t yet have the ability to interact with the clinician.
For the 8- to 21-day group, the first two key actions are to obtain a urine specimen and blood culture, Dr. Pantell said. Also, clinicians “should” obtain a CSF for analysis and culture. “We recognize that the ability to get CSF quickly is a challenge,” he added. However, for the 8- to 21-day age group, a new feature is that these infants may be discharged if the CSF is negative. Evaluation in this youngest group states that clinicians “may assess inflammatory markers” including height of fever, absolute neutrophil count, C-reactive protein, and procalcitonin.
Treatment of infants in the 8- to 21-day group “should” include parenteral antimicrobial therapy, according to the guideline, and these infants “should” be actively monitored in the hospital by nurses and staff experienced in neonatal care, Dr. Pantell said. The guideline also includes a key action statement to stop antimicrobials at 24-36 hours if cultures are negative, but to treat identified organisms.
Infants aged 22-28 days
In both the 22- to 28-day-old and 29- to 60-day-old groups, the guideline offers opportunities for less testing and treatment, such as avoiding a lumbar puncture, and fewer hospitalizations. The development of a separate guideline for the 22- to 28-day group is something new, said Dr. Pantell. The guideline states that clinicians should obtain urine specimens and blood culture, and should assess IM in this group. Further key action statements note that clinicians “should obtain a CSF if any IM is positive,” but “may” obtain CSF if the infant is hospitalized, if blood and urine cultures have been obtained, and if none of the IMs are abnormal.
As with younger patients, those with a negative CSF can go home, he said. As for treatment, clinicians “should” administer parenteral antimicrobial therapy to infants managed at home even if they have a negative CSF and urinalysis (UA), and no abnormal inflammatory markers Other points for management of infants in this age group at home include verbal teaching and written instructions for caregivers, plans for a re-evaluation at home in 24 hours, and a plan for communication and access to emergency care in case of a change in clinical status, Dr. Pantell explained. The guideline states that infants “should” be hospitalized if CSF is either not obtained or not interpretable, which leaves room for clinical judgment and individual circumstances. Antimicrobials “should” be discontinued in this group once all cultures are negative after 24-36 hours and no other infection requires treatment.
Infants aged 29-60 days
For the 29- to 60-day group, there are some differences, the main one is the recommendation of blood cultures in this group, said Dr. Pantell. “We are seeing a lot of UTIs [urinary tract infections], and we would like those treated.” However, clinicians need not obtain a CSF if other IMs are normal, but may do so if any IM is abnormal. Antimicrobial therapy may include ceftriaxone or cephalexin for UTIs, or vancomycin for bacteremia.
Although antimicrobial therapy is an option for UTIs and bacterial meningitis, clinicians “need not” use antimicrobials if CSF is normal, if UA is negative, and if no IMs are abnormal, Dr. Pantell added. Overall, further management of infants in this oldest age group should focus on discharge to home in the absence of abnormal findings, but hospitalization in the presence of abnormal CSF, IMs, or other concerns.
During a question-and-answer session, Dr. Roberts said that, while rectal temperature is preferable, any method is acceptable as a starting point for applying the guideline. Importantly, the guideline still leaves room for clinical judgment. “We hope this will change some thinking as far as whether one model fits all,” he noted. The authors tried to temper the word “should” with the word “may” when possible, so clinicians can say: “I’m going to individualize my decision to the infant in front of me.”
Ultimately, the guideline is meant as a guide, and not an absolute standard of care, the authors said. The language of the key action statements includes the words “should, may, need not” in place of “must, must not.” The guideline recommends factoring family values and preferences into any treatment decisions. “Variations, taking into account individual circumstances, may be appropriate.”
The guideline received no outside funding. The authors had no financial conflicts to disclose.
The long-anticipated American Academy of Pediatrics guidelines for the treatment of well-appearing febrile infants have arrived, and key points include updated guidance for cerebrospinal fluid testing and urine cultures, according to Robert Pantell, MD, and Kenneth Roberts, MD, who presented the guidelines at the virtual Pediatric Hospital Medicine annual conference.
The AAP guideline was published in the August 2021 issue of Pediatrics. The guideline includes 21 key action statements and 40 total recommendations, and describes separate management algorithms for three age groups: infants aged 8-21 days, 22-28 days, and 29-60 days.
Dr. Roberts, of the University of North Carolina at Chapel Hill, and Dr. Pantell, of the University of California, San Francisco, emphasized that all pediatricians should read the full guideline, but they offered an overview of some of the notable points.
