Pulmonology

Continuous positive airway pressure (CPAP) may be only modestly effective for ameliorating metabolic syndrome in patients with moderate to severe obstructive sleep apnea (OSA).

That conclusion comes from investigators in a randomized controlled, trial, who found that, among 100 patients with OSA and a recent diagnosis of metabolic syndrome (MS), 18% of those assigned to use CPAP at night had a reversal of MS at 6 months of follow-up, compared with 4% of controls who were assigned to use nasal strips at night (P = .04).

The majority of patients assigned to CPAP still retained their MS diagnoses at 6 months, and CPAP did not significantly reduce individual components of the syndrome. Use of CPAP was, however, associated with small reductions in visceral fat and improvement in endothelial function, reported Sara Q.C. Giampa, PhD, from the University of São Paulo, and colleagues.

“Despite a significant rate of MS reversibility after CPAP therapy, most of the patients maintained the MS diagnosis. The modest effects of CPAP on MS reversibility underscore the need for combined therapy with CPAP, aiming to maximize metabolic syndrome recovery in parallel with improvements in OSA severity and related symptoms,” according to their study, reported in the journal CHEST^®.

Asked whether he still recommends CPAP to patients with OSA and the metabolic syndrome, given the findings, corresponding author Luciano F. Drager, MD, PhD, replied “yes, definitely.”

“Despite the modest rate in reversing metabolic syndrome after CPAP, the rate was 5-fold higher than non-effective treatment (18% vs. 4%),” he said in an interview.

Dr. Drager noted that studies of other single interventions such as physical exercise to reverse MS in patients with OSA also had modest results.

A researcher who studies the relationship between sleep, circadian rhythms, and metabolism commented that, although the patients in the CPAP group were compliant with the assigned equipment and had both reductions in apneic events and improvement in oxygen saturation, the effect of CPAP on the metabolic syndrome was rather small.

“The CPAP was doing what we thought it was supposed to do, but it didn’t have the magnitude of effect on the metabolic syndrome as I expected or I think as the authors expected,” said Deanna Arble, PhD, assistant professor of biological science at Marquette University, Milwaukee.

She noted that the study also failed to detect a significant improvement in the blood pressure component of metabolic syndrome.

“In my experience and my review of the literature, blood pressure tends to be the one that’s improved most dramatically with CPAP,” she said.

Dr. Arble was not involved in the study.

Study details

In the trial, titled TREATOSA-MS, the investigators enrolled 100 patients with a recent diagnosis of metabolic syndrome and moderate to severe OSA, defined as 15 or more apnea-hypopnea index events per hour. The patients were stratified by body mass index and then randomized to undergo therapeutic CPAP or to use nasal strips for 6 months.

At baseline and at the end of each intervention investigators measured anthropometric variables, blood pressure, glucose, and lipid profiles. They also leptin and adiponectin, body composition, food intake, physical activity, subcutaneous and abdominal fat (visceral and hepatic), and endothelial function to control for potential confounders.

As noted previously, they found that after 6 months “most patients with OSA randomized to CPAP retained the MS diagnosis, but the rate of MS reversibility was higher than observed in the placebo group.” The difference in metabolic syndrome reversal, 18% with CPAP versus 4% with nasal strips, translated into a hazard ratio favoring CPAP of 5.27 (P = .04).

Also as noted, in analyses adjusted for baseline values, CPAP did not significantly improve either weight, liver fat, lip profiles, or the adiposity biomarkers leptin and adiponectin, but did have “very modest” influence on reducing visceral fat and improving endothelial function.
 

Rigorous study

Dr. Arble said that most studies of the association between OSA and metabolic syndrome have focused on only one or two of the parameters that were included in the TREATOSA-MS study, giving the findings additional weight.

“This could potentially be a very good, carefully controlled first insight into how obstructive sleep apnea is related to the metabolic syndrome,” she said.

The study was funded by grants Fundação de Amparo Q22 à Pesquisa do Estado de São Paulo and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior. The authors and Dr. Arble reported having no conflicts of interest to disclose.

Continuous positive airway pressure (CPAP) may be only modestly effective for ameliorating metabolic syndrome in patients with moderate to severe obstructive sleep apnea (OSA).

That conclusion comes from investigators in a randomized controlled, trial, who found that, among 100 patients with OSA and a recent diagnosis of metabolic syndrome (MS), 18% of those assigned to use CPAP at night had a reversal of MS at 6 months of follow-up, compared with 4% of controls who were assigned to use nasal strips at night (P = .04).

The majority of patients assigned to CPAP still retained their MS diagnoses at 6 months, and CPAP did not significantly reduce individual components of the syndrome. Use of CPAP was, however, associated with small reductions in visceral fat and improvement in endothelial function, reported Sara Q.C. Giampa, PhD, from the University of São Paulo, and colleagues.

“Despite a significant rate of MS reversibility after CPAP therapy, most of the patients maintained the MS diagnosis. The modest effects of CPAP on MS reversibility underscore the need for combined therapy with CPAP, aiming to maximize metabolic syndrome recovery in parallel with improvements in OSA severity and related symptoms,” according to their study, reported in the journal CHEST^®.

Asked whether he still recommends CPAP to patients with OSA and the metabolic syndrome, given the findings, corresponding author Luciano F. Drager, MD, PhD, replied “yes, definitely.”

“Despite the modest rate in reversing metabolic syndrome after CPAP, the rate was 5-fold higher than non-effective treatment (18% vs. 4%),” he said in an interview.

Dr. Drager noted that studies of other single interventions such as physical exercise to reverse MS in patients with OSA also had modest results.

A researcher who studies the relationship between sleep, circadian rhythms, and metabolism commented that, although the patients in the CPAP group were compliant with the assigned equipment and had both reductions in apneic events and improvement in oxygen saturation, the effect of CPAP on the metabolic syndrome was rather small.

“The CPAP was doing what we thought it was supposed to do, but it didn’t have the magnitude of effect on the metabolic syndrome as I expected or I think as the authors expected,” said Deanna Arble, PhD, assistant professor of biological science at Marquette University, Milwaukee.

She noted that the study also failed to detect a significant improvement in the blood pressure component of metabolic syndrome.

“In my experience and my review of the literature, blood pressure tends to be the one that’s improved most dramatically with CPAP,” she said.

Dr. Arble was not involved in the study.

Study details

In the trial, titled TREATOSA-MS, the investigators enrolled 100 patients with a recent diagnosis of metabolic syndrome and moderate to severe OSA, defined as 15 or more apnea-hypopnea index events per hour. The patients were stratified by body mass index and then randomized to undergo therapeutic CPAP or to use nasal strips for 6 months.

At baseline and at the end of each intervention investigators measured anthropometric variables, blood pressure, glucose, and lipid profiles. They also leptin and adiponectin, body composition, food intake, physical activity, subcutaneous and abdominal fat (visceral and hepatic), and endothelial function to control for potential confounders.

As noted previously, they found that after 6 months “most patients with OSA randomized to CPAP retained the MS diagnosis, but the rate of MS reversibility was higher than observed in the placebo group.” The difference in metabolic syndrome reversal, 18% with CPAP versus 4% with nasal strips, translated into a hazard ratio favoring CPAP of 5.27 (P = .04).

Also as noted, in analyses adjusted for baseline values, CPAP did not significantly improve either weight, liver fat, lip profiles, or the adiposity biomarkers leptin and adiponectin, but did have “very modest” influence on reducing visceral fat and improving endothelial function.
 

Rigorous study

Dr. Arble said that most studies of the association between OSA and metabolic syndrome have focused on only one or two of the parameters that were included in the TREATOSA-MS study, giving the findings additional weight.

“This could potentially be a very good, carefully controlled first insight into how obstructive sleep apnea is related to the metabolic syndrome,” she said.

The study was funded by grants Fundação de Amparo Q22 à Pesquisa do Estado de São Paulo and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior. The authors and Dr. Arble reported having no conflicts of interest to disclose.

Continuous positive airway pressure (CPAP) may be only modestly effective for ameliorating metabolic syndrome in patients with moderate to severe obstructive sleep apnea (OSA).

That conclusion comes from investigators in a randomized controlled, trial, who found that, among 100 patients with OSA and a recent diagnosis of metabolic syndrome (MS), 18% of those assigned to use CPAP at night had a reversal of MS at 6 months of follow-up, compared with 4% of controls who were assigned to use nasal strips at night (P = .04).

The majority of patients assigned to CPAP still retained their MS diagnoses at 6 months, and CPAP did not significantly reduce individual components of the syndrome. Use of CPAP was, however, associated with small reductions in visceral fat and improvement in endothelial function, reported Sara Q.C. Giampa, PhD, from the University of São Paulo, and colleagues.

“Despite a significant rate of MS reversibility after CPAP therapy, most of the patients maintained the MS diagnosis. The modest effects of CPAP on MS reversibility underscore the need for combined therapy with CPAP, aiming to maximize metabolic syndrome recovery in parallel with improvements in OSA severity and related symptoms,” according to their study, reported in the journal CHEST^®.

Asked whether he still recommends CPAP to patients with OSA and the metabolic syndrome, given the findings, corresponding author Luciano F. Drager, MD, PhD, replied “yes, definitely.”

“Despite the modest rate in reversing metabolic syndrome after CPAP, the rate was 5-fold higher than non-effective treatment (18% vs. 4%),” he said in an interview.

Dr. Drager noted that studies of other single interventions such as physical exercise to reverse MS in patients with OSA also had modest results.

A researcher who studies the relationship between sleep, circadian rhythms, and metabolism commented that, although the patients in the CPAP group were compliant with the assigned equipment and had both reductions in apneic events and improvement in oxygen saturation, the effect of CPAP on the metabolic syndrome was rather small.

“The CPAP was doing what we thought it was supposed to do, but it didn’t have the magnitude of effect on the metabolic syndrome as I expected or I think as the authors expected,” said Deanna Arble, PhD, assistant professor of biological science at Marquette University, Milwaukee.

She noted that the study also failed to detect a significant improvement in the blood pressure component of metabolic syndrome.

“In my experience and my review of the literature, blood pressure tends to be the one that’s improved most dramatically with CPAP,” she said.

Dr. Arble was not involved in the study.

Study details

In the trial, titled TREATOSA-MS, the investigators enrolled 100 patients with a recent diagnosis of metabolic syndrome and moderate to severe OSA, defined as 15 or more apnea-hypopnea index events per hour. The patients were stratified by body mass index and then randomized to undergo therapeutic CPAP or to use nasal strips for 6 months.

At baseline and at the end of each intervention investigators measured anthropometric variables, blood pressure, glucose, and lipid profiles. They also leptin and adiponectin, body composition, food intake, physical activity, subcutaneous and abdominal fat (visceral and hepatic), and endothelial function to control for potential confounders.

As noted previously, they found that after 6 months “most patients with OSA randomized to CPAP retained the MS diagnosis, but the rate of MS reversibility was higher than observed in the placebo group.” The difference in metabolic syndrome reversal, 18% with CPAP versus 4% with nasal strips, translated into a hazard ratio favoring CPAP of 5.27 (P = .04).

Also as noted, in analyses adjusted for baseline values, CPAP did not significantly improve either weight, liver fat, lip profiles, or the adiposity biomarkers leptin and adiponectin, but did have “very modest” influence on reducing visceral fat and improving endothelial function.
 

