Neonatal Medicine

Mindi Rosen met Seuli Brill, MD, at just the right time. 

Ms. Rosen’s firstborn son was in the neointensive natal unit at The Ohio State University Wexner Medical Center in Columbus, and she didn’t have a pediatrician picked out yet for the baby. Nor did she have a primary care physician who could help her manage the gestational diabetes she developed during her pregnancy.

Dr. Brill, a clinical associate professor of internal medicine and pediatrics at Ohio State, suggested Ms. Rosen visit her at the new clinic she was piloting in Columbus. There, she provided pediatric care for newborns and primary care for mothers who had developed gestational diabetes.  

“I looked at my husband, my husband looked at me, and I said: ‘Why not?’ “ Ms. Rosen, 38, recalled of that 2019 meeting. “I’m so glad she walked in at that moment.”

The mother of two is still part of the rapidly growing program at the medical facility that provides care for more than 200 mothers and babies.

Launched in 2018, the clinic – called the Multi-Modal Maternal Infant Perinatal Outpatient Delivery System, or “Momi Pods,” started with a focus  on helping women with gestational diabetes, which occurs in up to 10% of pregnancies.

The program allows moms to book regular checkups for their baby, and then a follow-up appointment immediately after for themselves. Women are seen for the first 1,000 days (just under 3 years) after giving birth.

The idea was simple. Dr. Brill wanted to develop a more formalized program for the work she was already doing as a primary care physician and pediatrician. At the time, she was fielding referrals from specialists for young women who didn’t have a physician. She’d often develop a relationship with the patient over the years, go on to help oversee their care during pregnancy, then new mothers would select her as their newborn’s pediatrician.

“I would have a relationship with the mom when they did have the newborn, and then I would see the baby because I’m a pediatrician,” Dr. Brill said.

Dr. Brill was serving on the Ohio Gestational Diabetes Mellitus Collaborative, a state-backed program that aims to raise awareness about the condition and encourage more preventative care for patients. She presented her proposal to launch the program to the Ohio Department of Medicaid, which helped to fund the pilot.

The idea, she hoped, would improve postpartum follow-up care for mothers diagnosed with the condition. 

Follow-up care is especially important for women who develop gestational diabetes because the condition raises their lifetime risk of developing type 2 diabetes up to 10-fold. 

Yet most of those mothers don’t get the appropriate follow-up care during the crucial postpartum period, said Maya Subbalakshmi Venkataramani, MD, MPH, an assistant professor of medicine at Johns Hopkins University in Baltimore, who has researched parental care. 

“Things get very busy after you have a child. There’s just the general logistics of a mom having to take care of a newborn and thinking about themselves,” Dr. Venkataramani, a primary care clinician and pediatrician, said. “A lot of parents in general may not put a lot of emphasis on their own health.”

Seeking care may be especially difficult for low-income mothers who might not have consistent health care coverage, she added.

In fact, only half of women who developed gestational diabetes received primary follow-up care, according to a study published in JAMA Network Open. The study, which examined more than 280,000 insurance claims between 2015 and 2018, found only 36% of women with gestational diabetes received the recommended blood glucose testing in the first 12 weeks of the postpartum period.

In the Momi Pods program, Dr. Brill checked in on Ms. Rosen’s gestational diabetes regularly during pediatric office visits for her newborn’s care. Ms. Rosen said whenever she brought her baby in for a visit during the postpartum period, Dr. Brill measured her blood sugar. 

Dr. Brill and her team also asked how Ms. Rosen was doing physically and mentally during each visit. The screenings helped to catch a bout of postpartum depression Ms. Rosen experienced after the birth of her first son.

“I thought it was great, because honestly as a new mom I wouldn’t have followed up with myself so much,” Ms. Rosen said. “Every time you went into the doctor appointments, they’d ask you how you are doing. As a new mom, it’s so much easier to do it at the same time.”

Those who participate in the program are also more likely to complete postpartum visits with their ob.gyn. (95% vs. 58%, respectively; P < .001) than those who don’t participate, according to research Dr. Brill and colleagues published.

Dr. Brill began expanding the program’s reach nearly 2 years after its launch, targeting the services for women who are at risk for poor postpartum outcomes, including those with a history of depression, preterm labor, diabetes and congenital heart disease. Ob.gyns. in Ohio State’s network can refer their patients to the program, which now has 43 doctors trained to provide primary and pediatric care through Momi Pods. Soon-to-be moms can be referred to the program as early as the second trimester, Dr. Brill said.

Many of the mothers referred to the program don’t have a primary care clinician when they talk to Paola Beamon, RN, at Ohio State. Ms. Beamon reaches out to each referred patient over voicemail, a MyChart message, and even regular mail in hopes of helping them navigate the postpartum period. She also provides education on what a primary care clinician can offer new moms.

“Really, we’re pursuing these moms and doing everything we can so there’s less of a burden for them,” Ms. Beamon said. “A lot of them don’t even know what a primary care office does.”

One of the biggest perks to the program for new moms is that they don’t have to spend time and money traveling to a different doctor’s office, take time off work, or secure childcare in order to schedule a separate appointment for themselves, she said.

The program, which receives funding from the university and the state, even helps women get bus passes to a doctor’s appointment if needed.

Dyad programs targeting women with substance abuse disorders or mental health conditions have existed for many years. But catering to women with gestational diabetes or other medical conditions appears to be new. In part, Dr. Venkataramani said, because scheduling and space can be big hurdles to launch such a program, as well as finding doctors who can care for both baby and mother.

“There are logistical challenges to even doing this that makes it less common,” she said.

Dr. Brill said she is not aware of any other programs that are structured like the tandem care clinic at Ohio State. She hopes, however, that the program can be a model for other hospital systems to consider, and she is working to expand the program regionally. Her team is collecting data – including on the best way to schedule patients – to help other clinics develop something similar. 

“We really want to leverage that expertise to make it easier for moms to get care with their infants and remove barriers to care,” she said.

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

Mindi Rosen met Seuli Brill, MD, at just the right time. 

Ms. Rosen’s firstborn son was in the neointensive natal unit at The Ohio State University Wexner Medical Center in Columbus, and she didn’t have a pediatrician picked out yet for the baby. Nor did she have a primary care physician who could help her manage the gestational diabetes she developed during her pregnancy.

Dr. Brill, a clinical associate professor of internal medicine and pediatrics at Ohio State, suggested Ms. Rosen visit her at the new clinic she was piloting in Columbus. There, she provided pediatric care for newborns and primary care for mothers who had developed gestational diabetes.  

“I looked at my husband, my husband looked at me, and I said: ‘Why not?’ “ Ms. Rosen, 38, recalled of that 2019 meeting. “I’m so glad she walked in at that moment.”

The mother of two is still part of the rapidly growing program at the medical facility that provides care for more than 200 mothers and babies.

Launched in 2018, the clinic – called the Multi-Modal Maternal Infant Perinatal Outpatient Delivery System, or “Momi Pods,” started with a focus  on helping women with gestational diabetes, which occurs in up to 10% of pregnancies.

The program allows moms to book regular checkups for their baby, and then a follow-up appointment immediately after for themselves. Women are seen for the first 1,000 days (just under 3 years) after giving birth.

The idea was simple. Dr. Brill wanted to develop a more formalized program for the work she was already doing as a primary care physician and pediatrician. At the time, she was fielding referrals from specialists for young women who didn’t have a physician. She’d often develop a relationship with the patient over the years, go on to help oversee their care during pregnancy, then new mothers would select her as their newborn’s pediatrician.

“I would have a relationship with the mom when they did have the newborn, and then I would see the baby because I’m a pediatrician,” Dr. Brill said.

Dr. Brill was serving on the Ohio Gestational Diabetes Mellitus Collaborative, a state-backed program that aims to raise awareness about the condition and encourage more preventative care for patients. She presented her proposal to launch the program to the Ohio Department of Medicaid, which helped to fund the pilot.

The idea, she hoped, would improve postpartum follow-up care for mothers diagnosed with the condition. 

Follow-up care is especially important for women who develop gestational diabetes because the condition raises their lifetime risk of developing type 2 diabetes up to 10-fold. 

Yet most of those mothers don’t get the appropriate follow-up care during the crucial postpartum period, said Maya Subbalakshmi Venkataramani, MD, MPH, an assistant professor of medicine at Johns Hopkins University in Baltimore, who has researched parental care. 

“Things get very busy after you have a child. There’s just the general logistics of a mom having to take care of a newborn and thinking about themselves,” Dr. Venkataramani, a primary care clinician and pediatrician, said. “A lot of parents in general may not put a lot of emphasis on their own health.”

Seeking care may be especially difficult for low-income mothers who might not have consistent health care coverage, she added.

In fact, only half of women who developed gestational diabetes received primary follow-up care, according to a study published in JAMA Network Open. The study, which examined more than 280,000 insurance claims between 2015 and 2018, found only 36% of women with gestational diabetes received the recommended blood glucose testing in the first 12 weeks of the postpartum period.

In the Momi Pods program, Dr. Brill checked in on Ms. Rosen’s gestational diabetes regularly during pediatric office visits for her newborn’s care. Ms. Rosen said whenever she brought her baby in for a visit during the postpartum period, Dr. Brill measured her blood sugar. 

Dr. Brill and her team also asked how Ms. Rosen was doing physically and mentally during each visit. The screenings helped to catch a bout of postpartum depression Ms. Rosen experienced after the birth of her first son.