Some changes that drove the development of evidence-based guideline included changes in technology, such as the increased use of procalcitonin, the development of large research networks for studies of sufficient size, and a need to reduce the costs of unnecessary care and unnecessary trauma for infants, Dr. Roberts said. Use of data from large networks such as the Pediatric Emergency Care Applied Research Network provided enough evidence to support dividing the aged 8- to 60-day population into three groups.
The guideline applies to well-appearing term infants aged 8-60 days and at least 37 weeks’ gestation, with fever of 38° C (100.4° F) or higher in the past 24 hours in the home or clinical setting. The decision to exclude infants in the first week of life from the guideline was because at this age, infants “are sufficiently different in rates and types of illness, including early-onset bacterial infection,” according to the authors.
Dr. Roberts emphasized that the guidelines apply to “well-appearing infants,” which is not always obvious. “If a clinician is not confident an infant is well appearing, the clinical practice guideline should not be applied,” he said.
The guideline also includes a visual algorithm for each age group.
Dr. Pantell summarized the key action statements for the three age groups, and encouraged pediatricians to review the visual algorithms and footnotes available in the full text of the guideline.
The guideline includes seven key action statements for each of the three age groups. Four of these address evaluations, using urine, blood culture, inflammatory markers (IM), and cerebrospinal fluid (CSF). One action statement focuses on initial treatment, and two on management: hospital admission versus monitoring at home, and treatment cessation.
Infants aged 8-21 days
The key action statements for well-appearing infants aged 8-21 days are similar to what clinicians likely would do for ill-appearing infants, the authors noted, based in part on the challenge of assessing an infant this age as “well appearing,” because they don’t yet have the ability to interact with the clinician.
For the 8- to 21-day group, the first two key actions are to obtain a urine specimen and blood culture, Dr. Pantell said. Also, clinicians “should” obtain a CSF for analysis and culture. “We recognize that the ability to get CSF quickly is a challenge,” he added. However, for the 8- to 21-day age group, a new feature is that these infants may be discharged if the CSF is negative. Evaluation in this youngest group states that clinicians “may assess inflammatory markers” including height of fever, absolute neutrophil count, C-reactive protein, and procalcitonin.
Treatment of infants in the 8- to 21-day group “should” include parenteral antimicrobial therapy, according to the guideline, and these infants “should” be actively monitored in the hospital by nurses and staff experienced in neonatal care, Dr. Pantell said. The guideline also includes a key action statement to stop antimicrobials at 24-36 hours if cultures are negative, but to treat identified organisms.
Infants aged 22-28 days
In both the 22- to 28-day-old and 29- to 60-day-old groups, the guideline offers opportunities for less testing and treatment, such as avoiding a lumbar puncture, and fewer hospitalizations. The development of a separate guideline for the 22- to 28-day group is something new, said Dr. Pantell. The guideline states that clinicians should obtain urine specimens and blood culture, and should assess IM in this group. Further key action statements note that clinicians “should obtain a CSF if any IM is positive,” but “may” obtain CSF if the infant is hospitalized, if blood and urine cultures have been obtained, and if none of the IMs are abnormal.
As with younger patients, those with a negative CSF can go home, he said. As for treatment, clinicians “should” administer parenteral antimicrobial therapy to infants managed at home even if they have a negative CSF and urinalysis (UA), and no abnormal inflammatory markers Other points for management of infants in this age group at home include verbal teaching and written instructions for caregivers, plans for a re-evaluation at home in 24 hours, and a plan for communication and access to emergency care in case of a change in clinical status, Dr. Pantell explained. The guideline states that infants “should” be hospitalized if CSF is either not obtained or not interpretable, which leaves room for clinical judgment and individual circumstances. Antimicrobials “should” be discontinued in this group once all cultures are negative after 24-36 hours and no other infection requires treatment.
Infants aged 29-60 days
For the 29- to 60-day group, there are some differences, the main one is the recommendation of blood cultures in this group, said Dr. Pantell. “We are seeing a lot of UTIs [urinary tract infections], and we would like those treated.” However, clinicians need not obtain a CSF if other IMs are normal, but may do so if any IM is abnormal. Antimicrobial therapy may include ceftriaxone or cephalexin for UTIs, or vancomycin for bacteremia.