Rigorous study

Dr. Arble said that most studies of the association between OSA and metabolic syndrome have focused on only one or two of the parameters that were included in the TREATOSA-MS study, giving the findings additional weight.

“This could potentially be a very good, carefully controlled first insight into how obstructive sleep apnea is related to the metabolic syndrome,” she said.

The study was funded by grants Fundação de Amparo Q22 à Pesquisa do Estado de São Paulo and Coordenação de Aperfeiçoamento de Pessoal de Nível Superior. The authors and Dr. Arble reported having no conflicts of interest to disclose.

Airflow obstruction caused by a malignant tracheal tumor may be managed with a uniquely designed, 3-dimensional (3D) drug-eluting tracheal stent that, at least in animal models so far, works well and may soon be ready for human trials, Chinese investigators are reporting.

The research was published online Jan. 29 in Materials Today Chemistry.

The problems with currently available stents used to treat airflow obstruction are considerable, corresponding author Shengrong Guo, PhD, professor of pharmaceutics, Shanghai Jiao Tong University, China, and colleagues observe. “Tracheal stents physically open up stenosis, recover airway patency, and promptly relieve symptoms, but [they] cannot treat the tumor,” they explain.

“Thus, tracheal restenosis always occurs soon [after], due to progressive tumor growth after stent placement,” they add. Moreover, implanted stents cover the entire tracheal mucosa, thus preventing mucus and sputum discharge, causing airway blockage, the investigators also note. Compounding these flaws is the unalterable fact that delivery of chemotherapy to a malignant tracheal tumor is inefficient, and systemic chemotherapy is always associated with systemic side effects.

All of these issues make it very challenging to treat these tumors, Dr. Guo noted. On the other hand, if there were a means to deliver a chemotherapeutic agent more directly to the disease site – as is done with drug-eluting beads, for example, in other tumor types – then at least drug delivery would be much more efficient. “In this study, a novel tracheal stent was designed with features of a C-shaped and trilayered wall,” the researchers explain.

The gap angle of the newly developed stent is 72°; the inner diameter is 0.5 cm, and it is 2.0 cm in length. The trilayered wall consists of an inner layer of poly (ε-caprolactone) (PCL), which is a biodegradable and implantable material used alone or compounded with other ingredients to print implants. The middle layer consists of magnetic nanoparticle (MNP)–loaded PCL. The authors explain that MNPs have been approved in the U.S. as contrast agents in MRI.

Combined with temperature-responsive materials, MNPs can serve as a source of magnetic thermotherapy as well, which can be used to control drug release and facilitate drug penetration into deeper tissues. The outer layer of the stent contains a paclitaxel-loaded ethylene-vinyl acetate copolymer layer.

“The C-shaped tracheal stents are easily fabricated on a roller by using a self-made specific three-dimensional printer,” the authors explain. They point out that the C-shaped tracheal stents do not cover the entire tracheal wall, and the uncovered gap in that wall allows for normal mucus and sputum discharge.
 

In vivo evaluation

Once the stents were printed, the researchers evaluated the biosafety and applicability of their C-shaped tracheal stents. Small rabbits weighing 2.5 to 3.0 kg were used as experimental models and were prepared for surgery. The stent was implanted in the rabbits’ tracheas through the use of a simple stent delivery device. During follow-up, the rabbits recovered well without any sign of infection or respiratory complications.

The animals were also eating well within about 5 days of the surgery, and their weight gradually increased, suggesting that the implantation of a stent with intermittent magnetic heating did not lead to any prominent systemic toxicities. “All rabbits were [euthanized] 30 days after the placement of the tracheal stents” and the stent was removed from the rabbits’ trachea, the researchers report.

Close observation of the trachea indicated that the gap left by the C-shaped stent could keep the airway patent without blocking either mucus or sputum discharge. “The stents have good biosafety in rabbits and keep airway patency for 1 month without the occurrence of mucus/sputum blockage after implantation in rabbit trachea,” Dr. Guo and colleagues conclude.

“These results provide a scientific basis for the development of novel self-expandable C-shaped tracheal stents with combinatorial tracheal support and local chemotherapy,” they affirm.
 

Pediatric airway obstruction

Thus far, the role of 3D printing seems to be most prominent in the treatment of pediatric airway obstruction, where it is used in the surgical planning stages and to create the implant itself. In a systematic review of its use for this, Joshua Stramiello, MD, University of California, San Diego, and colleagues identified 37 original articles, 11 of which discussed 3D printing for surgical planning, and 26 of which discussed 3D printing implants for interventions.

“3D printing for surgical planning not only improves preoperative assessment of surgical approach and stent customization but also helps facilitate patient/family education,” the authors observe. Most of the research so far has been focused on bioresorbable external airway splints and biological grafts, they add – “with both animal studies and human case reports showing good results in improving symptoms.” One clinical series focused on the use of a 3D-printed, patient-specific, bioresorbable airway splint in a cohort of critically ill children with severe tracheobronchomalacia. (Tracheobronchomalacia is the abnormal collapse of the windpipe).

When reported, 29 splints had been implanted in 15 children with intrathoracic tracheobronchomalacia. At a median follow-up of 8.5 months, 12 children were long-term survivors, and all but one lived at home. As recently discussed by George Cheng, MD, cofounder of restor3D, a Duke University startup that created the first 3D-printed airway stent using a compressible biocompatible material with properties similar to that of silicone, personalized airway stents have the potential for advance customization, minimize pressure points, and improve airflow dynamics to increase mucus clearance.

In fact, the U.S. Food and Drug Administration has already cleared patient-specific airway stents developed by Thomas Gildea, MD, of the Cleveland Clinic. Both the Duke University and Cleveland Clinic stents have been used in patients, with promising outcomes, Dr. Cheng noted.

The authors and Dr. Stramiello and colleagues have disclosed no relevant financial relationships. Dr. Cheng is the cofounder of restor3D.

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

Airflow obstruction caused by a malignant tracheal tumor may be managed with a uniquely designed, 3-dimensional (3D) drug-eluting tracheal stent that, at least in animal models so far, works well and may soon be ready for human trials, Chinese investigators are reporting.

The research was published online Jan. 29 in Materials Today Chemistry.

The problems with currently available stents used to treat airflow obstruction are considerable, corresponding author Shengrong Guo, PhD, professor of pharmaceutics, Shanghai Jiao Tong University, China, and colleagues observe. “Tracheal stents physically open up stenosis, recover airway patency, and promptly relieve symptoms, but [they] cannot treat the tumor,” they explain.

“Thus, tracheal restenosis always occurs soon [after], due to progressive tumor growth after stent placement,” they add. Moreover, implanted stents cover the entire tracheal mucosa, thus preventing mucus and sputum discharge, causing airway blockage, the investigators also note. Compounding these flaws is the unalterable fact that delivery of chemotherapy to a malignant tracheal tumor is inefficient, and systemic chemotherapy is always associated with systemic side effects.

All of these issues make it very challenging to treat these tumors, Dr. Guo noted. On the other hand, if there were a means to deliver a chemotherapeutic agent more directly to the disease site – as is done with drug-eluting beads, for example, in other tumor types – then at least drug delivery would be much more efficient. “In this study, a novel tracheal stent was designed with features of a C-shaped and trilayered wall,” the researchers explain.

The gap angle of the newly developed stent is 72°; the inner diameter is 0.5 cm, and it is 2.0 cm in length. The trilayered wall consists of an inner layer of poly (ε-caprolactone) (PCL), which is a biodegradable and implantable material used alone or compounded with other ingredients to print implants. The middle layer consists of magnetic nanoparticle (MNP)–loaded PCL. The authors explain that MNPs have been approved in the U.S. as contrast agents in MRI.

Combined with temperature-responsive materials, MNPs can serve as a source of magnetic thermotherapy as well, which can be used to control drug release and facilitate drug penetration into deeper tissues. The outer layer of the stent contains a paclitaxel-loaded ethylene-vinyl acetate copolymer layer.

“The C-shaped tracheal stents are easily fabricated on a roller by using a self-made specific three-dimensional printer,” the authors explain. They point out that the C-shaped tracheal stents do not cover the entire tracheal wall, and the uncovered gap in that wall allows for normal mucus and sputum discharge.
 

In vivo evaluation

Once the stents were printed, the researchers evaluated the biosafety and applicability of their C-shaped tracheal stents. Small rabbits weighing 2.5 to 3.0 kg were used as experimental models and were prepared for surgery. The stent was implanted in the rabbits’ tracheas through the use of a simple stent delivery device. During follow-up, the rabbits recovered well without any sign of infection or respiratory complications.

The animals were also eating well within about 5 days of the surgery, and their weight gradually increased, suggesting that the implantation of a stent with intermittent magnetic heating did not lead to any prominent systemic toxicities. “All rabbits were [euthanized] 30 days after the placement of the tracheal stents” and the stent was removed from the rabbits’ trachea, the researchers report.

Close observation of the trachea indicated that the gap left by the C-shaped stent could keep the airway patent without blocking either mucus or sputum discharge. “The stents have good biosafety in rabbits and keep airway patency for 1 month without the occurrence of mucus/sputum blockage after implantation in rabbit trachea,” Dr. Guo and colleagues conclude.

“These results provide a scientific basis for the development of novel self-expandable C-shaped tracheal stents with combinatorial tracheal support and local chemotherapy,” they affirm.
 

Pediatric airway obstruction

Thus far, the role of 3D printing seems to be most prominent in the treatment of pediatric airway obstruction, where it is used in the surgical planning stages and to create the implant itself. In a systematic review of its use for this, Joshua Stramiello, MD, University of California, San Diego, and colleagues identified 37 original articles, 11 of which discussed 3D printing for surgical planning, and 26 of which discussed 3D printing implants for interventions.

“3D printing for surgical planning not only improves preoperative assessment of surgical approach and stent customization but also helps facilitate patient/family education,” the authors observe. Most of the research so far has been focused on bioresorbable external airway splints and biological grafts, they add – “with both animal studies and human case reports showing good results in improving symptoms.” One clinical series focused on the use of a 3D-printed, patient-specific, bioresorbable airway splint in a cohort of critically ill children with severe tracheobronchomalacia. (Tracheobronchomalacia is the abnormal collapse of the windpipe).

When reported, 29 splints had been implanted in 15 children with intrathoracic tracheobronchomalacia. At a median follow-up of 8.5 months, 12 children were long-term survivors, and all but one lived at home. As recently discussed by George Cheng, MD, cofounder of restor3D, a Duke University startup that created the first 3D-printed airway stent using a compressible biocompatible material with properties similar to that of silicone, personalized airway stents have the potential for advance customization, minimize pressure points, and improve airflow dynamics to increase mucus clearance.

In fact, the U.S. Food and Drug Administration has already cleared patient-specific airway stents developed by Thomas Gildea, MD, of the Cleveland Clinic. Both the Duke University and Cleveland Clinic stents have been used in patients, with promising outcomes, Dr. Cheng noted.

The authors and Dr. Stramiello and colleagues have disclosed no relevant financial relationships. Dr. Cheng is the cofounder of restor3D.