“I thought it was great, because honestly as a new mom I wouldn’t have followed up with myself so much,” Ms. Rosen said. “Every time you went into the doctor appointments, they’d ask you how you are doing. As a new mom, it’s so much easier to do it at the same time.”

Those who participate in the program are also more likely to complete postpartum visits with their ob.gyn. (95% vs. 58%, respectively; P < .001) than those who don’t participate, according to research Dr. Brill and colleagues published.

Dr. Brill began expanding the program’s reach nearly 2 years after its launch, targeting the services for women who are at risk for poor postpartum outcomes, including those with a history of depression, preterm labor, diabetes and congenital heart disease. Ob.gyns. in Ohio State’s network can refer their patients to the program, which now has 43 doctors trained to provide primary and pediatric care through Momi Pods. Soon-to-be moms can be referred to the program as early as the second trimester, Dr. Brill said.

Many of the mothers referred to the program don’t have a primary care clinician when they talk to Paola Beamon, RN, at Ohio State. Ms. Beamon reaches out to each referred patient over voicemail, a MyChart message, and even regular mail in hopes of helping them navigate the postpartum period. She also provides education on what a primary care clinician can offer new moms.

“Really, we’re pursuing these moms and doing everything we can so there’s less of a burden for them,” Ms. Beamon said. “A lot of them don’t even know what a primary care office does.”

One of the biggest perks to the program for new moms is that they don’t have to spend time and money traveling to a different doctor’s office, take time off work, or secure childcare in order to schedule a separate appointment for themselves, she said.

The program, which receives funding from the university and the state, even helps women get bus passes to a doctor’s appointment if needed.

Dyad programs targeting women with substance abuse disorders or mental health conditions have existed for many years. But catering to women with gestational diabetes or other medical conditions appears to be new. In part, Dr. Venkataramani said, because scheduling and space can be big hurdles to launch such a program, as well as finding doctors who can care for both baby and mother.

“There are logistical challenges to even doing this that makes it less common,” she said.

Dr. Brill said she is not aware of any other programs that are structured like the tandem care clinic at Ohio State. She hopes, however, that the program can be a model for other hospital systems to consider, and she is working to expand the program regionally. Her team is collecting data – including on the best way to schedule patients – to help other clinics develop something similar. 

“We really want to leverage that expertise to make it easier for moms to get care with their infants and remove barriers to care,” she said.

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

Mindi Rosen met Seuli Brill, MD, at just the right time. 

Ms. Rosen’s firstborn son was in the neointensive natal unit at The Ohio State University Wexner Medical Center in Columbus, and she didn’t have a pediatrician picked out yet for the baby. Nor did she have a primary care physician who could help her manage the gestational diabetes she developed during her pregnancy.

Dr. Brill, a clinical associate professor of internal medicine and pediatrics at Ohio State, suggested Ms. Rosen visit her at the new clinic she was piloting in Columbus. There, she provided pediatric care for newborns and primary care for mothers who had developed gestational diabetes.  

“I looked at my husband, my husband looked at me, and I said: ‘Why not?’ “ Ms. Rosen, 38, recalled of that 2019 meeting. “I’m so glad she walked in at that moment.”

The mother of two is still part of the rapidly growing program at the medical facility that provides care for more than 200 mothers and babies.

Launched in 2018, the clinic – called the Multi-Modal Maternal Infant Perinatal Outpatient Delivery System, or “Momi Pods,” started with a focus  on helping women with gestational diabetes, which occurs in up to 10% of pregnancies.

The program allows moms to book regular checkups for their baby, and then a follow-up appointment immediately after for themselves. Women are seen for the first 1,000 days (just under 3 years) after giving birth.

The idea was simple. Dr. Brill wanted to develop a more formalized program for the work she was already doing as a primary care physician and pediatrician. At the time, she was fielding referrals from specialists for young women who didn’t have a physician. She’d often develop a relationship with the patient over the years, go on to help oversee their care during pregnancy, then new mothers would select her as their newborn’s pediatrician.

“I would have a relationship with the mom when they did have the newborn, and then I would see the baby because I’m a pediatrician,” Dr. Brill said.

Dr. Brill was serving on the Ohio Gestational Diabetes Mellitus Collaborative, a state-backed program that aims to raise awareness about the condition and encourage more preventative care for patients. She presented her proposal to launch the program to the Ohio Department of Medicaid, which helped to fund the pilot.

The idea, she hoped, would improve postpartum follow-up care for mothers diagnosed with the condition. 

Follow-up care is especially important for women who develop gestational diabetes because the condition raises their lifetime risk of developing type 2 diabetes up to 10-fold. 

Yet most of those mothers don’t get the appropriate follow-up care during the crucial postpartum period, said Maya Subbalakshmi Venkataramani, MD, MPH, an assistant professor of medicine at Johns Hopkins University in Baltimore, who has researched parental care. 

“Things get very busy after you have a child. There’s just the general logistics of a mom having to take care of a newborn and thinking about themselves,” Dr. Venkataramani, a primary care clinician and pediatrician, said. “A lot of parents in general may not put a lot of emphasis on their own health.”

Seeking care may be especially difficult for low-income mothers who might not have consistent health care coverage, she added.

In fact, only half of women who developed gestational diabetes received primary follow-up care, according to a study published in JAMA Network Open. The study, which examined more than 280,000 insurance claims between 2015 and 2018, found only 36% of women with gestational diabetes received the recommended blood glucose testing in the first 12 weeks of the postpartum period.

In the Momi Pods program, Dr. Brill checked in on Ms. Rosen’s gestational diabetes regularly during pediatric office visits for her newborn’s care. Ms. Rosen said whenever she brought her baby in for a visit during the postpartum period, Dr. Brill measured her blood sugar. 

Dr. Brill and her team also asked how Ms. Rosen was doing physically and mentally during each visit. The screenings helped to catch a bout of postpartum depression Ms. Rosen experienced after the birth of her first son.

“I thought it was great, because honestly as a new mom I wouldn’t have followed up with myself so much,” Ms. Rosen said. “Every time you went into the doctor appointments, they’d ask you how you are doing. As a new mom, it’s so much easier to do it at the same time.”

Those who participate in the program are also more likely to complete postpartum visits with their ob.gyn. (95% vs. 58%, respectively; P < .001) than those who don’t participate, according to research Dr. Brill and colleagues published.

Dr. Brill began expanding the program’s reach nearly 2 years after its launch, targeting the services for women who are at risk for poor postpartum outcomes, including those with a history of depression, preterm labor, diabetes and congenital heart disease. Ob.gyns. in Ohio State’s network can refer their patients to the program, which now has 43 doctors trained to provide primary and pediatric care through Momi Pods. Soon-to-be moms can be referred to the program as early as the second trimester, Dr. Brill said.

Many of the mothers referred to the program don’t have a primary care clinician when they talk to Paola Beamon, RN, at Ohio State. Ms. Beamon reaches out to each referred patient over voicemail, a MyChart message, and even regular mail in hopes of helping them navigate the postpartum period. She also provides education on what a primary care clinician can offer new moms.

“Really, we’re pursuing these moms and doing everything we can so there’s less of a burden for them,” Ms. Beamon said. “A lot of them don’t even know what a primary care office does.”

One of the biggest perks to the program for new moms is that they don’t have to spend time and money traveling to a different doctor’s office, take time off work, or secure childcare in order to schedule a separate appointment for themselves, she said.

The program, which receives funding from the university and the state, even helps women get bus passes to a doctor’s appointment if needed.

Dyad programs targeting women with substance abuse disorders or mental health conditions have existed for many years. But catering to women with gestational diabetes or other medical conditions appears to be new. In part, Dr. Venkataramani said, because scheduling and space can be big hurdles to launch such a program, as well as finding doctors who can care for both baby and mother.

“There are logistical challenges to even doing this that makes it less common,” she said.

Dr. Brill said she is not aware of any other programs that are structured like the tandem care clinic at Ohio State. She hopes, however, that the program can be a model for other hospital systems to consider, and she is working to expand the program regionally. Her team is collecting data – including on the best way to schedule patients – to help other clinics develop something similar. 

“We really want to leverage that expertise to make it easier for moms to get care with their infants and remove barriers to care,” she said.

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

Giving corticosteroids to pregnant women at risk for preterm birth before 34 weeks of gestational age has been the standard of care since the 1990s, but a few scenarios for their use remain up for debate. Two studies presented this week at the 2023 meeting sponsored by the Society for Maternal–Fetal Medicine provided some fresh insight into the practice that could help clinicians better manage pregnant patients.

Neurodevelopmental outcomes in late preterm

First, should antenatal corticosteroids (ACS) be given to mothers who present with late preterm labor, defined as 34-36 weeks’ gestational age?

A landmark randomized clinical trial published in 2016 demonstrated that use of ACS in mothers in late preterm labor reduced severe respiratory complications. That practice has largely been adopted by clinicians. The only downside, according to the researchers, was that infants whose mothers received steroid therapy were more likely to develop hypoglycemia. The condition is self-limiting, but studies have raised concern about the potential long-term risk of neurocognitive or psychological outcomes in infants with hypoglycemia.

Cynthia Gyamfi-Bannerman, MD, MSc, endowed chair and professor of obstetrics, gynecology, and reproductive sciences at the University of California, San Diego, led the 2016 study. Her team was unable to secure funding for their originally planned follow-up study of the infants 2 years later. But once the American College of Obstetricians and Gynecologists endorsed the practice and more women received ACS in the late preterm period, Dr. Gyamfi-Bannerman and her colleagues felt the need to “follow up the infants just to see what the outcomes are from a neurodevelopmental standpoint,” she said.