Although antimicrobial therapy is an option for UTIs and bacterial meningitis, clinicians “need not” use antimicrobials if CSF is normal, if UA is negative, and if no IMs are abnormal, Dr. Pantell added. Overall, further management of infants in this oldest age group should focus on discharge to home in the absence of abnormal findings, but hospitalization in the presence of abnormal CSF, IMs, or other concerns.
During a question-and-answer session, Dr. Roberts said that, while rectal temperature is preferable, any method is acceptable as a starting point for applying the guideline. Importantly, the guideline still leaves room for clinical judgment. “We hope this will change some thinking as far as whether one model fits all,” he noted. The authors tried to temper the word “should” with the word “may” when possible, so clinicians can say: “I’m going to individualize my decision to the infant in front of me.”
Ultimately, the guideline is meant as a guide, and not an absolute standard of care, the authors said. The language of the key action statements includes the words “should, may, need not” in place of “must, must not.” The guideline recommends factoring family values and preferences into any treatment decisions. “Variations, taking into account individual circumstances, may be appropriate.”
The guideline received no outside funding. The authors had no financial conflicts to disclose.
FROM PHM 2021
Task force affirms routine gestational diabetes testing
Asymptomatic pregnant women with no previous diagnosis of type 1 or 2 diabetes should be screened for gestational diabetes at 24 weeks’ gestation or later, according to an updated recommendation from the U.S. Preventive Services Task Force.
Pregnant individuals who develop gestational diabetes are at increased risk for complications including preeclampsia, fetal macrosomia, and neonatal hypoglycemia, as well as negative long-term outcomes for themselves and their children, wrote lead author Karina W. Davidson, PhD, of Feinstein Institute for Medical Research, Manhasset, N.Y., and colleagues. The statement was published online in JAMA.
The B recommendation and I statement reflect “moderate certainty” that current evidence supports the recommendation in terms of harms versus benefits, and is consistent with the 2014 USPSTF recommendation.
The statement calls for a one-time screening using a glucose tolerance test at or after 24 weeks’ gestation. Although most screening in the United States takes place prior to 28 weeks’ gestation, it can be performed later in patients who begin prenatal care after 28 weeks’ gestation, according to the statement. Data on the harms and benefits of gestational diabetes screening prior to 24 weeks’ gestation are limited, the authors noted. Gestational diabetes was defined as diabetes that develops during pregnancy that is not clearly overt diabetes.
To update the 2014 recommendation, the USPSTF commissioned a systematic review. In 45 prospective studies on the accuracy of gestational diabetes screening, several tests, included oral glucose challenge test, oral glucose tolerance test, and fasting plasma glucose using either a one- or two-step approach were accurate detectors of gestational diabetes; therefore, the USPSTF does not recommend a specific test.
In 13 trials on the impact of treating gestational diabetes on intermediate and health outcomes, treatment was associated with a reduced risk of outcomes, including primary cesarean delivery (but not total cesarean delivery) and preterm delivery, but not with a reduced risk of outcomes including preeclampsia, emergency cesarean delivery, induction of labor, or maternal birth trauma.
The task force also reviewed seven studies of harms associated with screening for gestational diabetes, including three on psychosocial harms, three on hospital experiences, and one of the odds of cesarean delivery after a diagnosis of gestational diabetes. No increase in anxiety or depression occurred following a positive diagnosis or false-positive test result, but data suggested that a gestational diabetes diagnosis may be associated with higher rates of cesarean delivery.
A total of 13 trials evaluated the harms associated with treatment of gestational diabetes, and found no association between treatment and increased risk of several outcomes including severe maternal hypoglycemia, low birth weight, and small for gestational age, and no effect was noted on the number of cesarean deliveries.
Evidence gaps that require additional research include randomized, controlled trials on the effects of gestational diabetes screening on health outcomes, as well as benefits versus harms of screening for pregnant individuals prior to 24 weeks, and studies on the effects of screening in subpopulations of race/ethnicity, age, and socioeconomic factors, according to the task force. Additional research also is needed in areas of maternal health outcomes, long-term outcomes, and the effect on outcomes of one-step versus two-step screening, the USPSTF said.
However, “screening for and detecting gestational diabetes provides a potential opportunity to control blood glucose levels (through lifestyle changes, pharmacological interventions, or both) and reduce the risk of macrosomia and LGA [large for gestational age] infants,” the task force wrote. “In turn, this can prevent associated complications such as primary cesarean delivery, shoulder dystocia, and [neonatal] ICU admissions.”