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

Airflow obstruction caused by a malignant tracheal tumor may be managed with a uniquely designed, 3-dimensional (3D) drug-eluting tracheal stent that, at least in animal models so far, works well and may soon be ready for human trials, Chinese investigators are reporting.

The research was published online Jan. 29 in Materials Today Chemistry.

The problems with currently available stents used to treat airflow obstruction are considerable, corresponding author Shengrong Guo, PhD, professor of pharmaceutics, Shanghai Jiao Tong University, China, and colleagues observe. “Tracheal stents physically open up stenosis, recover airway patency, and promptly relieve symptoms, but [they] cannot treat the tumor,” they explain.

“Thus, tracheal restenosis always occurs soon [after], due to progressive tumor growth after stent placement,” they add. Moreover, implanted stents cover the entire tracheal mucosa, thus preventing mucus and sputum discharge, causing airway blockage, the investigators also note. Compounding these flaws is the unalterable fact that delivery of chemotherapy to a malignant tracheal tumor is inefficient, and systemic chemotherapy is always associated with systemic side effects.

All of these issues make it very challenging to treat these tumors, Dr. Guo noted. On the other hand, if there were a means to deliver a chemotherapeutic agent more directly to the disease site – as is done with drug-eluting beads, for example, in other tumor types – then at least drug delivery would be much more efficient. “In this study, a novel tracheal stent was designed with features of a C-shaped and trilayered wall,” the researchers explain.

The gap angle of the newly developed stent is 72°; the inner diameter is 0.5 cm, and it is 2.0 cm in length. The trilayered wall consists of an inner layer of poly (ε-caprolactone) (PCL), which is a biodegradable and implantable material used alone or compounded with other ingredients to print implants. The middle layer consists of magnetic nanoparticle (MNP)–loaded PCL. The authors explain that MNPs have been approved in the U.S. as contrast agents in MRI.

Combined with temperature-responsive materials, MNPs can serve as a source of magnetic thermotherapy as well, which can be used to control drug release and facilitate drug penetration into deeper tissues. The outer layer of the stent contains a paclitaxel-loaded ethylene-vinyl acetate copolymer layer.

“The C-shaped tracheal stents are easily fabricated on a roller by using a self-made specific three-dimensional printer,” the authors explain. They point out that the C-shaped tracheal stents do not cover the entire tracheal wall, and the uncovered gap in that wall allows for normal mucus and sputum discharge.
 

In vivo evaluation

Once the stents were printed, the researchers evaluated the biosafety and applicability of their C-shaped tracheal stents. Small rabbits weighing 2.5 to 3.0 kg were used as experimental models and were prepared for surgery. The stent was implanted in the rabbits’ tracheas through the use of a simple stent delivery device. During follow-up, the rabbits recovered well without any sign of infection or respiratory complications.

The animals were also eating well within about 5 days of the surgery, and their weight gradually increased, suggesting that the implantation of a stent with intermittent magnetic heating did not lead to any prominent systemic toxicities. “All rabbits were [euthanized] 30 days after the placement of the tracheal stents” and the stent was removed from the rabbits’ trachea, the researchers report.

Close observation of the trachea indicated that the gap left by the C-shaped stent could keep the airway patent without blocking either mucus or sputum discharge. “The stents have good biosafety in rabbits and keep airway patency for 1 month without the occurrence of mucus/sputum blockage after implantation in rabbit trachea,” Dr. Guo and colleagues conclude.

“These results provide a scientific basis for the development of novel self-expandable C-shaped tracheal stents with combinatorial tracheal support and local chemotherapy,” they affirm.
 

Pediatric airway obstruction

Thus far, the role of 3D printing seems to be most prominent in the treatment of pediatric airway obstruction, where it is used in the surgical planning stages and to create the implant itself. In a systematic review of its use for this, Joshua Stramiello, MD, University of California, San Diego, and colleagues identified 37 original articles, 11 of which discussed 3D printing for surgical planning, and 26 of which discussed 3D printing implants for interventions.

“3D printing for surgical planning not only improves preoperative assessment of surgical approach and stent customization but also helps facilitate patient/family education,” the authors observe. Most of the research so far has been focused on bioresorbable external airway splints and biological grafts, they add – “with both animal studies and human case reports showing good results in improving symptoms.” One clinical series focused on the use of a 3D-printed, patient-specific, bioresorbable airway splint in a cohort of critically ill children with severe tracheobronchomalacia. (Tracheobronchomalacia is the abnormal collapse of the windpipe).

When reported, 29 splints had been implanted in 15 children with intrathoracic tracheobronchomalacia. At a median follow-up of 8.5 months, 12 children were long-term survivors, and all but one lived at home. As recently discussed by George Cheng, MD, cofounder of restor3D, a Duke University startup that created the first 3D-printed airway stent using a compressible biocompatible material with properties similar to that of silicone, personalized airway stents have the potential for advance customization, minimize pressure points, and improve airflow dynamics to increase mucus clearance.

In fact, the U.S. Food and Drug Administration has already cleared patient-specific airway stents developed by Thomas Gildea, MD, of the Cleveland Clinic. Both the Duke University and Cleveland Clinic stents have been used in patients, with promising outcomes, Dr. Cheng noted.

The authors and Dr. Stramiello and colleagues have disclosed no relevant financial relationships. Dr. Cheng is the cofounder of restor3D.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Adults with a congenital heart defect (CHD) are at increased risk for serious illness and death when hospitalized with COVID-19, making vaccination and other preventive measures even important in this population, say researchers with the Centers for Disease Control and Prevention.

“We found that hospitalized patients with heart defects are up to twice as likely to have critical outcomes of COVID-19 illness (admission to the intensive care unit, use of a ventilator to help with breathing, or death) compared to hospitalized COVID-19 patients without heart defects,” Karrie Downing, MPH, epidemiologist, with the CDC’s National Center on Birth Defects and Developmental Disabilities, said in an interview.

“Additionally, we learned that people with hearts defects who were older or who also had other conditions like heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity were the most likely to have critical COVID-19 illness, but children and adults with heart defects without these other conditions were still at increased risk,” Ms. Downing said.

The message for health care providers is clear: “Encourage your patients with heart defects to get vaccinated and discuss with your patients the need for other preventive measures to avoid infection that may progress to severe COVID-19 illness,” Ms. Downing added.

The study was published online March 7, 2022, in Circulation.

The researchers analyzed data on 235,638 patients hospitalized with COVID-19 between March 2020 and January 2021, including 421 (0.2%) with CHD. Most CHD patients were older than 30 years (73%) and 61% were men, with 55% non-Hispanic white, 19% Hispanic and 16% non-Hispanic Black.

Overall, 68% of CHD patients had at least one comorbidity, as did 59% of patients without CHD.

Rates of ICU admission were higher in the CHD group (54% vs. 43%), as were rates of invasive mechanical ventilation (24% vs. 15%) and in-hospital death (11% vs. 7%).

After accounting for patient characteristics, ICU admission, invasive mechanical ventilation and death were more prevalent among COVID-19 patients with rather than without CHD, with adjusted prevalence ratios of 1.4, 1.8 and 2.0, respectively.

When stratified by high-risk characteristics, prevalence estimates for ICU admission, invasive mechanical ventilation and death remained higher among patients with COVID-19 and CHD across nearly all strata, including younger age groups and those without heart failure, pulmonary hypertension, Down syndrome, diabetes, or obesity, the researchers reported.

Ms. Downing said more work is needed to identify why the clinical course of COVID-19 disease results in admission to the ICU, the need for a ventilator, or death for some hospitalized patients with CHD and not for others.

“There could be a number of social, environmental, economic, medical, and genetic factors playing a role. But staying up to date with COVID-19 vaccines and following preventive measures for COVID-19 are effective ways to reduce the risk of severe illness from COVID-19,” Ms. Downing said.

The study had no specific funding. The authors reported no relevant disclosures.

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

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

Pseudomonas aeruginosa persisted in the airways of patients with chronic obstructive pulmonary disease (COPD), based on data from 23 patients over a 1-year period.

P. aeruginosa is cultured in as many as 20% of bacterial exacerbations and has been linked to increased morbidity and mortality in patients with COPD, wrote Josefin Eklöf, MD, of the University of Copenhagen and colleagues. However, its patterns and characteristics have not been well studied, and researchers proposed that P. aerunginosa persists in COPD patients in part because of genetic adaptations in the genes related to antibiotic resistance.

In a study published in Clinical Microbiology and Infection, the researchers identified 23 consecutive patients enrolled in an ongoing randomized clinical trial at four sites in Denmark between Jan. 2018 and Jan. 2020. Participants were randomized 1:1 to targeted antipseudomonal antibiotic treatment for 14 days (between visit day 1 and visit day 14) or no antipseudomonal treatment. Sputum samples were collected at baseline on day 1 and on days 14, 30, 60, 90, and 365.

The researchers sequenced isolates from 23 adult patients over 365 days of follow-up. The recurrence of P. aeruginosa occurred in 19 patients (83%) during this period. Ultimately, a total of 153 isolates were analyzed. The researchers found that each patient carried their own unique lineage, with the except of one patient in whom two distinct lineages were identified.

“Independent mutation of the same gene across multiple lineages may be the result of positive selection of adaptive mutations,” Dr. Eklöf and colleagues wrote. They found 38 genes for P. aeruginosa that were mutated in at least two lineages, which suggested adaptive mutations. Some of the more frequently mutated genes were those important to antibiotic resistance and chronic infections, the researchers said. Specifically, mutations occurred in 40 of 140 pathoadaptive genes, compared with 265 of 5,572 other genes (P < .001). In addition, the 24 total lineages carried 4-6 antibiotic resistance genes, and no evidence suggested that lineages acquired or lost these genes during carriage.

Overall, the results indicate that the recurrence of P. aeruginosa was caused by persistence of the same clonal lineage in each patient. “This pattern of persistence was associated with genetic adaptation related to phenotypes considered important for P. aeruginosa infections,” the researchers said.

The study findings were limited by the relatively small number of samples and isolates per sample, the follow-up of only 1 year, and the inability to account for mutations in the early stage because few patients were naive to P. aeruginosa at the start of the study, the researchers noted. However, the results were strengthened by the relatively large and well-defined study population and high rate of sampling compliance, they said.

Overall, “the findings warrant research to improve therapy, including trial data on possible clinical benefits of attempting antibiotic eradication of P. aeruginosa in this vulnerable group of patients,” they concluded.

The study was supported by the Independent Research Fund Denmark and the Research committee at Copenhagen University Hospital-Herlev and Gentofte Hospital. The researchers had no financial conflicts to disclose.

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

Heavier smoking significantly increased mortality in adults with progressive fibrosing interstitial lung disease (PF-ILD), based on data from 377 individuals.

The negative impact of smoking on pulmonary diseases is well documented, but the specific impact on patients with PF-ILD has not been well studied, Mark Platenburg, MD, of St. Antonious Hospital, Nieuwegein, the Netherlands, and colleagues wrote in Respiratory Medicine .

GaryPhoto/ThinkStock

“Patients with PF-ILD or IPF [idiopathic pulmonary fibrosis] are prone to early mortality, indicating a need for prognostic [bio]marker studies for precision medicine,” they said.