Dr. Gyamfi-Bannerman and colleagues recruited children older than age 6 from the original trial whose parents were willing to have them participate in a follow-up study. A total of 949 from the initial 2,831 cohort completed cognitive testing and received assessments for cerebral palsy, social impairment within the autism spectrum, and behavioral and emotional problems.

At the SMFM conference, Dr. Gyamfi-Bannerman reported no differences in the primary outcome of cognitive function between those whose mothers had received a single course of betamethasone and those who did not, or any differences in rates of the other outcomes.

Kathy Zhang-Rutledge, MD, a maternal-fetal medicine specialist who practices with Obstetrix Maternal Fetal Medicine Group of Houston, part of Pediatrix Medical Group, said she was glad to see a study that addressed the potential long-term adverse events associated with ACS in the late preterm period.

“Having this pretty large study – with really good neurological testing results – should help reassure clinicians that this is something they should consider adopting in their practice,” Dr. Zhang-Rutledge said.
 

Are boosters better?

The second unresolved question was if a repeat course of ACS should be administered when a woman at risk for preterm birth receives a course of steroids but does not deliver in the following 7 days.

Any benefits to the initial course of ACS wear off after a week. As a result, clinicians often give booster courses 7 days after the first dose if the infant is likely to be delivered in the following week. A 2009 study showed this approach may protect infants from respiratory problems, but data on long-term outcomes have been weak.

ACOG guidelines say to “consider” a booster dose in women who are less than 34 weeks’ gestation at risk for preterm delivery within 7 days.

The exception is when the mother already has experienced preterm prelabor rupture of membranes (PPROM), because ACS may increase the risk for infection for both mother and child. ACOG doesn’t take a stand on use of booster doses for PPROM, citing a lack of data to show that potential benefits outweigh the potential risks of this approach.

A recent multicenter, double-blinded, randomized clinical trial attempted to fill that void in knowledge. Between 2016 and 2022, 194 women with PPROM and gestational age less than 32 weeks who had received an initial ACS course at least 7 days prior to randomization received a booster course of ACS or saline placebo.

“Our primary outcome was designed to be like the prior rescue study (in 2009) that we did with patients with intact membranes,” said Andrew Combs, MD, PhD, a maternal-fetal medicine specialist at Pediatrix Medical Group in Sunrise, Fla., who participated in the earlier study. “It was a composite of neonatal morbidity that was any one of a variety of outcomes including respiratory distress syndrome, intraventricular hemorrhage, necrotizing enterocolitis, and neonatal death.”

The primary outcome occurred in 64% of women who received booster ACS and 66% with placebo (odds ratio, 0.82; 95% confidence interval, 0.43-1.57), according to Dr. Combs, who presented the findings at SMFM.

Although the study was not powered to detect significant differences in specific outcomes, the rate of neonatal sepsis was not higher in the ACS group, suggesting that ACS may be safe if membranes have ruptured, the researchers reported. But because the booster course of ACS did not prevent respiratory morbidity, clinicians may wonder what to do with the findings.

Niraj Chavan, MD, an associate professor in the department of obstetrics, gynecology, and women’s health at Saint Louis University, said he was unsure how the study would affect clinical practice.

The relatively small sample number of patients prevented analysis of specific outcomes and subgroup analyses of important variables such as race, ethnicity, gestational age, and other comorbid conditions in the mothers, he said. So clinicians still must weigh potential risks and benefits on a case-by-case basis.

“You have to think about it in buckets,” he said, “One is conditions that would increase the risk for neonatal morbidity. The other is the risk for infection, both for the mom and the baby.”

But for Dr. Combs, the interpretation of the findings was simpler: “We concluded that there’s no indication to give a booster course of steroids after a week has elapsed in patients with ruptured membranes.”

The study presented by Dr. Gyamfi-Bannerman was funded by the National Institute of Child Health and Human Development. The study presented by Dr. Combs was funded by MEDNAX Center for Research, Education, and Quality, which in 2022 was renamed Pediatrix Center for Research, Education,and Quality. Dr. Combs is an employee of Pediatrix Medical Group but has no conflicts of interest. Dr. Gyamfi-Bannerman, Dr. Zhang-Rutledge, and Dr. Chavan report no relevant financial relationships.

Ann Thomas is a pediatrician and epidemiologist in Portland, Ore.

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

Giving corticosteroids to pregnant women at risk for preterm birth before 34 weeks of gestational age has been the standard of care since the 1990s, but a few scenarios for their use remain up for debate. Two studies presented this week at the 2023 meeting sponsored by the Society for Maternal–Fetal Medicine provided some fresh insight into the practice that could help clinicians better manage pregnant patients.

Neurodevelopmental outcomes in late preterm

First, should antenatal corticosteroids (ACS) be given to mothers who present with late preterm labor, defined as 34-36 weeks’ gestational age?

A landmark randomized clinical trial published in 2016 demonstrated that use of ACS in mothers in late preterm labor reduced severe respiratory complications. That practice has largely been adopted by clinicians. The only downside, according to the researchers, was that infants whose mothers received steroid therapy were more likely to develop hypoglycemia. The condition is self-limiting, but studies have raised concern about the potential long-term risk of neurocognitive or psychological outcomes in infants with hypoglycemia.

Cynthia Gyamfi-Bannerman, MD, MSc, endowed chair and professor of obstetrics, gynecology, and reproductive sciences at the University of California, San Diego, led the 2016 study. Her team was unable to secure funding for their originally planned follow-up study of the infants 2 years later. But once the American College of Obstetricians and Gynecologists endorsed the practice and more women received ACS in the late preterm period, Dr. Gyamfi-Bannerman and her colleagues felt the need to “follow up the infants just to see what the outcomes are from a neurodevelopmental standpoint,” she said.

Dr. Gyamfi-Bannerman and colleagues recruited children older than age 6 from the original trial whose parents were willing to have them participate in a follow-up study. A total of 949 from the initial 2,831 cohort completed cognitive testing and received assessments for cerebral palsy, social impairment within the autism spectrum, and behavioral and emotional problems.

At the SMFM conference, Dr. Gyamfi-Bannerman reported no differences in the primary outcome of cognitive function between those whose mothers had received a single course of betamethasone and those who did not, or any differences in rates of the other outcomes.

Kathy Zhang-Rutledge, MD, a maternal-fetal medicine specialist who practices with Obstetrix Maternal Fetal Medicine Group of Houston, part of Pediatrix Medical Group, said she was glad to see a study that addressed the potential long-term adverse events associated with ACS in the late preterm period.

“Having this pretty large study – with really good neurological testing results – should help reassure clinicians that this is something they should consider adopting in their practice,” Dr. Zhang-Rutledge said.
 

Are boosters better?

The second unresolved question was if a repeat course of ACS should be administered when a woman at risk for preterm birth receives a course of steroids but does not deliver in the following 7 days.

Any benefits to the initial course of ACS wear off after a week. As a result, clinicians often give booster courses 7 days after the first dose if the infant is likely to be delivered in the following week. A 2009 study showed this approach may protect infants from respiratory problems, but data on long-term outcomes have been weak.

ACOG guidelines say to “consider” a booster dose in women who are less than 34 weeks’ gestation at risk for preterm delivery within 7 days.

The exception is when the mother already has experienced preterm prelabor rupture of membranes (PPROM), because ACS may increase the risk for infection for both mother and child. ACOG doesn’t take a stand on use of booster doses for PPROM, citing a lack of data to show that potential benefits outweigh the potential risks of this approach.

A recent multicenter, double-blinded, randomized clinical trial attempted to fill that void in knowledge. Between 2016 and 2022, 194 women with PPROM and gestational age less than 32 weeks who had received an initial ACS course at least 7 days prior to randomization received a booster course of ACS or saline placebo.

“Our primary outcome was designed to be like the prior rescue study (in 2009) that we did with patients with intact membranes,” said Andrew Combs, MD, PhD, a maternal-fetal medicine specialist at Pediatrix Medical Group in Sunrise, Fla., who participated in the earlier study. “It was a composite of neonatal morbidity that was any one of a variety of outcomes including respiratory distress syndrome, intraventricular hemorrhage, necrotizing enterocolitis, and neonatal death.”

The primary outcome occurred in 64% of women who received booster ACS and 66% with placebo (odds ratio, 0.82; 95% confidence interval, 0.43-1.57), according to Dr. Combs, who presented the findings at SMFM.

Although the study was not powered to detect significant differences in specific outcomes, the rate of neonatal sepsis was not higher in the ACS group, suggesting that ACS may be safe if membranes have ruptured, the researchers reported. But because the booster course of ACS did not prevent respiratory morbidity, clinicians may wonder what to do with the findings.

Niraj Chavan, MD, an associate professor in the department of obstetrics, gynecology, and women’s health at Saint Louis University, said he was unsure how the study would affect clinical practice.

The relatively small sample number of patients prevented analysis of specific outcomes and subgroup analyses of important variables such as race, ethnicity, gestational age, and other comorbid conditions in the mothers, he said. So clinicians still must weigh potential risks and benefits on a case-by-case basis.

“You have to think about it in buckets,” he said, “One is conditions that would increase the risk for neonatal morbidity. The other is the risk for infection, both for the mom and the baby.”

But for Dr. Combs, the interpretation of the findings was simpler: “We concluded that there’s no indication to give a booster course of steroids after a week has elapsed in patients with ruptured membranes.”