Support screening with counseling on risk reduction
The USPSTF recommendation is important at this time because “the prevalence of gestational diabetes is increasing secondary to rising rates of obesity,” Iris Krishna, MD, of Emory University, Atlanta, said in an interview.
“In 2014, based on a systematic review of literature, the USPSTF recommended screening all asymptomatic pregnant women for gestational diabetes mellitus [GDM] starting at 24 weeks’ gestation. The recommended gestational age for screening coincides with increasing insulin resistance during pregnancy with advancing gestational age,” Dr. Krishna said.
“An updated systematic review by the USPSTF concluded that existing literature continues to affirm current recommendations of universal screening for GDM at 24 weeks gestation or later. There continues, however, to be no consensus on the optimal approach to screening,” she noted.
“Screening can be performed as a two-step or one-step approach,” said Dr. Krishna. “The two-step approach is commonly used in the United States, and all pregnant women are first screened with a 50-gram oral glucose solution followed by a diagnostic test if they have a positive initial screening.
“Women with risk factors for diabetes, such as prior GDM, obesity, strong family history of diabetes, or history of fetal macrosomia, should be screened early in pregnancy for GDM and have the GDM screen repeated at 24 weeks’ gestation or later if normal in early pregnancy,” Dr. Krishna said. “Pregnant women should be counseled on the importance of diet and exercise and appropriate weight gain in pregnancy to reduce the risk of GDM. Overall, timely diagnosis of gestational diabetes is crucial to improving maternal and fetal pregnancy outcomes.”
The full recommendation statement is also available on the USPSTF website. The research was supported by the Agency for Healthcare Research and Quality. The researchers had no financial conflicts to disclose. Dr. Krishna had no disclosures, but serves on the editorial advisory board of Ob.Gyn News.
Asymptomatic pregnant women with no previous diagnosis of type 1 or 2 diabetes should be screened for gestational diabetes at 24 weeks’ gestation or later, according to an updated recommendation from the U.S. Preventive Services Task Force.
Pregnant individuals who develop gestational diabetes are at increased risk for complications including preeclampsia, fetal macrosomia, and neonatal hypoglycemia, as well as negative long-term outcomes for themselves and their children, wrote lead author Karina W. Davidson, PhD, of Feinstein Institute for Medical Research, Manhasset, N.Y., and colleagues. The statement was published online in JAMA.
The B recommendation and I statement reflect “moderate certainty” that current evidence supports the recommendation in terms of harms versus benefits, and is consistent with the 2014 USPSTF recommendation.
The statement calls for a one-time screening using a glucose tolerance test at or after 24 weeks’ gestation. Although most screening in the United States takes place prior to 28 weeks’ gestation, it can be performed later in patients who begin prenatal care after 28 weeks’ gestation, according to the statement. Data on the harms and benefits of gestational diabetes screening prior to 24 weeks’ gestation are limited, the authors noted. Gestational diabetes was defined as diabetes that develops during pregnancy that is not clearly overt diabetes.
To update the 2014 recommendation, the USPSTF commissioned a systematic review. In 45 prospective studies on the accuracy of gestational diabetes screening, several tests, included oral glucose challenge test, oral glucose tolerance test, and fasting plasma glucose using either a one- or two-step approach were accurate detectors of gestational diabetes; therefore, the USPSTF does not recommend a specific test.
In 13 trials on the impact of treating gestational diabetes on intermediate and health outcomes, treatment was associated with a reduced risk of outcomes, including primary cesarean delivery (but not total cesarean delivery) and preterm delivery, but not with a reduced risk of outcomes including preeclampsia, emergency cesarean delivery, induction of labor, or maternal birth trauma.
The task force also reviewed seven studies of harms associated with screening for gestational diabetes, including three on psychosocial harms, three on hospital experiences, and one of the odds of cesarean delivery after a diagnosis of gestational diabetes. No increase in anxiety or depression occurred following a positive diagnosis or false-positive test result, but data suggested that a gestational diabetes diagnosis may be associated with higher rates of cesarean delivery.
A total of 13 trials evaluated the harms associated with treatment of gestational diabetes, and found no association between treatment and increased risk of several outcomes including severe maternal hypoglycemia, low birth weight, and small for gestational age, and no effect was noted on the number of cesarean deliveries.