The researchers identified adults older than 18 years with PF-ILD who were diagnosed at a single center. All study participants had at least 10% fibrosis, and showed either a decline of at least 10% in forced vital capacity, a 5.0%-9.9% relative FVC decline plus progressive respiratory symptoms and/or an increase in extent of fibrosis on subsequent high-resolution (HRCT progression), or progressive respiratory symptoms and HRCT progression over 24 months after ILD diagnosis.

Pack-years of smoking was a prognostic variable; the researchers also compared median transplant-free survival in heavy smokers and mild to moderate smokers. They also investigated the association between smoking quantity and emphysema in the study population.

Overall, the increased risk for mortality was 11%, 22%, and 44% in patients with 10, 20, and 40 pack-years of smoking, respectively.

Both the unadjusted and adjusted hazard ratio for pack-years were significant (1.014, P < .001 and 1.011, P = .022, respectively).

The median transplant-free survival of ever-smokers versus never-smokers with PF-ILD was 3.3 years versus 4.8 years; median transplant-free survival was 3.0 years for heavy smokers and 3.8 years for mild to moderate smokers. Similarly, median survival was 4.2 years in never-smokers versus 3.0 years in former smokers.

Emphysema was significantly more comment in heavy smokers, compared with never smokers and mild to moderate smokers (P < .001 for both).

“We observed a gradual decrease in survival starting from never to mild-moderate and subsequent heavy smokers supporting our finding that [pack-years] is an independent predictor for mortality in PF-ILD,” the researchers wrote. “This is an important message that clinicians could convey to their ILD patients, but also to patients at-risk for ILD.”

The study findings were limited by several factors, mainly the retrospective design, incomplete data for some patients, and lack of data on comorbidities, the researchers noted. However, the results strengthen the evidence for the detrimental effect of heavy smoking in PF-ILD, they said. Consequently, “efforts to reduce pack-years in those with, and at risk for, PF-ILD may translate into a survival benefit and should have high priority in clinical practice.”

The study was supported by grants from ZonMw TopZorg Care and TZO. The researchers had no financial conflicts to disclose.

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

The Food and Drug Administration’s Vaccines and Related Biological Products Advisory Committee has chosen the influenza vaccine strains for the 2022-2023 season in the northern hemisphere, which begins in the fall of 2022.

On March 3, the committee unanimously voted to endorse the World Health Organization’s recommendations as to which influenza strains to include for coverage by vaccines for the upcoming flu season. Two of the four recommended strains are different from last season.

The committee also heard updates on flu activity this season. So far, data from the U.S. Flu Vaccine Effectiveness (VE) network, which consists of seven study sites, have not shown that the vaccine is protective against influenza A. “We can say that it is not highly effective,” Brendan Flannery, PhD, who leads the U.S. Flu VE network for the Centers for Disease Control and Prevention, said in an interview. He was not involved with the advisory committee meeting. Flu activity this season has been low, he explained, so there are fewer cases his team can use to estimate vaccine efficacy. “If there’s some benefit, it’s hard for us to show that now,” he said.
 

Vaccine strains

The panel voted to include a A/Darwin/9/2021-like strain for the H3N2 component of the vaccine; this is changed from A/Cambodia/e0826360/2020. For the influenza B Victoria lineage component, the committee voted to include a B/Austria/1359417/2021-like virus, a swap from this year’s B/Washington/02/2019-like virus. These changes apply to the egg-based, cell-culture, and recombinant vaccines. Both new strains were included in WHO’s 2022 influenza vaccine strain recommendations for the southern hemisphere.

For the influenza A H1N1 component, the group also agreed to include a A/Victoria/2570/2019 (H1N1) pdm09-like virus for the egg-based vaccine and the A/Wisconsin/588/2019 (H1N1) pdm09-like virus for cell culture or recombinant vaccines. These strains were included for the 2021-2022 season. The panel also voted for the inclusion of a B/Phuket/3073/2013-like virus (B/Yamagata lineage) as the second influenza B strain for the quadrivalent egg-based, cell culture, or recombinant vaccines, which is unchanged from this flu season.
 

‘Sporadic’ flu activity

While there was an uptick in influenza activity this year compared to the 2020-2021 season, hospitalization rates are lower than in the four seasons preceding the pandemic (from 2016-2017 to 2019-2020). As of Feb. 26, the cumulative hospitalization rate for this flu season was 5.2 hospitalizations per 100,000 individuals. There have been eight pediatric deaths due to influenza so far this season, compared to one pediatric death reported to the CDC during the 2020-2021 flu season.

About 4.1% of specimens tested at clinical laboratories were positive for flu. Since Oct. 30, 2.7% of specimens have been positive for influenza this season. Nearly all viruses detected (97.7%) have been influenza A.

Lisa Grohskopf, MD, MPH, a medical officer in the influenza division at the CDC who presented the data at the meeting, described flu activity this season as “sporadic” and noted that activity is increasing in some areas of the country. According to CDC’s weekly influenza surveillance report, most states had minimal influenza-like illness (ILI) activity, although Arkansas, Idaho, Iowa, Kansas, Minnesota, and Utah had slightly higher ILI activity as of Feb. 26. Champaign-Urbana, Illinois; St. Cloud, Minnesota; and Brownwood, Texas, had the highest levels of flu activity in the country.
 

Low vaccine effectiveness

As of Jan. 22, results from the U.S. Flu VE network do not show statistically significant evidence that the flu vaccine is effective. Currently, the vaccine is estimated to be 8% effective against preventing influenza A infection (95% confidence interval, –31% to 36%) and 14% effective against preventing A/H3N2 infection (95% CI, –28% to 43%) for people aged 6 months and older.

The network did not have enough data to provide age-specific VE estimates or estimates of effectiveness against influenza B. This could be due to low flu activity relative to prepandemic years, Dr. Flannery said. Of the 2,758 individuals enrolled in the VE flu network this season, just 147 (5%) tested positive for the flu this season. This is the lowest positivity rate observed in the Flu VE network participants with respiratory illness over the past 10 flu seasons, Dr. Grohskopf noted. In comparison, estimates from the 2019 to 2020 season included 4,112 individuals, and 1,060 tested positive for flu.

“We are really at the bare minimum of what we can use for a flu vaccine effectiveness estimate,” Dr. Flannery said about the more recent data. The network was not able to produce any estimates about flu vaccine effectiveness for the 2020-2021 season because of historically low flu activity.

The Department of Defense also presented vaccine efficacy estimates for the 2021–2022 season. The vaccine has been 36% effective (95% CI, 28%-44%) against all strains of the virus, 33% effective against influenza A (95% CI, 24%-41%), 32% effective against A/H3N2 (95% CI, 3%-53%), and 59% effective against influenza B (95% CI, 42%-71%). These results are from a young, healthy adult population, Lieutenant Commander Courtney Gustin, DrPH, MSN, told the panel, and they may not be reflective of efficacy rates across all age groups.

Though these findings suggest there is low to no measurable benefit against influenza A, Dr. Flannery said the CDC still recommends getting the flu vaccine, as it can be protective against other circulating flu strains. “We have been able to demonstrate protection against other H3 [viruses], B viruses, and H1 viruses in the past,” he said. And as these results only show protection against mild disease, “there is still possibility that there’s benefit against more severe disease,” he added. Studies measuring effectiveness against more severe outcomes are not yet available.

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

Data from the first 6 months after the rollout of mRNA COVID-19 vaccines in the United States released today show that adverse effects from shots are typically mild and short-lived.

Findings of the large study, compiled after nearly 300 million doses were administered, were published online March 7 in The Lancet Infectious Diseases.

Researchers, led by Hannah G. Rosenblum, MD, with the Centers for Disease Control and Prevention COVID Response Team, used passive U.S. surveillance data collected through the Vaccine Adverse Event Reporting System (VAERS), and the active system, v-safe, starting in December 2020 through the first 6 months of the U.S. COVID-19 vaccination program. V-safe is a voluntary, smartphone-based system set up in 2020 specifically for monitoring reactions to COVID-19 and health effects after vaccination. The health effects information from v-safe is presented in this study for the first time.

Of the 298.7 million doses of mRNA vaccines administered in the U.S. during the study period, VAERS processed 340,522 reports. Of those, 313,499 (92.1%) were nonserious; 22,527 (6.6%) were serious (nondeath); and 4,496 (1.3%) were deaths.

From v-safe reporting, researchers learned that about 71% of the 7.9 million participants reported local or systemic reactions, more frequently after dose 2 than after dose 1. Of those reporting reactions after dose 1, about two-thirds (68.6%) reported a local reaction and 52.7% reported a systemic reaction.

Among other findings:

• Injection-site pain occurred after dose 1 in 66.2% of participants and 68.6% after dose 2.
• One-third of participants (33.9%) reported fatigue after dose 1 and 55.7% after dose 2.
• Headache was reported among 27% of participants after dose 1 and 46.2% after dose 2.
• When injection site pain, fatigue, or headaches were reported, the reports were usually in the first week after vaccination.
• Reports of being unable to work or do normal daily activities, or instances of seeking medical care, occurred more commonly after dose 2 (32.1%) than after dose 1 (11.9%). Fewer than 1% of participants reported seeking medical care after dose 1 or 2 of the vaccine.
• Reactions and health effects were reported more often in female than in male recipients, and in people younger than 65 years, compared with older people.
• Serious adverse events, including myocarditis, have been identified following mRNA vaccinations, but the events are rare.

The authors wrote that these results are consistent with preauthorization clinical trials and early postauthorization reports.

“On the basis of our findings, mild to moderate transient reactogenicity should be anticipated,” they said, “particularly among younger and female vaccine recipients.”
 

‘Robust and reassuring data’

“The safety monitoring of the mRNA COVID-19 vaccines stands out as the most comprehensive of any vaccine in U.S. history. The use of these complementary monitoring systems has provided robust and reassuring data,” Matthew S. Krantz, MD, with the division of allergy, pulmonary, and critical care medicine at Vanderbilt University, Nashville, Tenn., and Elizabeth J. Phillips, MD, with the department of pathology, microbiology, and immunology at Vanderbilt, wrote in a related commentary in The Lancet Infectious Diseases.

They point out that the v-safe reports of reactions are consistent with those reported from clinical trials and a large population study in the United Kingdom.

Dr. Phillips said in a press release, “[A]lthough approximately one in 1,000 individuals vaccinated may have an adverse effect, most of these are nonserious. No unusual patterns emerged in the cause of death or serious adverse effects among VAERS reports. For adverse events of special interest, it is reassuring that there were no unexpected signals other than myopericarditis and anaphylaxis, already known to be associated with mRNA vaccines.”

The study authors and editorialists have disclosed no relevant financial relationships.

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

Data from the first 6 months after the rollout of mRNA COVID-19 vaccines in the United States released today show that adverse effects from shots are typically mild and short-lived.

Findings of the large study, compiled after nearly 300 million doses were administered, were published online March 7 in The Lancet Infectious Diseases.

Researchers, led by Hannah G. Rosenblum, MD, with the Centers for Disease Control and Prevention COVID Response Team, used passive U.S. surveillance data collected through the Vaccine Adverse Event Reporting System (VAERS), and the active system, v-safe, starting in December 2020 through the first 6 months of the U.S. COVID-19 vaccination program. V-safe is a voluntary, smartphone-based system set up in 2020 specifically for monitoring reactions to COVID-19 and health effects after vaccination. The health effects information from v-safe is presented in this study for the first time.