The study presented by Dr. Gyamfi-Bannerman was funded by the National Institute of Child Health and Human Development. The study presented by Dr. Combs was funded by MEDNAX Center for Research, Education, and Quality, which in 2022 was renamed Pediatrix Center for Research, Education,and Quality. Dr. Combs is an employee of Pediatrix Medical Group but has no conflicts of interest. Dr. Gyamfi-Bannerman, Dr. Zhang-Rutledge, and Dr. Chavan report no relevant financial relationships.

Ann Thomas is a pediatrician and epidemiologist in Portland, Ore.

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

Giving corticosteroids to pregnant women at risk for preterm birth before 34 weeks of gestational age has been the standard of care since the 1990s, but a few scenarios for their use remain up for debate. Two studies presented this week at the 2023 meeting sponsored by the Society for Maternal–Fetal Medicine provided some fresh insight into the practice that could help clinicians better manage pregnant patients.

Neurodevelopmental outcomes in late preterm

First, should antenatal corticosteroids (ACS) be given to mothers who present with late preterm labor, defined as 34-36 weeks’ gestational age?

A landmark randomized clinical trial published in 2016 demonstrated that use of ACS in mothers in late preterm labor reduced severe respiratory complications. That practice has largely been adopted by clinicians. The only downside, according to the researchers, was that infants whose mothers received steroid therapy were more likely to develop hypoglycemia. The condition is self-limiting, but studies have raised concern about the potential long-term risk of neurocognitive or psychological outcomes in infants with hypoglycemia.

Cynthia Gyamfi-Bannerman, MD, MSc, endowed chair and professor of obstetrics, gynecology, and reproductive sciences at the University of California, San Diego, led the 2016 study. Her team was unable to secure funding for their originally planned follow-up study of the infants 2 years later. But once the American College of Obstetricians and Gynecologists endorsed the practice and more women received ACS in the late preterm period, Dr. Gyamfi-Bannerman and her colleagues felt the need to “follow up the infants just to see what the outcomes are from a neurodevelopmental standpoint,” she said.

Dr. Gyamfi-Bannerman and colleagues recruited children older than age 6 from the original trial whose parents were willing to have them participate in a follow-up study. A total of 949 from the initial 2,831 cohort completed cognitive testing and received assessments for cerebral palsy, social impairment within the autism spectrum, and behavioral and emotional problems.

At the SMFM conference, Dr. Gyamfi-Bannerman reported no differences in the primary outcome of cognitive function between those whose mothers had received a single course of betamethasone and those who did not, or any differences in rates of the other outcomes.

Kathy Zhang-Rutledge, MD, a maternal-fetal medicine specialist who practices with Obstetrix Maternal Fetal Medicine Group of Houston, part of Pediatrix Medical Group, said she was glad to see a study that addressed the potential long-term adverse events associated with ACS in the late preterm period.

“Having this pretty large study – with really good neurological testing results – should help reassure clinicians that this is something they should consider adopting in their practice,” Dr. Zhang-Rutledge said.
 

Are boosters better?

The second unresolved question was if a repeat course of ACS should be administered when a woman at risk for preterm birth receives a course of steroids but does not deliver in the following 7 days.

Any benefits to the initial course of ACS wear off after a week. As a result, clinicians often give booster courses 7 days after the first dose if the infant is likely to be delivered in the following week. A 2009 study showed this approach may protect infants from respiratory problems, but data on long-term outcomes have been weak.

ACOG guidelines say to “consider” a booster dose in women who are less than 34 weeks’ gestation at risk for preterm delivery within 7 days.

The exception is when the mother already has experienced preterm prelabor rupture of membranes (PPROM), because ACS may increase the risk for infection for both mother and child. ACOG doesn’t take a stand on use of booster doses for PPROM, citing a lack of data to show that potential benefits outweigh the potential risks of this approach.

A recent multicenter, double-blinded, randomized clinical trial attempted to fill that void in knowledge. Between 2016 and 2022, 194 women with PPROM and gestational age less than 32 weeks who had received an initial ACS course at least 7 days prior to randomization received a booster course of ACS or saline placebo.

“Our primary outcome was designed to be like the prior rescue study (in 2009) that we did with patients with intact membranes,” said Andrew Combs, MD, PhD, a maternal-fetal medicine specialist at Pediatrix Medical Group in Sunrise, Fla., who participated in the earlier study. “It was a composite of neonatal morbidity that was any one of a variety of outcomes including respiratory distress syndrome, intraventricular hemorrhage, necrotizing enterocolitis, and neonatal death.”

The primary outcome occurred in 64% of women who received booster ACS and 66% with placebo (odds ratio, 0.82; 95% confidence interval, 0.43-1.57), according to Dr. Combs, who presented the findings at SMFM.

Although the study was not powered to detect significant differences in specific outcomes, the rate of neonatal sepsis was not higher in the ACS group, suggesting that ACS may be safe if membranes have ruptured, the researchers reported. But because the booster course of ACS did not prevent respiratory morbidity, clinicians may wonder what to do with the findings.

Niraj Chavan, MD, an associate professor in the department of obstetrics, gynecology, and women’s health at Saint Louis University, said he was unsure how the study would affect clinical practice.

The relatively small sample number of patients prevented analysis of specific outcomes and subgroup analyses of important variables such as race, ethnicity, gestational age, and other comorbid conditions in the mothers, he said. So clinicians still must weigh potential risks and benefits on a case-by-case basis.

“You have to think about it in buckets,” he said, “One is conditions that would increase the risk for neonatal morbidity. The other is the risk for infection, both for the mom and the baby.”

But for Dr. Combs, the interpretation of the findings was simpler: “We concluded that there’s no indication to give a booster course of steroids after a week has elapsed in patients with ruptured membranes.”

The study presented by Dr. Gyamfi-Bannerman was funded by the National Institute of Child Health and Human Development. The study presented by Dr. Combs was funded by MEDNAX Center for Research, Education, and Quality, which in 2022 was renamed Pediatrix Center for Research, Education,and Quality. Dr. Combs is an employee of Pediatrix Medical Group but has no conflicts of interest. Dr. Gyamfi-Bannerman, Dr. Zhang-Rutledge, and Dr. Chavan report no relevant financial relationships.

Ann Thomas is a pediatrician and epidemiologist in Portland, Ore.

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

Infants born to women infected with the hepatitis C virus (HCV) faced twice the risk of stays in the neonatal ICU (NICU) and 2.7 times the risk of low birth weight, a new analysis finds, even when researchers adjusted their data to control for injectable drug use and maternal medical comorbidity.

Clinicians should be “aware that the infants of pregnant people with HCV may have a high rate of need for higher-level pediatric care,” said Brenna L. Hughes, MD, MSc, chief of maternal fetal medicine at Duke University Medical Center, Durham, N.C. She spoke in an interview about the findings, which were presented at the meeting sponsored by the Society for Maternal-Fetal Medicine.

As Dr. Hughes noted, “HCV remains a serious problem in pregnancy because it often goes undiagnosed and/or untreated prior to pregnancy. It can be passed to infants, and this can cause significant health-related outcomes for children as they age.”

For the multicenter U.S. study, researchers identified 249 pregnant mothers with HCV from a 2012-2018 cohort and matched them by gestational age to controls (n = 486). The average age was 28; 71.1% of the cases were non-Hispanic White versus 41.6% of the controls; 8.4% of cases were non-Hispanic Black versus 32.1% of controls (P < .001 for race/ethnicity analysis); and 73% of cases were smokers versus 18% of controls (P < .001). More than 19% of cases reported injectable drug use during pregnancy versus 0.2% of controls (P < .001).

The researchers adjusted their findings for maternal age, body mass index, injectable drug use, and maternal comorbidity.

An earlier analysis of the study data found that 6% of pregnant women with HCV passed it on to their infants, especially those with high levels of virus in their systems. For the new study, researchers focused on various outcomes to test the assumption that “adverse pregnancy outcomes associated with HCV are related to prematurity or to ongoing use of injection drugs,” Dr. Hughes said.

There was no increase in rates of preterm birth or adverse maternal outcomes in the HCV cases. However, infants born to women with HCV were more likely than the controls to require a stay in the NICU (45% vs. 19%; adjusted relative risk, 1.99; 95% confidence interval, 1.54-2.58). They were also more likely to have lower birth weights (small for gestational age < 5th percentile) (10.6% vs. 3.1%; ARR, 2.72; 95% CI, 1.38-5.34).

No difference in outcomes was seen when HCV cases with viremia (33%) were excluded.

“The most surprising finding was that the need for higher-level pediatric care was so high even though there wasn’t an increased risk of prematurity,” Dr. Hughes said.

She added it’s not clear why NICU stays and low birth weights were more common in infants of women with HCV. “It is possible that the higher risk of need for higher-level pediatric care was related to a need for observation or treatment due to use of opioid replacement therapies with opioid agonists.” As for lower birth weight, “there may be other unmeasured risk factors.”

Tatyana Kushner, MD, MSCE, of the division of liver diseases at Icahn School of Medicine at Mount Sinai, New York, said in an interview that the study adds to limited data about HCV in pregnancy. “These findings have been demonstrated in prior studies, and it would be important to tease apart whether [low birth weight] is related to the virus itself or more related to other confounding associated factors such as maternal substance use as well as other associated social determinants of health among women with HCV.”