Evidence gaps that require additional research include randomized, controlled trials on the effects of gestational diabetes screening on health outcomes, as well as benefits versus harms of screening for pregnant individuals prior to 24 weeks, and studies on the effects of screening in subpopulations of race/ethnicity, age, and socioeconomic factors, according to the task force. Additional research also is needed in areas of maternal health outcomes, long-term outcomes, and the effect on outcomes of one-step versus two-step screening, the USPSTF said.
However, “screening for and detecting gestational diabetes provides a potential opportunity to control blood glucose levels (through lifestyle changes, pharmacological interventions, or both) and reduce the risk of macrosomia and LGA [large for gestational age] infants,” the task force wrote. “In turn, this can prevent associated complications such as primary cesarean delivery, shoulder dystocia, and [neonatal] ICU admissions.”
Support screening with counseling on risk reduction
The USPSTF recommendation is important at this time because “the prevalence of gestational diabetes is increasing secondary to rising rates of obesity,” Iris Krishna, MD, of Emory University, Atlanta, said in an interview.
“In 2014, based on a systematic review of literature, the USPSTF recommended screening all asymptomatic pregnant women for gestational diabetes mellitus [GDM] starting at 24 weeks’ gestation. The recommended gestational age for screening coincides with increasing insulin resistance during pregnancy with advancing gestational age,” Dr. Krishna said.
“An updated systematic review by the USPSTF concluded that existing literature continues to affirm current recommendations of universal screening for GDM at 24 weeks gestation or later. There continues, however, to be no consensus on the optimal approach to screening,” she noted.
“Screening can be performed as a two-step or one-step approach,” said Dr. Krishna. “The two-step approach is commonly used in the United States, and all pregnant women are first screened with a 50-gram oral glucose solution followed by a diagnostic test if they have a positive initial screening.
“Women with risk factors for diabetes, such as prior GDM, obesity, strong family history of diabetes, or history of fetal macrosomia, should be screened early in pregnancy for GDM and have the GDM screen repeated at 24 weeks’ gestation or later if normal in early pregnancy,” Dr. Krishna said. “Pregnant women should be counseled on the importance of diet and exercise and appropriate weight gain in pregnancy to reduce the risk of GDM. Overall, timely diagnosis of gestational diabetes is crucial to improving maternal and fetal pregnancy outcomes.”
The full recommendation statement is also available on the USPSTF website. The research was supported by the Agency for Healthcare Research and Quality. The researchers had no financial conflicts to disclose. Dr. Krishna had no disclosures, but serves on the editorial advisory board of Ob.Gyn News.
Asymptomatic pregnant women with no previous diagnosis of type 1 or 2 diabetes should be screened for gestational diabetes at 24 weeks’ gestation or later, according to an updated recommendation from the U.S. Preventive Services Task Force.
Pregnant individuals who develop gestational diabetes are at increased risk for complications including preeclampsia, fetal macrosomia, and neonatal hypoglycemia, as well as negative long-term outcomes for themselves and their children, wrote lead author Karina W. Davidson, PhD, of Feinstein Institute for Medical Research, Manhasset, N.Y., and colleagues. The statement was published online in JAMA.
The B recommendation and I statement reflect “moderate certainty” that current evidence supports the recommendation in terms of harms versus benefits, and is consistent with the 2014 USPSTF recommendation.
The statement calls for a one-time screening using a glucose tolerance test at or after 24 weeks’ gestation. Although most screening in the United States takes place prior to 28 weeks’ gestation, it can be performed later in patients who begin prenatal care after 28 weeks’ gestation, according to the statement. Data on the harms and benefits of gestational diabetes screening prior to 24 weeks’ gestation are limited, the authors noted. Gestational diabetes was defined as diabetes that develops during pregnancy that is not clearly overt diabetes.
To update the 2014 recommendation, the USPSTF commissioned a systematic review. In 45 prospective studies on the accuracy of gestational diabetes screening, several tests, included oral glucose challenge test, oral glucose tolerance test, and fasting plasma glucose using either a one- or two-step approach were accurate detectors of gestational diabetes; therefore, the USPSTF does not recommend a specific test.
In 13 trials on the impact of treating gestational diabetes on intermediate and health outcomes, treatment was associated with a reduced risk of outcomes, including primary cesarean delivery (but not total cesarean delivery) and preterm delivery, but not with a reduced risk of outcomes including preeclampsia, emergency cesarean delivery, induction of labor, or maternal birth trauma.
The task force also reviewed seven studies of harms associated with screening for gestational diabetes, including three on psychosocial harms, three on hospital experiences, and one of the odds of cesarean delivery after a diagnosis of gestational diabetes. No increase in anxiety or depression occurred following a positive diagnosis or false-positive test result, but data suggested that a gestational diabetes diagnosis may be associated with higher rates of cesarean delivery.