Of the 298.7 million doses of mRNA vaccines administered in the U.S. during the study period, VAERS processed 340,522 reports. Of those, 313,499 (92.1%) were nonserious; 22,527 (6.6%) were serious (nondeath); and 4,496 (1.3%) were deaths.

From v-safe reporting, researchers learned that about 71% of the 7.9 million participants reported local or systemic reactions, more frequently after dose 2 than after dose 1. Of those reporting reactions after dose 1, about two-thirds (68.6%) reported a local reaction and 52.7% reported a systemic reaction.

Among other findings:

• Injection-site pain occurred after dose 1 in 66.2% of participants and 68.6% after dose 2.
• One-third of participants (33.9%) reported fatigue after dose 1 and 55.7% after dose 2.
• Headache was reported among 27% of participants after dose 1 and 46.2% after dose 2.
• When injection site pain, fatigue, or headaches were reported, the reports were usually in the first week after vaccination.
• Reports of being unable to work or do normal daily activities, or instances of seeking medical care, occurred more commonly after dose 2 (32.1%) than after dose 1 (11.9%). Fewer than 1% of participants reported seeking medical care after dose 1 or 2 of the vaccine.
• Reactions and health effects were reported more often in female than in male recipients, and in people younger than 65 years, compared with older people.
• Serious adverse events, including myocarditis, have been identified following mRNA vaccinations, but the events are rare.

The authors wrote that these results are consistent with preauthorization clinical trials and early postauthorization reports.

“On the basis of our findings, mild to moderate transient reactogenicity should be anticipated,” they said, “particularly among younger and female vaccine recipients.”
 

‘Robust and reassuring data’

“The safety monitoring of the mRNA COVID-19 vaccines stands out as the most comprehensive of any vaccine in U.S. history. The use of these complementary monitoring systems has provided robust and reassuring data,” Matthew S. Krantz, MD, with the division of allergy, pulmonary, and critical care medicine at Vanderbilt University, Nashville, Tenn., and Elizabeth J. Phillips, MD, with the department of pathology, microbiology, and immunology at Vanderbilt, wrote in a related commentary in The Lancet Infectious Diseases.

They point out that the v-safe reports of reactions are consistent with those reported from clinical trials and a large population study in the United Kingdom.

Dr. Phillips said in a press release, “[A]lthough approximately one in 1,000 individuals vaccinated may have an adverse effect, most of these are nonserious. No unusual patterns emerged in the cause of death or serious adverse effects among VAERS reports. For adverse events of special interest, it is reassuring that there were no unexpected signals other than myopericarditis and anaphylaxis, already known to be associated with mRNA vaccines.”

The study authors and editorialists have disclosed no relevant financial relationships.

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

Data from the first 6 months after the rollout of mRNA COVID-19 vaccines in the United States released today show that adverse effects from shots are typically mild and short-lived.

Findings of the large study, compiled after nearly 300 million doses were administered, were published online March 7 in The Lancet Infectious Diseases.

Researchers, led by Hannah G. Rosenblum, MD, with the Centers for Disease Control and Prevention COVID Response Team, used passive U.S. surveillance data collected through the Vaccine Adverse Event Reporting System (VAERS), and the active system, v-safe, starting in December 2020 through the first 6 months of the U.S. COVID-19 vaccination program. V-safe is a voluntary, smartphone-based system set up in 2020 specifically for monitoring reactions to COVID-19 and health effects after vaccination. The health effects information from v-safe is presented in this study for the first time.

Of the 298.7 million doses of mRNA vaccines administered in the U.S. during the study period, VAERS processed 340,522 reports. Of those, 313,499 (92.1%) were nonserious; 22,527 (6.6%) were serious (nondeath); and 4,496 (1.3%) were deaths.

From v-safe reporting, researchers learned that about 71% of the 7.9 million participants reported local or systemic reactions, more frequently after dose 2 than after dose 1. Of those reporting reactions after dose 1, about two-thirds (68.6%) reported a local reaction and 52.7% reported a systemic reaction.

Among other findings:

• Injection-site pain occurred after dose 1 in 66.2% of participants and 68.6% after dose 2.
• One-third of participants (33.9%) reported fatigue after dose 1 and 55.7% after dose 2.
• Headache was reported among 27% of participants after dose 1 and 46.2% after dose 2.
• When injection site pain, fatigue, or headaches were reported, the reports were usually in the first week after vaccination.
• Reports of being unable to work or do normal daily activities, or instances of seeking medical care, occurred more commonly after dose 2 (32.1%) than after dose 1 (11.9%). Fewer than 1% of participants reported seeking medical care after dose 1 or 2 of the vaccine.
• Reactions and health effects were reported more often in female than in male recipients, and in people younger than 65 years, compared with older people.
• Serious adverse events, including myocarditis, have been identified following mRNA vaccinations, but the events are rare.

The authors wrote that these results are consistent with preauthorization clinical trials and early postauthorization reports.

“On the basis of our findings, mild to moderate transient reactogenicity should be anticipated,” they said, “particularly among younger and female vaccine recipients.”
 

‘Robust and reassuring data’

“The safety monitoring of the mRNA COVID-19 vaccines stands out as the most comprehensive of any vaccine in U.S. history. The use of these complementary monitoring systems has provided robust and reassuring data,” Matthew S. Krantz, MD, with the division of allergy, pulmonary, and critical care medicine at Vanderbilt University, Nashville, Tenn., and Elizabeth J. Phillips, MD, with the department of pathology, microbiology, and immunology at Vanderbilt, wrote in a related commentary in The Lancet Infectious Diseases.

They point out that the v-safe reports of reactions are consistent with those reported from clinical trials and a large population study in the United Kingdom.

Dr. Phillips said in a press release, “[A]lthough approximately one in 1,000 individuals vaccinated may have an adverse effect, most of these are nonserious. No unusual patterns emerged in the cause of death or serious adverse effects among VAERS reports. For adverse events of special interest, it is reassuring that there were no unexpected signals other than myopericarditis and anaphylaxis, already known to be associated with mRNA vaccines.”

The study authors and editorialists have disclosed no relevant financial relationships.

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

From environmental tobacco smoke to ultraviolet (UV) radiation, diesel exhaust particulates, lead, and now, chronic infection with Helicobacter pylori (H pylori)—the Report on Carcinogens has regularly updated the list of substances known or “reasonably anticipated” to cause cancer.

The 15th report, which is prepared by the National Toxicology Program (NTP) for the Department of Health and Human Services, has 8 new entries, bringing the number of human carcinogens (eg, metals, pesticides, and drugs) on the list to 256. (The first report, released in 1980, listed 26.) In addition to H pylori infection, this edition adds the flame-retardant chemical antimony trioxide, and 6 haloacetic acids found as water disinfection byproducts.

In 1971, then President Nixon declared “war on cancer” (the second leading cause of death in the US) and signed the National Cancer Act. In 1978, Congress ordered the Report on Carcinogens, to educate the public and health professionals on potential environmental carcinogenic hazards.

Perhaps disheartening to know that even with 256 entries, the list probably understates the number of carcinogens humans and other creatures are exposed to. But things can change with time. Each list goes through a rigorous round of reviews. Sometimes substances are “delisted” after, for instance, litigation or new research. Saccharin, for example, was removed from the ninth edition. It was listed as “reasonably anticipated” in 1981, based on “sufficient evidence of carcinogenicity in experimental animals.” It was removed, however, after extensive review of decades of saccharin use determined that the data were not sufficient to meet current criteria. Further research had revealed, also, that the observed bladder tumors in rats arose from a mechanism not relevant to humans.

Other entries, such as the controversial listing of the cancer drug tamoxifen, walk a fine line between risk and benefit. Tamoxifen, first listed in the ninth report (and still in the 15th report), was included because studies revealed that it could increase the risk of uterine cancer in women. But there also was conclusive evidence that it may prevent or delay breast cancer in women who are at high risk.

Ultimately, the report’s authors make it clear that it is for informative value and guidance, not necessarily a dictate. As one report put it: “Personal decisions concerning voluntary exposures to carcinogenic agents need to be based on additional information that is beyond the scope” of the report.

“As the identification of carcinogens is a key step in cancer prevention,” said Rick Woychik, PhD, director of the National Institute of Environmental Health Sciences and NTP, “publication of the report represents an important government activity towards improving public health.”

From environmental tobacco smoke to ultraviolet (UV) radiation, diesel exhaust particulates, lead, and now, chronic infection with Helicobacter pylori (H pylori)—the Report on Carcinogens has regularly updated the list of substances known or “reasonably anticipated” to cause cancer.

The 15th report, which is prepared by the National Toxicology Program (NTP) for the Department of Health and Human Services, has 8 new entries, bringing the number of human carcinogens (eg, metals, pesticides, and drugs) on the list to 256. (The first report, released in 1980, listed 26.) In addition to H pylori infection, this edition adds the flame-retardant chemical antimony trioxide, and 6 haloacetic acids found as water disinfection byproducts.

In 1971, then President Nixon declared “war on cancer” (the second leading cause of death in the US) and signed the National Cancer Act. In 1978, Congress ordered the Report on Carcinogens, to educate the public and health professionals on potential environmental carcinogenic hazards.

Perhaps disheartening to know that even with 256 entries, the list probably understates the number of carcinogens humans and other creatures are exposed to. But things can change with time. Each list goes through a rigorous round of reviews. Sometimes substances are “delisted” after, for instance, litigation or new research. Saccharin, for example, was removed from the ninth edition. It was listed as “reasonably anticipated” in 1981, based on “sufficient evidence of carcinogenicity in experimental animals.” It was removed, however, after extensive review of decades of saccharin use determined that the data were not sufficient to meet current criteria. Further research had revealed, also, that the observed bladder tumors in rats arose from a mechanism not relevant to humans.

Other entries, such as the controversial listing of the cancer drug tamoxifen, walk a fine line between risk and benefit. Tamoxifen, first listed in the ninth report (and still in the 15th report), was included because studies revealed that it could increase the risk of uterine cancer in women. But there also was conclusive evidence that it may prevent or delay breast cancer in women who are at high risk.

Ultimately, the report’s authors make it clear that it is for informative value and guidance, not necessarily a dictate. As one report put it: “Personal decisions concerning voluntary exposures to carcinogenic agents need to be based on additional information that is beyond the scope” of the report.

“As the identification of carcinogens is a key step in cancer prevention,” said Rick Woychik, PhD, director of the National Institute of Environmental Health Sciences and NTP, “publication of the report represents an important government activity towards improving public health.”

From environmental tobacco smoke to ultraviolet (UV) radiation, diesel exhaust particulates, lead, and now, chronic infection with Helicobacter pylori (H pylori)—the Report on Carcinogens has regularly updated the list of substances known or “reasonably anticipated” to cause cancer.

The 15th report, which is prepared by the National Toxicology Program (NTP) for the Department of Health and Human Services, has 8 new entries, bringing the number of human carcinogens (eg, metals, pesticides, and drugs) on the list to 256. (The first report, released in 1980, listed 26.) In addition to H pylori infection, this edition adds the flame-retardant chemical antimony trioxide, and 6 haloacetic acids found as water disinfection byproducts.