As for the study’s message, Dr. Kushner said it makes it clear that “hepatitis C adversely impacts outcomes of pregnancy and it is important to identify women of childbearing age for treatment early, ideally prior to pregnancy, in order to improve their pregnancy outcomes. In addition, treatment of hepatitis C during pregnancy should be explored further to determine if treatment during pregnancy can improve outcomes.”

At the moment, she said, “there are ongoing studies to delineate the safety and efficacy of hepatitis C treatment during pregnancy. Given that we are screening for hepatitis C during pregnancy, we need clear recommendations on the use of direct-acting antivirals in people who screen positive.”

The study was funded by the National Institute of Child Health and Human Development. The authors have no disclosures. Dr. Kushner disclosed research support (Gilead) and advisory board service (Gilead, AbbVie, Bausch, GlaxoSmithKline, and Eiger).

Infants born to women infected with the hepatitis C virus (HCV) faced twice the risk of stays in the neonatal ICU (NICU) and 2.7 times the risk of low birth weight, a new analysis finds, even when researchers adjusted their data to control for injectable drug use and maternal medical comorbidity.

Clinicians should be “aware that the infants of pregnant people with HCV may have a high rate of need for higher-level pediatric care,” said Brenna L. Hughes, MD, MSc, chief of maternal fetal medicine at Duke University Medical Center, Durham, N.C. She spoke in an interview about the findings, which were presented at the meeting sponsored by the Society for Maternal-Fetal Medicine.

As Dr. Hughes noted, “HCV remains a serious problem in pregnancy because it often goes undiagnosed and/or untreated prior to pregnancy. It can be passed to infants, and this can cause significant health-related outcomes for children as they age.”

For the multicenter U.S. study, researchers identified 249 pregnant mothers with HCV from a 2012-2018 cohort and matched them by gestational age to controls (n = 486). The average age was 28; 71.1% of the cases were non-Hispanic White versus 41.6% of the controls; 8.4% of cases were non-Hispanic Black versus 32.1% of controls (P < .001 for race/ethnicity analysis); and 73% of cases were smokers versus 18% of controls (P < .001). More than 19% of cases reported injectable drug use during pregnancy versus 0.2% of controls (P < .001).

The researchers adjusted their findings for maternal age, body mass index, injectable drug use, and maternal comorbidity.

An earlier analysis of the study data found that 6% of pregnant women with HCV passed it on to their infants, especially those with high levels of virus in their systems. For the new study, researchers focused on various outcomes to test the assumption that “adverse pregnancy outcomes associated with HCV are related to prematurity or to ongoing use of injection drugs,” Dr. Hughes said.

There was no increase in rates of preterm birth or adverse maternal outcomes in the HCV cases. However, infants born to women with HCV were more likely than the controls to require a stay in the NICU (45% vs. 19%; adjusted relative risk, 1.99; 95% confidence interval, 1.54-2.58). They were also more likely to have lower birth weights (small for gestational age < 5th percentile) (10.6% vs. 3.1%; ARR, 2.72; 95% CI, 1.38-5.34).

No difference in outcomes was seen when HCV cases with viremia (33%) were excluded.

“The most surprising finding was that the need for higher-level pediatric care was so high even though there wasn’t an increased risk of prematurity,” Dr. Hughes said.

She added it’s not clear why NICU stays and low birth weights were more common in infants of women with HCV. “It is possible that the higher risk of need for higher-level pediatric care was related to a need for observation or treatment due to use of opioid replacement therapies with opioid agonists.” As for lower birth weight, “there may be other unmeasured risk factors.”

Tatyana Kushner, MD, MSCE, of the division of liver diseases at Icahn School of Medicine at Mount Sinai, New York, said in an interview that the study adds to limited data about HCV in pregnancy. “These findings have been demonstrated in prior studies, and it would be important to tease apart whether [low birth weight] is related to the virus itself or more related to other confounding associated factors such as maternal substance use as well as other associated social determinants of health among women with HCV.”

As for the study’s message, Dr. Kushner said it makes it clear that “hepatitis C adversely impacts outcomes of pregnancy and it is important to identify women of childbearing age for treatment early, ideally prior to pregnancy, in order to improve their pregnancy outcomes. In addition, treatment of hepatitis C during pregnancy should be explored further to determine if treatment during pregnancy can improve outcomes.”

At the moment, she said, “there are ongoing studies to delineate the safety and efficacy of hepatitis C treatment during pregnancy. Given that we are screening for hepatitis C during pregnancy, we need clear recommendations on the use of direct-acting antivirals in people who screen positive.”

The study was funded by the National Institute of Child Health and Human Development. The authors have no disclosures. Dr. Kushner disclosed research support (Gilead) and advisory board service (Gilead, AbbVie, Bausch, GlaxoSmithKline, and Eiger).

Infants born to women infected with the hepatitis C virus (HCV) faced twice the risk of stays in the neonatal ICU (NICU) and 2.7 times the risk of low birth weight, a new analysis finds, even when researchers adjusted their data to control for injectable drug use and maternal medical comorbidity.

Clinicians should be “aware that the infants of pregnant people with HCV may have a high rate of need for higher-level pediatric care,” said Brenna L. Hughes, MD, MSc, chief of maternal fetal medicine at Duke University Medical Center, Durham, N.C. She spoke in an interview about the findings, which were presented at the meeting sponsored by the Society for Maternal-Fetal Medicine.

As Dr. Hughes noted, “HCV remains a serious problem in pregnancy because it often goes undiagnosed and/or untreated prior to pregnancy. It can be passed to infants, and this can cause significant health-related outcomes for children as they age.”

For the multicenter U.S. study, researchers identified 249 pregnant mothers with HCV from a 2012-2018 cohort and matched them by gestational age to controls (n = 486). The average age was 28; 71.1% of the cases were non-Hispanic White versus 41.6% of the controls; 8.4% of cases were non-Hispanic Black versus 32.1% of controls (P < .001 for race/ethnicity analysis); and 73% of cases were smokers versus 18% of controls (P < .001). More than 19% of cases reported injectable drug use during pregnancy versus 0.2% of controls (P < .001).

The researchers adjusted their findings for maternal age, body mass index, injectable drug use, and maternal comorbidity.

An earlier analysis of the study data found that 6% of pregnant women with HCV passed it on to their infants, especially those with high levels of virus in their systems. For the new study, researchers focused on various outcomes to test the assumption that “adverse pregnancy outcomes associated with HCV are related to prematurity or to ongoing use of injection drugs,” Dr. Hughes said.

There was no increase in rates of preterm birth or adverse maternal outcomes in the HCV cases. However, infants born to women with HCV were more likely than the controls to require a stay in the NICU (45% vs. 19%; adjusted relative risk, 1.99; 95% confidence interval, 1.54-2.58). They were also more likely to have lower birth weights (small for gestational age < 5th percentile) (10.6% vs. 3.1%; ARR, 2.72; 95% CI, 1.38-5.34).

No difference in outcomes was seen when HCV cases with viremia (33%) were excluded.

“The most surprising finding was that the need for higher-level pediatric care was so high even though there wasn’t an increased risk of prematurity,” Dr. Hughes said.

She added it’s not clear why NICU stays and low birth weights were more common in infants of women with HCV. “It is possible that the higher risk of need for higher-level pediatric care was related to a need for observation or treatment due to use of opioid replacement therapies with opioid agonists.” As for lower birth weight, “there may be other unmeasured risk factors.”

Tatyana Kushner, MD, MSCE, of the division of liver diseases at Icahn School of Medicine at Mount Sinai, New York, said in an interview that the study adds to limited data about HCV in pregnancy. “These findings have been demonstrated in prior studies, and it would be important to tease apart whether [low birth weight] is related to the virus itself or more related to other confounding associated factors such as maternal substance use as well as other associated social determinants of health among women with HCV.”

As for the study’s message, Dr. Kushner said it makes it clear that “hepatitis C adversely impacts outcomes of pregnancy and it is important to identify women of childbearing age for treatment early, ideally prior to pregnancy, in order to improve their pregnancy outcomes. In addition, treatment of hepatitis C during pregnancy should be explored further to determine if treatment during pregnancy can improve outcomes.”

At the moment, she said, “there are ongoing studies to delineate the safety and efficacy of hepatitis C treatment during pregnancy. Given that we are screening for hepatitis C during pregnancy, we need clear recommendations on the use of direct-acting antivirals in people who screen positive.”

The study was funded by the National Institute of Child Health and Human Development. The authors have no disclosures. Dr. Kushner disclosed research support (Gilead) and advisory board service (Gilead, AbbVie, Bausch, GlaxoSmithKline, and Eiger).

For years, women’s health advocates have argued that far more research is needed on women’s bodies and health. The world’s first-ever “vagina on a chip,” recently developed at Harvard’s Wyss Institute for Biologically Inspired Engineering in Boston, could go a long way to making that happen. 

“Women’s health has not received the attention it deserves,” says Don Ingber, MD, PhD, who led the team that created the vagina chip. The advance quickly drew media attention after it was reported in the journal Microbiome. But researchers hope for more than headlines. They see the chip as a way to facilitate vaginal health research and open the door to vital new treatments. 

By now, you may have heard of “organs on chips”: tiny devices about the size of a flash drive that are designed to mimic the biological activity of human organs. These glass chips contain living human cells within grooves that allow the passage of fluid, to either maintain or disrupt the cells’ function. So far, Dr. Ingber and his team at the Wyss Institute have developed more than 15 organ chip models, including chips that mimic the lung, intestine, kidney, and bone marrow. 