A total of 13 trials evaluated the harms associated with treatment of gestational diabetes, and found no association between treatment and increased risk of several outcomes including severe maternal hypoglycemia, low birth weight, and small for gestational age, and no effect was noted on the number of cesarean deliveries.
Evidence gaps that require additional research include randomized, controlled trials on the effects of gestational diabetes screening on health outcomes, as well as benefits versus harms of screening for pregnant individuals prior to 24 weeks, and studies on the effects of screening in subpopulations of race/ethnicity, age, and socioeconomic factors, according to the task force. Additional research also is needed in areas of maternal health outcomes, long-term outcomes, and the effect on outcomes of one-step versus two-step screening, the USPSTF said.
However, “screening for and detecting gestational diabetes provides a potential opportunity to control blood glucose levels (through lifestyle changes, pharmacological interventions, or both) and reduce the risk of macrosomia and LGA [large for gestational age] infants,” the task force wrote. “In turn, this can prevent associated complications such as primary cesarean delivery, shoulder dystocia, and [neonatal] ICU admissions.”
Support screening with counseling on risk reduction
The USPSTF recommendation is important at this time because “the prevalence of gestational diabetes is increasing secondary to rising rates of obesity,” Iris Krishna, MD, of Emory University, Atlanta, said in an interview.
“In 2014, based on a systematic review of literature, the USPSTF recommended screening all asymptomatic pregnant women for gestational diabetes mellitus [GDM] starting at 24 weeks’ gestation. The recommended gestational age for screening coincides with increasing insulin resistance during pregnancy with advancing gestational age,” Dr. Krishna said.
“An updated systematic review by the USPSTF concluded that existing literature continues to affirm current recommendations of universal screening for GDM at 24 weeks gestation or later. There continues, however, to be no consensus on the optimal approach to screening,” she noted.
“Screening can be performed as a two-step or one-step approach,” said Dr. Krishna. “The two-step approach is commonly used in the United States, and all pregnant women are first screened with a 50-gram oral glucose solution followed by a diagnostic test if they have a positive initial screening.
“Women with risk factors for diabetes, such as prior GDM, obesity, strong family history of diabetes, or history of fetal macrosomia, should be screened early in pregnancy for GDM and have the GDM screen repeated at 24 weeks’ gestation or later if normal in early pregnancy,” Dr. Krishna said. “Pregnant women should be counseled on the importance of diet and exercise and appropriate weight gain in pregnancy to reduce the risk of GDM. Overall, timely diagnosis of gestational diabetes is crucial to improving maternal and fetal pregnancy outcomes.”
The full recommendation statement is also available on the USPSTF website. The research was supported by the Agency for Healthcare Research and Quality. The researchers had no financial conflicts to disclose. Dr. Krishna had no disclosures, but serves on the editorial advisory board of Ob.Gyn News.
FROM JAMA
Fauci says ‘unprecedented’ conditions could influence COVID vaccine approval for kids
“From a public health standpoint, I think we have an evolving situation,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, in a moderated session with Lee Beers, MD, president of the American Academy of Pediatrics, at the virtual Pediatric Hospital Medicine annual conference.
The reasons for this shift remain unclear, he said.
Dr. Beers emphasized the ability of pediatric hospitalists to be flexible in the face of uncertainty and the evolving virus, and asked Dr. Fauci to elaborate on the unique traits of the delta variant that make it especially challenging.
“There is no doubt that delta transmits much more efficiently than the alpha variant or any other variant,” Dr. Fauci said. The transmissibility is evident in comparisons of the level of virus in the nasopharynx of the delta variant, compared with the original alpha COVID-19 virus – delta is as much as 1,000 times higher, he explained.
In addition, the level of virus in the nasopharynx of vaccinated individuals who develop breakthrough infections with the delta variant is similar to the levels in unvaccinated individuals who are infected with the delta variant.
The delta variant is “the tough guy on the block” at the moment, Dr. Fauci said.
Dr. Fauci also responded to a question on the lack of winter viruses, such as RSV and the flu, last winter, but the surge in these viruses over the summer.