In 1971, then President Nixon declared “war on cancer” (the second leading cause of death in the US) and signed the National Cancer Act. In 1978, Congress ordered the Report on Carcinogens, to educate the public and health professionals on potential environmental carcinogenic hazards.

Perhaps disheartening to know that even with 256 entries, the list probably understates the number of carcinogens humans and other creatures are exposed to. But things can change with time. Each list goes through a rigorous round of reviews. Sometimes substances are “delisted” after, for instance, litigation or new research. Saccharin, for example, was removed from the ninth edition. It was listed as “reasonably anticipated” in 1981, based on “sufficient evidence of carcinogenicity in experimental animals.” It was removed, however, after extensive review of decades of saccharin use determined that the data were not sufficient to meet current criteria. Further research had revealed, also, that the observed bladder tumors in rats arose from a mechanism not relevant to humans.

Other entries, such as the controversial listing of the cancer drug tamoxifen, walk a fine line between risk and benefit. Tamoxifen, first listed in the ninth report (and still in the 15th report), was included because studies revealed that it could increase the risk of uterine cancer in women. But there also was conclusive evidence that it may prevent or delay breast cancer in women who are at high risk.

Ultimately, the report’s authors make it clear that it is for informative value and guidance, not necessarily a dictate. As one report put it: “Personal decisions concerning voluntary exposures to carcinogenic agents need to be based on additional information that is beyond the scope” of the report.

“As the identification of carcinogens is a key step in cancer prevention,” said Rick Woychik, PhD, director of the National Institute of Environmental Health Sciences and NTP, “publication of the report represents an important government activity towards improving public health.”

Children who survive an episode of acute respiratory failure that requires invasive mechanical ventilation may be at risk for slightly lower long-term neurocognitive function, new research suggests.

Investigators found lower IQs in children without previous neurocognitive problems who survived pediatric intensive care unit admission for acute respiratory failure, compared with their biological siblings.

Although this magnitude of difference was small on average, more than twice as many patients as siblings had an IQ of ≤85, and children hospitalized at the youngest ages did worse than their siblings.

“Children surviving acute respiratory failure may benefit from routine evaluation of neurocognitive function after hospital discharge and may require serial evaluation to identify deficits that emerge over the course of child’s continued development to facilitate early intervention to prevent disability and optimize school performance,” study investigator R. Scott Watson, MD, MPH, professor of pediatrics, University of Washington, Seattle, told this news organization.

The study was published online March 1 in JAMA.
 

Unknown long-term effects

“Approximately 23,700 U.S. children undergo invasive mechanical ventilation for acute respiratory failure annually, with unknown long-term effects on neurocognitive function,” the authors write.

“With improvements in pediatric critical care over the past several decades, critical illness–associated mortality has improved dramatically [but] as survivorship has increased, we are starting to learn that many patients and their families suffer from long-term morbidity associated with the illness and its treatment,” said Dr. Watson, who is the associate division chief, pediatric critical care medicine, Seattle Children’s Hospital, Center for Child Health, Behavior, and Development.

Animal studies “have found that some sedative medications commonly used to keep children safe during mechanical ventilation may have detrimental neurologic effects, particularly in the developing brain,” Dr. Watson added.

To gain a better understanding of this potential association, the researchers turned to a subset of participants in the previously conducted Randomized Evaluation of Sedation Titration for Respiratory Failure (RESTORE) trial of pediatric patients receiving mechanical ventilation for acute respiratory failure.

For the current study (RESTORE-Cognition), multiple domains of neurocognitive function were assessed 3-8 years after hospital discharge in trial patients who did not have a history of neurocognitive dysfunction, as well as matched, healthy siblings.

To be included in the study, the children had to be ≤8 years old at trial enrollment, have a Pediatric Cerebral Performance Category (PCPC) score of 1 (normal) prior to PICU admission, and have no worse than moderate neurocognitive dysfunction at PICU discharge.

Siblings of enrolled patients were required to be between 4 and 16 years old at the time of neurocognitive testing, have a PCPC score of 1, have the same biological parents as the patient, and live with the patient.

The primary outcome was IQ, estimated by the age-appropriate Vocabulary and Block Design subtests of the Wechsler Intelligence Scale. Secondary outcomes included attention, processing speed, learning and memory, visuospatial skills, motor skills, language, and executive function. Enough time was allowed after hospitalization “for transient deficits to resolve and longer-lasting neurocognitive sequelae to manifest.”
 

‘Uncertain’ clinical importance

Of the 121 sibling pairs (67% non-Hispanic White, 47% from families in which one or both parents worked full-time), 116 were included in the primary outcome analysis, and 66-19 were included in analyses of secondary outcomes.

Patients had been in the PICU at a median (interquartile range [IQR]) age of 1.0 (0.2-3.2) years and had received a median of 5.5 (3.1-7.7) days of invasive mechanical ventilation.

The median age at testing for patients and matched siblings was 6.6 (5.4-9.1) and 8.4 (7.0-10.2) years, respectively. Interviews with parents and testing of patients were conducted a median (IQR) of 3.8 (3.2-5.2) and 5.2 (4.3-6.1) years, respectively, after hospitalization.

The most common etiologies of respiratory failure were bronchiolitis and asthma and pneumonia (44% and 37%, respectively). Beyond respiratory failure, most patients (72%) also had experienced multiple organ dysfunction syndrome.

Patients had a lower mean estimated IQ, compared with the matched siblings (101.5 vs. 104.3; mean difference, –2.8 [95% confidence interval, –5.4 to –0.2]), and more patients than siblings had an estimated IQ of ≤5 but not of ≤70.

Patients also had significantly lower scores on nonverbal memory, visuospatial skills, and fine motor control (mean differences, –0.9 [–1.6 to –0.3]; –0.9 [–1.8 to –.1]; and –-3.1 [–4.9 to –1.4], respectively), compared with matched siblings. They also had significantly higher scores on processing speed (mean difference, 4.4 [0.2-8.5]). There were no significant differences in the other secondary outcomes.

Differences in scores between patients and siblings varied significantly by age at hospitalization in several tests – for example, Block Design scores in patients were lower than those of siblings for patients hospitalized at <1 year old, versus those hospitalized between ages 4 and 8 years.

“When adjusting for patient age at PICU admission, patient age at testing, sibling age at testing, and duration between hospital discharge and testing, the difference in estimated IQ between patients and siblings remained statistically significantly different,” the authors note.

The investigators point out several limitations, including the fact that “little is known about sibling outcomes after critical illness, nor about whether parenting of siblings or child development differs based on birth order or on relationship between patient critical illness and the birth of siblings. ... If siblings also incur negative effects related to the critical illness, differences between critically ill children and the control siblings would be blunted.”

Despite the statistical significance of the difference between the patients and the matched controls, ultimately, the magnitude of the difference was “small and of uncertain clinical importance,” the authors conclude.
 

Filling a research gap

Commenting on the findings, Alexandre T. Rotta, MD, professor of pediatrics and chief of the division of pediatric critical care medicine, Duke University Medical Center, Durham, N.C., said the study “addresses an important yet vastly understudied gap: long-term neurocognitive morbidity in children exposed to critical care.”

Dr. Rotta, who is also a coauthor of an accompanying editorial, noted that the fact that the “vast majority of children with an IQ significantly lower than their siblings were under the age of 4 years suggests that the developing immature brain may be particularly susceptible to the effects of critical illness and therapies required to treat it.”

The study “underscores the need to include assessments of long-term morbidity as part of any future trial evaluating interventions in pediatric critical care,” he added.

The study was supported by grants from the Eunice Kennedy Shriver National Institute of Child Health and Human Development for RESTORE-Cognition and by grants for the RESTORE trial from the National Heart, Lung, and Blood Institute and the National Institute of Nursing Research, National Institutes of Health. Dr. Watson and coauthors report no relevant financial relationships. Dr. Rotta has received personal fees from Vapotherm for lecturing and development of educational materials and from Breas US for participation in a scientific advisory board, as well as royalties from Elsevier for editorial work outside the submitted work. His coauthor reports no relevant financial relationships.

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

Children who survive an episode of acute respiratory failure that requires invasive mechanical ventilation may be at risk for slightly lower long-term neurocognitive function, new research suggests.

Investigators found lower IQs in children without previous neurocognitive problems who survived pediatric intensive care unit admission for acute respiratory failure, compared with their biological siblings.

Although this magnitude of difference was small on average, more than twice as many patients as siblings had an IQ of ≤85, and children hospitalized at the youngest ages did worse than their siblings.

“Children surviving acute respiratory failure may benefit from routine evaluation of neurocognitive function after hospital discharge and may require serial evaluation to identify deficits that emerge over the course of child’s continued development to facilitate early intervention to prevent disability and optimize school performance,” study investigator R. Scott Watson, MD, MPH, professor of pediatrics, University of Washington, Seattle, told this news organization.

The study was published online March 1 in JAMA.
 

Unknown long-term effects

“Approximately 23,700 U.S. children undergo invasive mechanical ventilation for acute respiratory failure annually, with unknown long-term effects on neurocognitive function,” the authors write.

“With improvements in pediatric critical care over the past several decades, critical illness–associated mortality has improved dramatically [but] as survivorship has increased, we are starting to learn that many patients and their families suffer from long-term morbidity associated with the illness and its treatment,” said Dr. Watson, who is the associate division chief, pediatric critical care medicine, Seattle Children’s Hospital, Center for Child Health, Behavior, and Development.

Animal studies “have found that some sedative medications commonly used to keep children safe during mechanical ventilation may have detrimental neurologic effects, particularly in the developing brain,” Dr. Watson added.

To gain a better understanding of this potential association, the researchers turned to a subset of participants in the previously conducted Randomized Evaluation of Sedation Titration for Respiratory Failure (RESTORE) trial of pediatric patients receiving mechanical ventilation for acute respiratory failure.

For the current study (RESTORE-Cognition), multiple domains of neurocognitive function were assessed 3-8 years after hospital discharge in trial patients who did not have a history of neurocognitive dysfunction, as well as matched, healthy siblings.

To be included in the study, the children had to be ≤8 years old at trial enrollment, have a Pediatric Cerebral Performance Category (PCPC) score of 1 (normal) prior to PICU admission, and have no worse than moderate neurocognitive dysfunction at PICU discharge.

Siblings of enrolled patients were required to be between 4 and 16 years old at the time of neurocognitive testing, have a PCPC score of 1, have the same biological parents as the patient, and live with the patient.

The primary outcome was IQ, estimated by the age-appropriate Vocabulary and Block Design subtests of the Wechsler Intelligence Scale. Secondary outcomes included attention, processing speed, learning and memory, visuospatial skills, motor skills, language, and executive function. Enough time was allowed after hospitalization “for transient deficits to resolve and longer-lasting neurocognitive sequelae to manifest.”
 

‘Uncertain’ clinical importance

Of the 121 sibling pairs (67% non-Hispanic White, 47% from families in which one or both parents worked full-time), 116 were included in the primary outcome analysis, and 66-19 were included in analyses of secondary outcomes.

Patients had been in the PICU at a median (interquartile range [IQR]) age of 1.0 (0.2-3.2) years and had received a median of 5.5 (3.1-7.7) days of invasive mechanical ventilation.