The idea to develop a vagina chip grew out of research, funded by the Gates Foundation, on a childhood disease called environmental enteric dysfunction, an intestinal disease most commonly found in low-resource nations that is the second leading cause of death in children under 5. That’s when Dr. Ingber discovered just how much the child’s microbiome influences this disease. 

Stemming from that work, the Gates Foundation turned its attention to newborn health – in particular, the impact of bacterial vaginosis, an imbalance in the vagina’s bacterial makeup. Bacterial vaginosis occurs in one out of four women worldwide and has been linked to premature birth as well as HIV, HPV persistence, and cervical cancer. 

Upon establishing the Vaginal Microbiome Research Consortium,  the foundation asked Dr. Ingber to engineer an organ chip that mimicked the vagina’s microbiome. The goal was to test “live biotherapeutic products,” or living microbes like probiotics, that might restore the vagina’s microbiome to health.  

No other preclinical model exists to perform tests like that, says Dr. Ingber. 

“The vagina chip is a way to help make some advances,” he says. 

The Gates Foundation recognized that women’s reproductive health is a major issue, not only in low-income nations, but everywhere around the world. As the project evolved, Dr. Ingber began to hear from female colleagues about how neglected women’s reproductive health is in medical science. 

“It is something I became sensitive to and realized this is just the starting point,” Dr. Ingber says.

Take bacterial vaginosis, for example. Since 1982, treatment has revolved around the same two antibiotics. That’s partly because there is no animal model to study. No other species has the same vaginal bacterial community as humans do.

That makes developing any new therapy “incredibly challenging,” explains Caroline Mitchell, MD, MPH, an ob.gyn. at Massachusetts General Hospital, Boston, and a member of the consortium. 

It turns out, replicating the vagina in a lab dish is, to use the technical term, very hard. 

“That’s where a vagina chip offers an opportunity,” Dr. Mitchell says. “It’s not super-high throughput, but it’s way more high throughput than a [human] clinical trial.” 

As such, the vagina chip could help scientists find new treatments much faster. 

Like Dr. Ingber, Dr. Mitchell also sees the chip as a way to bring more attention to the largely unmet needs in female reproductive medicine.

“Women’s reproductive health has been under-resourced, under-prioritized, and largely disregarded for decades,” she says. And the time may be ripe for change: Dr. Mitchell says she was encouraged by the National Institutes of Health’s Advancing NIH Research on the Health of Women conference, held in 2021 in response to a congressional request to address women’s health research efforts.  

Beyond bacterial vaginosis, Dr. Mitchell imagines the chip could help scientists find new treatments for vaginal yeast infection (candidiasis), chlamydia, and endometriosis. As with bacterial vaginosis, medicines for vaginal yeast infections have not advanced in decades, Dr. Mitchell says.  Efforts to develop a vaccine for chlamydia – which can cause permanent damage to a woman’s reproductive system – have dragged on for many years. And endometriosis, an often painful condition in which the tissue that makes up the uterine lining grows outside the uterus, remains under-researched despite affecting 10% of childbearing-age women.

While some mouse models are used in chlamydia research, it’s hard to say if they’ll translate to humans, given the vaginal and cervical bacterial differences. 

“Our understanding of the basic physiology of the environment of the vagina and cervix is another area where we’re woefully ignorant,” Dr. Mitchell says.

To that end, Dr. Ingber’s team is developing more complex chips mimicking the vagina and the cervix. One of his team members wants to use the chips to study infertility. The researchers have already used the chips to see how bacterial vaginosis and mucous changes impact the way sperm migrates up the reproductive tract. 

The lab is now linking vagina and cervix chips together to study viral infections of the cervix, like HPV, and all types of bacterial diseases of the vaginal tract. By applying cervical mucus to the vagina chip, they hope to learn more about how female reproductive tissues respond to infection and inflammation.

“I always say that organ chips are like synthetic biology at the cell tissue and organ level,” says Dr. Ingber. “You start simple and see if you [can] mimic a clinical situation.” 

As they make the chips more complex – perhaps by adding blood vessel cells and female hormones – Dr. Ingber foresees being able to study the response to hormonal changes during the menstrual cycle.

“We can begin to explore the effects of cycling over time as well as other types of hormonal effects,” he says.

Dr. Ingber also envisions linking the vagina chip to other organ chips – he’s already succeeded in linking eight different organ types together. But for now, the team hopes the vagina chip will enhance our understanding of basic female reproductive biology and speed up the process of developing new treatments for women’s health. 

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

For years, women’s health advocates have argued that far more research is needed on women’s bodies and health. The world’s first-ever “vagina on a chip,” recently developed at Harvard’s Wyss Institute for Biologically Inspired Engineering in Boston, could go a long way to making that happen. 

“Women’s health has not received the attention it deserves,” says Don Ingber, MD, PhD, who led the team that created the vagina chip. The advance quickly drew media attention after it was reported in the journal Microbiome. But researchers hope for more than headlines. They see the chip as a way to facilitate vaginal health research and open the door to vital new treatments. 

By now, you may have heard of “organs on chips”: tiny devices about the size of a flash drive that are designed to mimic the biological activity of human organs. These glass chips contain living human cells within grooves that allow the passage of fluid, to either maintain or disrupt the cells’ function. So far, Dr. Ingber and his team at the Wyss Institute have developed more than 15 organ chip models, including chips that mimic the lung, intestine, kidney, and bone marrow. 

The idea to develop a vagina chip grew out of research, funded by the Gates Foundation, on a childhood disease called environmental enteric dysfunction, an intestinal disease most commonly found in low-resource nations that is the second leading cause of death in children under 5. That’s when Dr. Ingber discovered just how much the child’s microbiome influences this disease. 

Stemming from that work, the Gates Foundation turned its attention to newborn health – in particular, the impact of bacterial vaginosis, an imbalance in the vagina’s bacterial makeup. Bacterial vaginosis occurs in one out of four women worldwide and has been linked to premature birth as well as HIV, HPV persistence, and cervical cancer. 

Upon establishing the Vaginal Microbiome Research Consortium,  the foundation asked Dr. Ingber to engineer an organ chip that mimicked the vagina’s microbiome. The goal was to test “live biotherapeutic products,” or living microbes like probiotics, that might restore the vagina’s microbiome to health.  

No other preclinical model exists to perform tests like that, says Dr. Ingber. 

“The vagina chip is a way to help make some advances,” he says. 

The Gates Foundation recognized that women’s reproductive health is a major issue, not only in low-income nations, but everywhere around the world. As the project evolved, Dr. Ingber began to hear from female colleagues about how neglected women’s reproductive health is in medical science. 

“It is something I became sensitive to and realized this is just the starting point,” Dr. Ingber says.

Take bacterial vaginosis, for example. Since 1982, treatment has revolved around the same two antibiotics. That’s partly because there is no animal model to study. No other species has the same vaginal bacterial community as humans do.

That makes developing any new therapy “incredibly challenging,” explains Caroline Mitchell, MD, MPH, an ob.gyn. at Massachusetts General Hospital, Boston, and a member of the consortium. 

It turns out, replicating the vagina in a lab dish is, to use the technical term, very hard. 

“That’s where a vagina chip offers an opportunity,” Dr. Mitchell says. “It’s not super-high throughput, but it’s way more high throughput than a [human] clinical trial.” 

As such, the vagina chip could help scientists find new treatments much faster. 

Like Dr. Ingber, Dr. Mitchell also sees the chip as a way to bring more attention to the largely unmet needs in female reproductive medicine.

“Women’s reproductive health has been under-resourced, under-prioritized, and largely disregarded for decades,” she says. And the time may be ripe for change: Dr. Mitchell says she was encouraged by the National Institutes of Health’s Advancing NIH Research on the Health of Women conference, held in 2021 in response to a congressional request to address women’s health research efforts.  

Beyond bacterial vaginosis, Dr. Mitchell imagines the chip could help scientists find new treatments for vaginal yeast infection (candidiasis), chlamydia, and endometriosis. As with bacterial vaginosis, medicines for vaginal yeast infections have not advanced in decades, Dr. Mitchell says.  Efforts to develop a vaccine for chlamydia – which can cause permanent damage to a woman’s reproductive system – have dragged on for many years. And endometriosis, an often painful condition in which the tissue that makes up the uterine lining grows outside the uterus, remains under-researched despite affecting 10% of childbearing-age women.

While some mouse models are used in chlamydia research, it’s hard to say if they’ll translate to humans, given the vaginal and cervical bacterial differences. 

“Our understanding of the basic physiology of the environment of the vagina and cervix is another area where we’re woefully ignorant,” Dr. Mitchell says.

To that end, Dr. Ingber’s team is developing more complex chips mimicking the vagina and the cervix. One of his team members wants to use the chips to study infertility. The researchers have already used the chips to see how bacterial vaginosis and mucous changes impact the way sperm migrates up the reproductive tract. 

The lab is now linking vagina and cervix chips together to study viral infections of the cervix, like HPV, and all types of bacterial diseases of the vaginal tract. By applying cervical mucus to the vagina chip, they hope to learn more about how female reproductive tissues respond to infection and inflammation.

“I always say that organ chips are like synthetic biology at the cell tissue and organ level,” says Dr. Ingber. “You start simple and see if you [can] mimic a clinical situation.” 

As they make the chips more complex – perhaps by adding blood vessel cells and female hormones – Dr. Ingber foresees being able to study the response to hormonal changes during the menstrual cycle.

“We can begin to explore the effects of cycling over time as well as other types of hormonal effects,” he says.