This winter’s activity remains uncertain, Dr. Fauci said. However, he speculated “with a strong dose of humility and modesty” that viruses tend to have niches, some are seasonal, and the winter viruses that were displaced by COVID-19 hit harder in the summer instead. “If I were a [non-COVID] virus looking for a niche, I would be really confused,” he said. “I don’t know what will happen this winter, but if we get good control over COVID-19 by winter, we could have a very vengeful influenza season,” he said. “This is speculation, I don’t have any data for this,” he cautioned.
Dr. Beers raised the issue of back-to-school safety, and the updated AAP guidance for universal masking for K-12 students. “Our guidance about return to school gets updated as the situation changes and we gain a better understanding of how kids can get to school safely,” she said. A combination of factors affect back-to-school guidance, including the ineligibility of children younger than 12 years to be vaccinated, the number of adolescents who are eligible but have not been vaccinated, and the challenge for educators to navigate which children should wear masks, Dr. Beers said.
“We want to get vaccines for our youngest kids as soon as safely possible,” Dr. Beers emphasized. She noted that the same urgency is needed to provide vaccines for children as for adults, although “we have to do it safely, and be sure and feel confident in the data.”
When asked to comment about the status of FDA authorization of COVID-19 vaccines for younger children, Dr. Fauci described the current situation as one that “might require some unprecedented and unique action” on the part of the FDA, which tends to move cautiously because of safety considerations. However, concerns about adverse events might get in the way of protecting children against what “you are really worried about,” in this case COVID-19 and its variants, he said. Despite the breakthrough infections, “vaccination continues to very adequately protect people from getting severe disease,” he emphasized.
Dr. Fauci also said that he believes the current data support boosters for the immune compromised; however “it is a different story about the general vaccinated population and the vaccinated elderly,” he said. Sooner or later most people will likely need boosters; “the question is who, when, and how soon,” he noted.
Dr. Fauci wrapped up the session with kudos and support for the pediatric health care community. “As a nonpediatrician, I have a great deal of respect for the job you are doing,” he said. “Keep up the great work.”
Dr. Beers echoed this sentiment, saying that she was “continually awed, impressed, and inspired” by how the pediatric hospitalists are navigating the ever-changing pandemic environment.
“From a public health standpoint, I think we have an evolving situation,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, in a moderated session with Lee Beers, MD, president of the American Academy of Pediatrics, at the virtual Pediatric Hospital Medicine annual conference.
The reasons for this shift remain unclear, he said.
Dr. Beers emphasized the ability of pediatric hospitalists to be flexible in the face of uncertainty and the evolving virus, and asked Dr. Fauci to elaborate on the unique traits of the delta variant that make it especially challenging.
“There is no doubt that delta transmits much more efficiently than the alpha variant or any other variant,” Dr. Fauci said. The transmissibility is evident in comparisons of the level of virus in the nasopharynx of the delta variant, compared with the original alpha COVID-19 virus – delta is as much as 1,000 times higher, he explained.
In addition, the level of virus in the nasopharynx of vaccinated individuals who develop breakthrough infections with the delta variant is similar to the levels in unvaccinated individuals who are infected with the delta variant.
The delta variant is “the tough guy on the block” at the moment, Dr. Fauci said.
Dr. Fauci also responded to a question on the lack of winter viruses, such as RSV and the flu, last winter, but the surge in these viruses over the summer.
This winter’s activity remains uncertain, Dr. Fauci said. However, he speculated “with a strong dose of humility and modesty” that viruses tend to have niches, some are seasonal, and the winter viruses that were displaced by COVID-19 hit harder in the summer instead. “If I were a [non-COVID] virus looking for a niche, I would be really confused,” he said. “I don’t know what will happen this winter, but if we get good control over COVID-19 by winter, we could have a very vengeful influenza season,” he said. “This is speculation, I don’t have any data for this,” he cautioned.
Dr. Beers raised the issue of back-to-school safety, and the updated AAP guidance for universal masking for K-12 students. “Our guidance about return to school gets updated as the situation changes and we gain a better understanding of how kids can get to school safely,” she said. A combination of factors affect back-to-school guidance, including the ineligibility of children younger than 12 years to be vaccinated, the number of adolescents who are eligible but have not been vaccinated, and the challenge for educators to navigate which children should wear masks, Dr. Beers said.
“We want to get vaccines for our youngest kids as soon as safely possible,” Dr. Beers emphasized. She noted that the same urgency is needed to provide vaccines for children as for adults, although “we have to do it safely, and be sure and feel confident in the data.”