The median age at testing for patients and matched siblings was 6.6 (5.4-9.1) and 8.4 (7.0-10.2) years, respectively. Interviews with parents and testing of patients were conducted a median (IQR) of 3.8 (3.2-5.2) and 5.2 (4.3-6.1) years, respectively, after hospitalization.

The most common etiologies of respiratory failure were bronchiolitis and asthma and pneumonia (44% and 37%, respectively). Beyond respiratory failure, most patients (72%) also had experienced multiple organ dysfunction syndrome.

Patients had a lower mean estimated IQ, compared with the matched siblings (101.5 vs. 104.3; mean difference, –2.8 [95% confidence interval, –5.4 to –0.2]), and more patients than siblings had an estimated IQ of ≤5 but not of ≤70.

Patients also had significantly lower scores on nonverbal memory, visuospatial skills, and fine motor control (mean differences, –0.9 [–1.6 to –0.3]; –0.9 [–1.8 to –.1]; and –-3.1 [–4.9 to –1.4], respectively), compared with matched siblings. They also had significantly higher scores on processing speed (mean difference, 4.4 [0.2-8.5]). There were no significant differences in the other secondary outcomes.

Differences in scores between patients and siblings varied significantly by age at hospitalization in several tests – for example, Block Design scores in patients were lower than those of siblings for patients hospitalized at <1 year old, versus those hospitalized between ages 4 and 8 years.

“When adjusting for patient age at PICU admission, patient age at testing, sibling age at testing, and duration between hospital discharge and testing, the difference in estimated IQ between patients and siblings remained statistically significantly different,” the authors note.

The investigators point out several limitations, including the fact that “little is known about sibling outcomes after critical illness, nor about whether parenting of siblings or child development differs based on birth order or on relationship between patient critical illness and the birth of siblings. ... If siblings also incur negative effects related to the critical illness, differences between critically ill children and the control siblings would be blunted.”

Despite the statistical significance of the difference between the patients and the matched controls, ultimately, the magnitude of the difference was “small and of uncertain clinical importance,” the authors conclude.
 

Filling a research gap

Commenting on the findings, Alexandre T. Rotta, MD, professor of pediatrics and chief of the division of pediatric critical care medicine, Duke University Medical Center, Durham, N.C., said the study “addresses an important yet vastly understudied gap: long-term neurocognitive morbidity in children exposed to critical care.”

Dr. Rotta, who is also a coauthor of an accompanying editorial, noted that the fact that the “vast majority of children with an IQ significantly lower than their siblings were under the age of 4 years suggests that the developing immature brain may be particularly susceptible to the effects of critical illness and therapies required to treat it.”

The study “underscores the need to include assessments of long-term morbidity as part of any future trial evaluating interventions in pediatric critical care,” he added.

The study was supported by grants from the Eunice Kennedy Shriver National Institute of Child Health and Human Development for RESTORE-Cognition and by grants for the RESTORE trial from the National Heart, Lung, and Blood Institute and the National Institute of Nursing Research, National Institutes of Health. Dr. Watson and coauthors report no relevant financial relationships. Dr. Rotta has received personal fees from Vapotherm for lecturing and development of educational materials and from Breas US for participation in a scientific advisory board, as well as royalties from Elsevier for editorial work outside the submitted work. His coauthor reports no relevant financial relationships.

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

Children who survive an episode of acute respiratory failure that requires invasive mechanical ventilation may be at risk for slightly lower long-term neurocognitive function, new research suggests.

Investigators found lower IQs in children without previous neurocognitive problems who survived pediatric intensive care unit admission for acute respiratory failure, compared with their biological siblings.

Although this magnitude of difference was small on average, more than twice as many patients as siblings had an IQ of ≤85, and children hospitalized at the youngest ages did worse than their siblings.

“Children surviving acute respiratory failure may benefit from routine evaluation of neurocognitive function after hospital discharge and may require serial evaluation to identify deficits that emerge over the course of child’s continued development to facilitate early intervention to prevent disability and optimize school performance,” study investigator R. Scott Watson, MD, MPH, professor of pediatrics, University of Washington, Seattle, told this news organization.

The study was published online March 1 in JAMA.
 

Unknown long-term effects

“Approximately 23,700 U.S. children undergo invasive mechanical ventilation for acute respiratory failure annually, with unknown long-term effects on neurocognitive function,” the authors write.

“With improvements in pediatric critical care over the past several decades, critical illness–associated mortality has improved dramatically [but] as survivorship has increased, we are starting to learn that many patients and their families suffer from long-term morbidity associated with the illness and its treatment,” said Dr. Watson, who is the associate division chief, pediatric critical care medicine, Seattle Children’s Hospital, Center for Child Health, Behavior, and Development.

Animal studies “have found that some sedative medications commonly used to keep children safe during mechanical ventilation may have detrimental neurologic effects, particularly in the developing brain,” Dr. Watson added.

To gain a better understanding of this potential association, the researchers turned to a subset of participants in the previously conducted Randomized Evaluation of Sedation Titration for Respiratory Failure (RESTORE) trial of pediatric patients receiving mechanical ventilation for acute respiratory failure.

For the current study (RESTORE-Cognition), multiple domains of neurocognitive function were assessed 3-8 years after hospital discharge in trial patients who did not have a history of neurocognitive dysfunction, as well as matched, healthy siblings.

To be included in the study, the children had to be ≤8 years old at trial enrollment, have a Pediatric Cerebral Performance Category (PCPC) score of 1 (normal) prior to PICU admission, and have no worse than moderate neurocognitive dysfunction at PICU discharge.

Siblings of enrolled patients were required to be between 4 and 16 years old at the time of neurocognitive testing, have a PCPC score of 1, have the same biological parents as the patient, and live with the patient.

The primary outcome was IQ, estimated by the age-appropriate Vocabulary and Block Design subtests of the Wechsler Intelligence Scale. Secondary outcomes included attention, processing speed, learning and memory, visuospatial skills, motor skills, language, and executive function. Enough time was allowed after hospitalization “for transient deficits to resolve and longer-lasting neurocognitive sequelae to manifest.”
 

‘Uncertain’ clinical importance

Of the 121 sibling pairs (67% non-Hispanic White, 47% from families in which one or both parents worked full-time), 116 were included in the primary outcome analysis, and 66-19 were included in analyses of secondary outcomes.

Patients had been in the PICU at a median (interquartile range [IQR]) age of 1.0 (0.2-3.2) years and had received a median of 5.5 (3.1-7.7) days of invasive mechanical ventilation.

The median age at testing for patients and matched siblings was 6.6 (5.4-9.1) and 8.4 (7.0-10.2) years, respectively. Interviews with parents and testing of patients were conducted a median (IQR) of 3.8 (3.2-5.2) and 5.2 (4.3-6.1) years, respectively, after hospitalization.

The most common etiologies of respiratory failure were bronchiolitis and asthma and pneumonia (44% and 37%, respectively). Beyond respiratory failure, most patients (72%) also had experienced multiple organ dysfunction syndrome.

Patients had a lower mean estimated IQ, compared with the matched siblings (101.5 vs. 104.3; mean difference, –2.8 [95% confidence interval, –5.4 to –0.2]), and more patients than siblings had an estimated IQ of ≤5 but not of ≤70.

Patients also had significantly lower scores on nonverbal memory, visuospatial skills, and fine motor control (mean differences, –0.9 [–1.6 to –0.3]; –0.9 [–1.8 to –.1]; and –-3.1 [–4.9 to –1.4], respectively), compared with matched siblings. They also had significantly higher scores on processing speed (mean difference, 4.4 [0.2-8.5]). There were no significant differences in the other secondary outcomes.

Differences in scores between patients and siblings varied significantly by age at hospitalization in several tests – for example, Block Design scores in patients were lower than those of siblings for patients hospitalized at <1 year old, versus those hospitalized between ages 4 and 8 years.

“When adjusting for patient age at PICU admission, patient age at testing, sibling age at testing, and duration between hospital discharge and testing, the difference in estimated IQ between patients and siblings remained statistically significantly different,” the authors note.

The investigators point out several limitations, including the fact that “little is known about sibling outcomes after critical illness, nor about whether parenting of siblings or child development differs based on birth order or on relationship between patient critical illness and the birth of siblings. ... If siblings also incur negative effects related to the critical illness, differences between critically ill children and the control siblings would be blunted.”

Despite the statistical significance of the difference between the patients and the matched controls, ultimately, the magnitude of the difference was “small and of uncertain clinical importance,” the authors conclude.
 

Filling a research gap

Commenting on the findings, Alexandre T. Rotta, MD, professor of pediatrics and chief of the division of pediatric critical care medicine, Duke University Medical Center, Durham, N.C., said the study “addresses an important yet vastly understudied gap: long-term neurocognitive morbidity in children exposed to critical care.”

Dr. Rotta, who is also a coauthor of an accompanying editorial, noted that the fact that the “vast majority of children with an IQ significantly lower than their siblings were under the age of 4 years suggests that the developing immature brain may be particularly susceptible to the effects of critical illness and therapies required to treat it.”

The study “underscores the need to include assessments of long-term morbidity as part of any future trial evaluating interventions in pediatric critical care,” he added.

The study was supported by grants from the Eunice Kennedy Shriver National Institute of Child Health and Human Development for RESTORE-Cognition and by grants for the RESTORE trial from the National Heart, Lung, and Blood Institute and the National Institute of Nursing Research, National Institutes of Health. Dr. Watson and coauthors report no relevant financial relationships. Dr. Rotta has received personal fees from Vapotherm for lecturing and development of educational materials and from Breas US for participation in a scientific advisory board, as well as royalties from Elsevier for editorial work outside the submitted work. His coauthor reports no relevant financial relationships.

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

A single injection of the experimental agent nirsevimab ahead of respiratory syncytial virus (RSV) season protects healthy infants from lower respiratory tract infections associated with the pathogen, according to the results of a phase 3 study.

A previously published trial showed that a single dose of nirsevimab was effective in preterm infants. The ability to protect all babies from RSV, which causes bronchiolitis and pneumonia and is a leading cause of hospitalization for this age group, “would be a paradigm shift in the approach to this disease,” William Muller, MD, PhD, of the Lurie Children’s Hospital of Chicago and a coauthor of the study, said in a statement.

The primary endpoint of the study was medically attended lower respiratory tract infections linked to RSV. The single injection of nirsevimab was associated with a 74.5% reduction in such infections (P < .001), according to Dr. Muller’s group, who published their findings March 2 in the New England Journal of Medicine.

Nirsevimab, a monoclonal antibody to the RSV fusion protein being developed by AstraZeneca and Sanofi, has an extended half-life, which may allow one dose to confer protection throughout a season. The only approved option to prevent RSV, palivizumab (Synagis), is used for high-risk infants, and five injections are needed to cover a viral season.
 

Nearly 1,500 infants in more than 20 countries studied

To assess the effectiveness of nirsevimab in late-preterm and term infants, investigators at 160 sites randomly assigned 1,490 babies born at a gestational age of at least 35 weeks to receive an intramuscular injection of nirsevimab or placebo.

During the 150 days after injection, medically attended RSV-associated lower respiratory tract infections occurred in 12 of 994 infants who received nirsevimab, compared with 25 of 496 babies who received placebo (1.2% vs. 5%).