Dr. Ingber also envisions linking the vagina chip to other organ chips – he’s already succeeded in linking eight different organ types together. But for now, the team hopes the vagina chip will enhance our understanding of basic female reproductive biology and speed up the process of developing new treatments for women’s health. 

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

For years, women’s health advocates have argued that far more research is needed on women’s bodies and health. The world’s first-ever “vagina on a chip,” recently developed at Harvard’s Wyss Institute for Biologically Inspired Engineering in Boston, could go a long way to making that happen. 

“Women’s health has not received the attention it deserves,” says Don Ingber, MD, PhD, who led the team that created the vagina chip. The advance quickly drew media attention after it was reported in the journal Microbiome. But researchers hope for more than headlines. They see the chip as a way to facilitate vaginal health research and open the door to vital new treatments. 

By now, you may have heard of “organs on chips”: tiny devices about the size of a flash drive that are designed to mimic the biological activity of human organs. These glass chips contain living human cells within grooves that allow the passage of fluid, to either maintain or disrupt the cells’ function. So far, Dr. Ingber and his team at the Wyss Institute have developed more than 15 organ chip models, including chips that mimic the lung, intestine, kidney, and bone marrow. 

The idea to develop a vagina chip grew out of research, funded by the Gates Foundation, on a childhood disease called environmental enteric dysfunction, an intestinal disease most commonly found in low-resource nations that is the second leading cause of death in children under 5. That’s when Dr. Ingber discovered just how much the child’s microbiome influences this disease. 

Stemming from that work, the Gates Foundation turned its attention to newborn health – in particular, the impact of bacterial vaginosis, an imbalance in the vagina’s bacterial makeup. Bacterial vaginosis occurs in one out of four women worldwide and has been linked to premature birth as well as HIV, HPV persistence, and cervical cancer. 

Upon establishing the Vaginal Microbiome Research Consortium,  the foundation asked Dr. Ingber to engineer an organ chip that mimicked the vagina’s microbiome. The goal was to test “live biotherapeutic products,” or living microbes like probiotics, that might restore the vagina’s microbiome to health.  

No other preclinical model exists to perform tests like that, says Dr. Ingber. 

“The vagina chip is a way to help make some advances,” he says. 

The Gates Foundation recognized that women’s reproductive health is a major issue, not only in low-income nations, but everywhere around the world. As the project evolved, Dr. Ingber began to hear from female colleagues about how neglected women’s reproductive health is in medical science. 

“It is something I became sensitive to and realized this is just the starting point,” Dr. Ingber says.

Take bacterial vaginosis, for example. Since 1982, treatment has revolved around the same two antibiotics. That’s partly because there is no animal model to study. No other species has the same vaginal bacterial community as humans do.

That makes developing any new therapy “incredibly challenging,” explains Caroline Mitchell, MD, MPH, an ob.gyn. at Massachusetts General Hospital, Boston, and a member of the consortium. 

It turns out, replicating the vagina in a lab dish is, to use the technical term, very hard. 

“That’s where a vagina chip offers an opportunity,” Dr. Mitchell says. “It’s not super-high throughput, but it’s way more high throughput than a [human] clinical trial.” 

As such, the vagina chip could help scientists find new treatments much faster. 

Like Dr. Ingber, Dr. Mitchell also sees the chip as a way to bring more attention to the largely unmet needs in female reproductive medicine.

“Women’s reproductive health has been under-resourced, under-prioritized, and largely disregarded for decades,” she says. And the time may be ripe for change: Dr. Mitchell says she was encouraged by the National Institutes of Health’s Advancing NIH Research on the Health of Women conference, held in 2021 in response to a congressional request to address women’s health research efforts.  

Beyond bacterial vaginosis, Dr. Mitchell imagines the chip could help scientists find new treatments for vaginal yeast infection (candidiasis), chlamydia, and endometriosis. As with bacterial vaginosis, medicines for vaginal yeast infections have not advanced in decades, Dr. Mitchell says.  Efforts to develop a vaccine for chlamydia – which can cause permanent damage to a woman’s reproductive system – have dragged on for many years. And endometriosis, an often painful condition in which the tissue that makes up the uterine lining grows outside the uterus, remains under-researched despite affecting 10% of childbearing-age women.

While some mouse models are used in chlamydia research, it’s hard to say if they’ll translate to humans, given the vaginal and cervical bacterial differences. 

“Our understanding of the basic physiology of the environment of the vagina and cervix is another area where we’re woefully ignorant,” Dr. Mitchell says.

To that end, Dr. Ingber’s team is developing more complex chips mimicking the vagina and the cervix. One of his team members wants to use the chips to study infertility. The researchers have already used the chips to see how bacterial vaginosis and mucous changes impact the way sperm migrates up the reproductive tract. 

The lab is now linking vagina and cervix chips together to study viral infections of the cervix, like HPV, and all types of bacterial diseases of the vaginal tract. By applying cervical mucus to the vagina chip, they hope to learn more about how female reproductive tissues respond to infection and inflammation.

“I always say that organ chips are like synthetic biology at the cell tissue and organ level,” says Dr. Ingber. “You start simple and see if you [can] mimic a clinical situation.” 

As they make the chips more complex – perhaps by adding blood vessel cells and female hormones – Dr. Ingber foresees being able to study the response to hormonal changes during the menstrual cycle.

“We can begin to explore the effects of cycling over time as well as other types of hormonal effects,” he says.

Dr. Ingber also envisions linking the vagina chip to other organ chips – he’s already succeeded in linking eight different organ types together. But for now, the team hopes the vagina chip will enhance our understanding of basic female reproductive biology and speed up the process of developing new treatments for women’s health. 

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

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

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

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

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

When I was a child, I watched syndicated episodes of the original “Star Trek.” I was dazzled by the space travel, sure, but also the medical technology.

A handheld “tricorder” detected diseases, while an intramuscular injector (“hypospray”) could treat them. Sickbay “biobeds” came with real-time health monitors that looked futuristic at the time but seem primitive today.

Such visions inspired a lot of us kids to pursue science. Little did we know the real-life advances many of us would see in our lifetimes.

Artificial intelligence helping to spot disease, robots performing surgery, even video calls between doctor and patient – all these once sounded fantastical but now happen in clinical care.

Now, in the 23rd year of the 21st century, you might not believe wht we’ll be capable of next. Three especially wild examples are moving closer to clinical reality. 
 

Human hibernation

Captain America, Han Solo, and “Star Trek” villain Khan – all were preserved at low temperatures and then revived, waking up alive and well months, decades, or centuries later. These are fictional examples, to be sure, but the science they’re rooted in is real.

Rare cases of accidental hypothermia prove that full recovery is possible even after the heart stops beating. The drop in body temperature slows metabolism and reduces the need for oxygen, stalling brain damage for an hour or more. (In one extreme case, a climber survived after almost 9 hours of efforts to revive him.)

Useful for a space traveler? Maybe not. But it’s potentially huge for someone with life-threatening injuries from a car accident or a gunshot wound.

That’s the thinking behind a breakthrough procedure that came after decades of research on pigs and dogs, now in a clinical trial. The idea: A person with massive blood loss whose heart has stopped is injected with an ice-cold fluid, cooling them from the inside, down to about 50° F.

Doctors already induce more modest hypothermia to protect the brain and other organs after cardiac arrest and during surgery on the aortic arch (the main artery carrying blood from the heart).

But this experimental procedure – called emergency preservation and resuscitation (EPR) – goes far beyond that, dramatically “decreasing the body’s need for oxygen and blood flow,” says Samuel Tisherman, MD, a trauma surgeon at the University of Maryland Medical Center and the trial’s lead researcher. This puts the patient in a state of suspended animation that “could buy time for surgeons to stop the bleeding and save more of these patients.”

The technique has been done on at least six patients, though none were reported to survive. The trial is expected to include 20 people by the time it wraps up in December, according to the listing on the U.S. clinical trials database. Though given the strict requirements for candidates (emergency trauma victims who are not likely to survive), one can’t exactly rely on a set schedule.

Still, the technology is promising. Someday we may even use it to keep patients in suspended animation for months or years, experts predict, helping astronauts through decades-long spaceflights, or stalling death in sick patients awaiting a cure.
 

Artificial womb

Another sci-fi classic: growing human babies outside the womb. Think the fetus fields from “The Matrix,” or the frozen embryos in “Alien: Covenant.”

In 1923, British biologist J.B.S. Haldane coined a term for that – ectogenesis. He predicted that 70% of pregnancies would take place, from fertilization to birth, in artificial wombs by 2074. That many seems unlikely, but the timeline is on track.

Developing an embryo outside the womb is already routine in in vitro fertilization. And technology enables preterm babies to survive through much of the second half of gestation. Normal human pregnancy is 40 weeks, and the youngest preterm baby ever to survive was 21 weeks and 1 day old, just a few days younger than a smattering of others who lived.

The biggest obstacle for babies younger than that is lung viability. Mechanical ventilation can damage the lungs and lead to a chronic (sometimes fatal) lung disease known as bronchopulmonary dysplasia. Avoiding this would mean figuring out a way to maintain fetal circulation – the intricate system that delivers oxygenated blood from the placenta to the fetus via the umbilical cord. Researchers at Children’s Hospital of Philadelphia have done this using a fetal lamb.

The key to their invention is a substitute placenta: an oxygenator connected to the lamb’s umbilical cord. Tubes inserted through the umbilical vein and arteries carry oxygenated blood from the “placenta” to the fetus, and deoxygenated blood back out. The lamb resides in an artificial, fluid-filled amniotic sac until its lungs and other organs are developed.