When asked to comment about the status of FDA authorization of COVID-19 vaccines for younger children, Dr. Fauci described the current situation as one that “might require some unprecedented and unique action” on the part of the FDA, which tends to move cautiously because of safety considerations. However, concerns about adverse events might get in the way of protecting children against what “you are really worried about,” in this case COVID-19 and its variants, he said. Despite the breakthrough infections, “vaccination continues to very adequately protect people from getting severe disease,” he emphasized.
Dr. Fauci also said that he believes the current data support boosters for the immune compromised; however “it is a different story about the general vaccinated population and the vaccinated elderly,” he said. Sooner or later most people will likely need boosters; “the question is who, when, and how soon,” he noted.
Dr. Fauci wrapped up the session with kudos and support for the pediatric health care community. “As a nonpediatrician, I have a great deal of respect for the job you are doing,” he said. “Keep up the great work.”
Dr. Beers echoed this sentiment, saying that she was “continually awed, impressed, and inspired” by how the pediatric hospitalists are navigating the ever-changing pandemic environment.
“From a public health standpoint, I think we have an evolving situation,” said Anthony S. Fauci, MD, director of the National Institute of Allergy and Infectious Diseases, in a moderated session with Lee Beers, MD, president of the American Academy of Pediatrics, at the virtual Pediatric Hospital Medicine annual conference.
The reasons for this shift remain unclear, he said.
Dr. Beers emphasized the ability of pediatric hospitalists to be flexible in the face of uncertainty and the evolving virus, and asked Dr. Fauci to elaborate on the unique traits of the delta variant that make it especially challenging.
“There is no doubt that delta transmits much more efficiently than the alpha variant or any other variant,” Dr. Fauci said. The transmissibility is evident in comparisons of the level of virus in the nasopharynx of the delta variant, compared with the original alpha COVID-19 virus – delta is as much as 1,000 times higher, he explained.
In addition, the level of virus in the nasopharynx of vaccinated individuals who develop breakthrough infections with the delta variant is similar to the levels in unvaccinated individuals who are infected with the delta variant.
The delta variant is “the tough guy on the block” at the moment, Dr. Fauci said.
Dr. Fauci also responded to a question on the lack of winter viruses, such as RSV and the flu, last winter, but the surge in these viruses over the summer.
This winter’s activity remains uncertain, Dr. Fauci said. However, he speculated “with a strong dose of humility and modesty” that viruses tend to have niches, some are seasonal, and the winter viruses that were displaced by COVID-19 hit harder in the summer instead. “If I were a [non-COVID] virus looking for a niche, I would be really confused,” he said. “I don’t know what will happen this winter, but if we get good control over COVID-19 by winter, we could have a very vengeful influenza season,” he said. “This is speculation, I don’t have any data for this,” he cautioned.
Dr. Beers raised the issue of back-to-school safety, and the updated AAP guidance for universal masking for K-12 students. “Our guidance about return to school gets updated as the situation changes and we gain a better understanding of how kids can get to school safely,” she said. A combination of factors affect back-to-school guidance, including the ineligibility of children younger than 12 years to be vaccinated, the number of adolescents who are eligible but have not been vaccinated, and the challenge for educators to navigate which children should wear masks, Dr. Beers said.
“We want to get vaccines for our youngest kids as soon as safely possible,” Dr. Beers emphasized. She noted that the same urgency is needed to provide vaccines for children as for adults, although “we have to do it safely, and be sure and feel confident in the data.”
When asked to comment about the status of FDA authorization of COVID-19 vaccines for younger children, Dr. Fauci described the current situation as one that “might require some unprecedented and unique action” on the part of the FDA, which tends to move cautiously because of safety considerations. However, concerns about adverse events might get in the way of protecting children against what “you are really worried about,” in this case COVID-19 and its variants, he said. Despite the breakthrough infections, “vaccination continues to very adequately protect people from getting severe disease,” he emphasized.
Dr. Fauci also said that he believes the current data support boosters for the immune compromised; however “it is a different story about the general vaccinated population and the vaccinated elderly,” he said. Sooner or later most people will likely need boosters; “the question is who, when, and how soon,” he noted.
Dr. Fauci wrapped up the session with kudos and support for the pediatric health care community. “As a nonpediatrician, I have a great deal of respect for the job you are doing,” he said. “Keep up the great work.”
Dr. Beers echoed this sentiment, saying that she was “continually awed, impressed, and inspired” by how the pediatric hospitalists are navigating the ever-changing pandemic environment.
FROM PHM 2021