Six of 994 infants who received nirsevimab were hospitalized for RSV-associated lower respiratory tract infections, compared with 8 of 496 infants in the placebo group (0.6% vs. 1.6%; P = .07). The proportion of children hospitalized for any respiratory illness as a result of RSV was 0.9% among those who received nirsevimab, compared with 2.2% among those who received placebo.

Serious adverse events occurred in 6.8% of the nirsevimab group and 7.3% of the placebo group. None of these events, including three deaths in the nirsevimab group, was considered related to nirsevimab or placebo, according to the researchers. One infant who received nirsevimab had a generalized macular rash without systemic features that did not require treatment and resolved in 20 days, they said.

Antidrug antibodies were detected in 6.1% of the nirsevimab group and in 1.1% of the placebo group. These antidrug antibodies tended to develop later and did not affect nirsevimab pharmacokinetics during the RSV season, the researchers reported. How they might affect subsequent doses of nirsevimab is not known, they added.

In a separate report in the journal, researcher Joseph Domachowske, MD, SUNY Upstate Medical University, Syracuse, New York, and colleagues described safety results from an ongoing study of nirsevimab that includes infants with congenital heart disease, chronic lung disease, and prematurity.

In this trial, infants received nirsevimab or palivizumab, and the treatments appeared to have similar safety profiles, the authors reported.

Other approaches to RSV protection include passive antibodies acquired from maternal vaccination in pregnancy and active vaccination of infants.

The publication follows news last month that GlaxoSmithKline is pausing a maternal RSV vaccine trial, which “had the same goal of protecting babies against severe RSV infection,” said Louis Bont, MD, PhD, with University Medical Center Utrecht, the Netherlands.

RSV infection is one of the deadliest diseases during infancy, and the nirsevimab trial, conducted in more than 20 countries, is “gamechanging,” Dr. Bont told this news organization. Still, researchers will need to monitor for RSV resistance to this treatment, he said.

Whether nirsevimab prevents the development of reactive airway disease and asthma is another open question, he said.

“Finally, we need to keep in mind that RSV mortality is almost limited to the developing world, and it is unlikely that this novel drug will become available to these countries in the coming years,” Dr. Bont said. “Nevertheless, nirsevimab has the potential to seriously decrease the annual overwhelming number of RSV infected babies.”

Nirsevimab may have advantages in low- and middle-income countries, including its potential to be incorporated into established immunization programs and to be given seasonally, said Amy Sarah Ginsburg, MD, MPH, of the University of Washington, Seattle. “However, cost remains a significant factor, as does susceptibility to pathogen escape,” she said.

MedImmune/AstraZeneca and Sanofi funded the nirsevimab studies. UMC Utrecht has received research grants and fees for advisory work from AstraZeneca for RSV-related work by Bont.

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

A single injection of the experimental agent nirsevimab ahead of respiratory syncytial virus (RSV) season protects healthy infants from lower respiratory tract infections associated with the pathogen, according to the results of a phase 3 study.

A previously published trial showed that a single dose of nirsevimab was effective in preterm infants. The ability to protect all babies from RSV, which causes bronchiolitis and pneumonia and is a leading cause of hospitalization for this age group, “would be a paradigm shift in the approach to this disease,” William Muller, MD, PhD, of the Lurie Children’s Hospital of Chicago and a coauthor of the study, said in a statement.

The primary endpoint of the study was medically attended lower respiratory tract infections linked to RSV. The single injection of nirsevimab was associated with a 74.5% reduction in such infections (P < .001), according to Dr. Muller’s group, who published their findings March 2 in the New England Journal of Medicine.

Nirsevimab, a monoclonal antibody to the RSV fusion protein being developed by AstraZeneca and Sanofi, has an extended half-life, which may allow one dose to confer protection throughout a season. The only approved option to prevent RSV, palivizumab (Synagis), is used for high-risk infants, and five injections are needed to cover a viral season.
 

Nearly 1,500 infants in more than 20 countries studied

To assess the effectiveness of nirsevimab in late-preterm and term infants, investigators at 160 sites randomly assigned 1,490 babies born at a gestational age of at least 35 weeks to receive an intramuscular injection of nirsevimab or placebo.

During the 150 days after injection, medically attended RSV-associated lower respiratory tract infections occurred in 12 of 994 infants who received nirsevimab, compared with 25 of 496 babies who received placebo (1.2% vs. 5%).

Six of 994 infants who received nirsevimab were hospitalized for RSV-associated lower respiratory tract infections, compared with 8 of 496 infants in the placebo group (0.6% vs. 1.6%; P = .07). The proportion of children hospitalized for any respiratory illness as a result of RSV was 0.9% among those who received nirsevimab, compared with 2.2% among those who received placebo.

Serious adverse events occurred in 6.8% of the nirsevimab group and 7.3% of the placebo group. None of these events, including three deaths in the nirsevimab group, was considered related to nirsevimab or placebo, according to the researchers. One infant who received nirsevimab had a generalized macular rash without systemic features that did not require treatment and resolved in 20 days, they said.

Antidrug antibodies were detected in 6.1% of the nirsevimab group and in 1.1% of the placebo group. These antidrug antibodies tended to develop later and did not affect nirsevimab pharmacokinetics during the RSV season, the researchers reported. How they might affect subsequent doses of nirsevimab is not known, they added.

In a separate report in the journal, researcher Joseph Domachowske, MD, SUNY Upstate Medical University, Syracuse, New York, and colleagues described safety results from an ongoing study of nirsevimab that includes infants with congenital heart disease, chronic lung disease, and prematurity.

In this trial, infants received nirsevimab or palivizumab, and the treatments appeared to have similar safety profiles, the authors reported.

Other approaches to RSV protection include passive antibodies acquired from maternal vaccination in pregnancy and active vaccination of infants.

The publication follows news last month that GlaxoSmithKline is pausing a maternal RSV vaccine trial, which “had the same goal of protecting babies against severe RSV infection,” said Louis Bont, MD, PhD, with University Medical Center Utrecht, the Netherlands.

RSV infection is one of the deadliest diseases during infancy, and the nirsevimab trial, conducted in more than 20 countries, is “gamechanging,” Dr. Bont told this news organization. Still, researchers will need to monitor for RSV resistance to this treatment, he said.

Whether nirsevimab prevents the development of reactive airway disease and asthma is another open question, he said.

“Finally, we need to keep in mind that RSV mortality is almost limited to the developing world, and it is unlikely that this novel drug will become available to these countries in the coming years,” Dr. Bont said. “Nevertheless, nirsevimab has the potential to seriously decrease the annual overwhelming number of RSV infected babies.”

Nirsevimab may have advantages in low- and middle-income countries, including its potential to be incorporated into established immunization programs and to be given seasonally, said Amy Sarah Ginsburg, MD, MPH, of the University of Washington, Seattle. “However, cost remains a significant factor, as does susceptibility to pathogen escape,” she said.

MedImmune/AstraZeneca and Sanofi funded the nirsevimab studies. UMC Utrecht has received research grants and fees for advisory work from AstraZeneca for RSV-related work by Bont.

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

A single injection of the experimental agent nirsevimab ahead of respiratory syncytial virus (RSV) season protects healthy infants from lower respiratory tract infections associated with the pathogen, according to the results of a phase 3 study.

A previously published trial showed that a single dose of nirsevimab was effective in preterm infants. The ability to protect all babies from RSV, which causes bronchiolitis and pneumonia and is a leading cause of hospitalization for this age group, “would be a paradigm shift in the approach to this disease,” William Muller, MD, PhD, of the Lurie Children’s Hospital of Chicago and a coauthor of the study, said in a statement.

The primary endpoint of the study was medically attended lower respiratory tract infections linked to RSV. The single injection of nirsevimab was associated with a 74.5% reduction in such infections (P < .001), according to Dr. Muller’s group, who published their findings March 2 in the New England Journal of Medicine.

Nirsevimab, a monoclonal antibody to the RSV fusion protein being developed by AstraZeneca and Sanofi, has an extended half-life, which may allow one dose to confer protection throughout a season. The only approved option to prevent RSV, palivizumab (Synagis), is used for high-risk infants, and five injections are needed to cover a viral season.
 

Nearly 1,500 infants in more than 20 countries studied

To assess the effectiveness of nirsevimab in late-preterm and term infants, investigators at 160 sites randomly assigned 1,490 babies born at a gestational age of at least 35 weeks to receive an intramuscular injection of nirsevimab or placebo.

During the 150 days after injection, medically attended RSV-associated lower respiratory tract infections occurred in 12 of 994 infants who received nirsevimab, compared with 25 of 496 babies who received placebo (1.2% vs. 5%).

Six of 994 infants who received nirsevimab were hospitalized for RSV-associated lower respiratory tract infections, compared with 8 of 496 infants in the placebo group (0.6% vs. 1.6%; P = .07). The proportion of children hospitalized for any respiratory illness as a result of RSV was 0.9% among those who received nirsevimab, compared with 2.2% among those who received placebo.

Serious adverse events occurred in 6.8% of the nirsevimab group and 7.3% of the placebo group. None of these events, including three deaths in the nirsevimab group, was considered related to nirsevimab or placebo, according to the researchers. One infant who received nirsevimab had a generalized macular rash without systemic features that did not require treatment and resolved in 20 days, they said.

Antidrug antibodies were detected in 6.1% of the nirsevimab group and in 1.1% of the placebo group. These antidrug antibodies tended to develop later and did not affect nirsevimab pharmacokinetics during the RSV season, the researchers reported. How they might affect subsequent doses of nirsevimab is not known, they added.

In a separate report in the journal, researcher Joseph Domachowske, MD, SUNY Upstate Medical University, Syracuse, New York, and colleagues described safety results from an ongoing study of nirsevimab that includes infants with congenital heart disease, chronic lung disease, and prematurity.

In this trial, infants received nirsevimab or palivizumab, and the treatments appeared to have similar safety profiles, the authors reported.

Other approaches to RSV protection include passive antibodies acquired from maternal vaccination in pregnancy and active vaccination of infants.

The publication follows news last month that GlaxoSmithKline is pausing a maternal RSV vaccine trial, which “had the same goal of protecting babies against severe RSV infection,” said Louis Bont, MD, PhD, with University Medical Center Utrecht, the Netherlands.

RSV infection is one of the deadliest diseases during infancy, and the nirsevimab trial, conducted in more than 20 countries, is “gamechanging,” Dr. Bont told this news organization. Still, researchers will need to monitor for RSV resistance to this treatment, he said.

Whether nirsevimab prevents the development of reactive airway disease and asthma is another open question, he said.

“Finally, we need to keep in mind that RSV mortality is almost limited to the developing world, and it is unlikely that this novel drug will become available to these countries in the coming years,” Dr. Bont said. “Nevertheless, nirsevimab has the potential to seriously decrease the annual overwhelming number of RSV infected babies.”

Nirsevimab may have advantages in low- and middle-income countries, including its potential to be incorporated into established immunization programs and to be given seasonally, said Amy Sarah Ginsburg, MD, MPH, of the University of Washington, Seattle. “However, cost remains a significant factor, as does susceptibility to pathogen escape,” she said.

MedImmune/AstraZeneca and Sanofi funded the nirsevimab studies. UMC Utrecht has received research grants and fees for advisory work from AstraZeneca for RSV-related work by Bont.

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