Fertility treatment could benefit, too. “An artificial womb may substitute in situations in which a gestational carrier – surrogate – is indicated,” says Paula Amato, MD, a professor of obstetrics and gynecology at Oregon Health and Science University, Portland. (Dr. Amato is not involved in the CHOP research.) For example: when the mother is missing a uterus or can’t carry a pregnancy safely.

No date is set for clinical trials yet. But according to the research, the main difference between human and lamb may come down to size. A lamb’s umbilical vessels are larger, so feeding in a tube is easier. With today’s advances in miniaturizing surgical methods, that seems like a challenge scientists can overcome.
 

Messenger RNA therapeutics

Back to “Star Trek.” The hypospray injector’s contents could cure just about any disease, even one newly discovered on a strange planet. That’s not unlike messenger RNA (mRNA) technology, a breakthrough that enabled scientists to quickly develop some of the first COVID-19 vaccines.

But vaccines are just the beginning of what this technology can do.

A whole field of immunotherapy is emerging that uses mRNA to deliver instructions to produce chimeric antigen receptor–modified immune cells (CAR-modified immune cells). These cells are engineered to target diseased cells and tissues, like cancer cells and harmful fibroblasts (scar tissue) that promote fibrosis in, for example, the heart and lungs.

The field is bursting with rodent research, and clinical trials have started for treating some advanced-stage malignancies.

Actual clinical use may be years away, but if all goes well, these medicines could help treat or even cure the core medical problems facing humanity. We’re talking cancer, heart disease, neurodegenerative disease – transforming one therapy into another by simply changing the mRNA’s “nucleotide sequence,” the blueprint containing instructions telling it what to do, and what disease to attack.

As this technology matures, we may start to feel as if we’re really on “Star Trek,” where Dr. Leonard “Bones” McCoy pulls out the same device to treat just about every disease or injury.

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

Maternal vaccination with two doses of the mRNA COVID-19 vaccine was 95% effective against infant infection from the delta variant, and 45% effective against infant infection from the omicron variant, a new study shows.

Previous research has confirmed that COVID-19 neutralizing antibodies following maternal vaccination or maternal COVID-19 infection are present in umbilical cord blood, breast milk, and infant serum specimens, wrote Sarah C.J. Jorgensen, PharmD, MPH, of the University of Toronto, and colleagues in their article published in The BMJ.

In the study, the researchers identified maternal and newborn pairs using administrative databases from Canada. The study population included 8,809 infants aged younger than 6 months who were born between May 7, 2021, and March 31, 2022, and who underwent testing for COVID-19 between May 7, 2021, and September 5, 2022.

Maternal vaccination with the primary COVID-19 mRNA monovalent vaccine series was defined as two vaccine doses administered up to 14 days before delivery, with at least one of the doses after the conception date.

Maternal vaccination with the primary series plus one booster was defined as three doses administered up to 14 days before delivery, with at least one of these doses after the conception date.

The primary outcome was the presence of delta or omicron COVID-19 infection or hospital admission of the infants.

The study population included 99 COVID-19 cases with the delta variant (with 4,365 controls) and 1,501 cases with the omicron variant (with 4,847 controls).

Overall, the vaccine effectiveness of maternal doses was 95% against delta infection and 45% against omicron.

The effectiveness against hospital admission in cases of delta and omicron variants were 97% and 53%, respectively.

The effectiveness of three doses was 73% against omicron infant infection and 80% against omicron-related infant hospitalization. Data were not available for the effectiveness of three doses against the delta variant.

The effectiveness of two doses of vaccine against infant omicron infection was highest when mothers received the second dose during the third trimester of pregnancy, compared with during the first trimester or second trimester (53% vs. 47% and 53% vs. 37%, respectively).

Vaccine effectiveness with two doses against infant infection from omicron was highest in the first 8 weeks of life (57%), then decreased to 40% among infants after 16 weeks of age.

Although the study was not designed to assess the mechanism of action of the impact of maternal vaccination on infants, the current study results were consistent with other recent studies showing a reduction in infections and hospitalizations among infants whose mothers received COVID-19 vaccines during pregnancy, the researchers wrote in their discussion.

The findings were limited by several factors including the potential unmeasured confounders not available in databases, such as whether infants were breastfed, the researchers noted. Other limitations included a lack of data on home test results and the inability to assess the waning impact of the vaccine effectiveness against the delta variant because of the small number of delta cases, they said. However, the results suggest that the mRNA COVID-19 vaccine during pregnancy was moderately to highly effective for protection against omicron and delta infection and infection-related hospitalization – especially during the first 8 weeks of life.

Effectiveness is encouraging, but updates are needed

The effectiveness of maternal vaccination to prevent COVID-19 infection and related hospitalizations in infants is promising, especially since those younger than 6 months have no other source of vaccine protection against COVID-19 infection, wrote Dana Danino, MD, of Soroka University Medical Center, Israel, and Ilan Youngster, MD, of Shamir Medical Center, Israel, in an accompanying editorial also published in The BMJ.

They also noted that maternal vaccination during pregnancy is an established method of protecting infants from infections such as influenza and pertussis.

Data from previous studies show that most infants whose mothers were vaccinated against COVID-19 during pregnancy retained maternal antibodies at 6 months, “but evidence for protection against neonatal COVID-19 infection has been deficient,” they said.

The current study findings support the value of vaccination during pregnancy, and the findings were strengthened by the large study population, the editorialists wrote. However, whether the same effectiveness holds for other COVID-19 strains such as BQ.1, BQ.1.1, BF.7, XBB, and XBB.1 remains unknown, they said.

Other areas in need of exploration include the optimal timing of vaccination during pregnancy, the protective effects of a bivalent mRNA vaccine (vs. the primary monovalent vaccine in the current study), and the potential benefits of additional boosters, they added.

“Although Jorgenson and colleagues’ study reinforces the value of maternal vaccination against COVID-19 during pregnancy, more studies are needed to better inform vaccination recommendations in an evolving landscape of new SARS-CoV-2 strains and novel vaccines,” the editorialists concluded.

The study was supported by ICES, which is funded by an annual grant from the Ontario Ministry of Health and the Ministry of Long-term Care; the study also received funding from the Canadian Immunization Research Network and the Public Health Agency of Canada. Dr. Jorgensen and the editorialists had no financial conflicts to disclose.

*This article was updated on 3/2/2023.

Maternal vaccination with two doses of the mRNA COVID-19 vaccine was 95% effective against infant infection from the delta variant, and 45% effective against infant infection from the omicron variant, a new study shows.

Previous research has confirmed that COVID-19 neutralizing antibodies following maternal vaccination or maternal COVID-19 infection are present in umbilical cord blood, breast milk, and infant serum specimens, wrote Sarah C.J. Jorgensen, PharmD, MPH, of the University of Toronto, and colleagues in their article published in The BMJ.

In the study, the researchers identified maternal and newborn pairs using administrative databases from Canada. The study population included 8,809 infants aged younger than 6 months who were born between May 7, 2021, and March 31, 2022, and who underwent testing for COVID-19 between May 7, 2021, and September 5, 2022.

Maternal vaccination with the primary COVID-19 mRNA monovalent vaccine series was defined as two vaccine doses administered up to 14 days before delivery, with at least one of the doses after the conception date.

Maternal vaccination with the primary series plus one booster was defined as three doses administered up to 14 days before delivery, with at least one of these doses after the conception date.

The primary outcome was the presence of delta or omicron COVID-19 infection or hospital admission of the infants.

The study population included 99 COVID-19 cases with the delta variant (with 4,365 controls) and 1,501 cases with the omicron variant (with 4,847 controls).

Overall, the vaccine effectiveness of maternal doses was 95% against delta infection and 45% against omicron.

The effectiveness against hospital admission in cases of delta and omicron variants were 97% and 53%, respectively.

The effectiveness of three doses was 73% against omicron infant infection and 80% against omicron-related infant hospitalization. Data were not available for the effectiveness of three doses against the delta variant.

The effectiveness of two doses of vaccine against infant omicron infection was highest when mothers received the second dose during the third trimester of pregnancy, compared with during the first trimester or second trimester (53% vs. 47% and 53% vs. 37%, respectively).

Vaccine effectiveness with two doses against infant infection from omicron was highest in the first 8 weeks of life (57%), then decreased to 40% among infants after 16 weeks of age.

Although the study was not designed to assess the mechanism of action of the impact of maternal vaccination on infants, the current study results were consistent with other recent studies showing a reduction in infections and hospitalizations among infants whose mothers received COVID-19 vaccines during pregnancy, the researchers wrote in their discussion.

The findings were limited by several factors including the potential unmeasured confounders not available in databases, such as whether infants were breastfed, the researchers noted. Other limitations included a lack of data on home test results and the inability to assess the waning impact of the vaccine effectiveness against the delta variant because of the small number of delta cases, they said. However, the results suggest that the mRNA COVID-19 vaccine during pregnancy was moderately to highly effective for protection against omicron and delta infection and infection-related hospitalization – especially during the first 8 weeks of life.

Effectiveness is encouraging, but updates are needed

The effectiveness of maternal vaccination to prevent COVID-19 infection and related hospitalizations in infants is promising, especially since those younger than 6 months have no other source of vaccine protection against COVID-19 infection, wrote Dana Danino, MD, of Soroka University Medical Center, Israel, and Ilan Youngster, MD, of Shamir Medical Center, Israel, in an accompanying editorial also published in The BMJ.

They also noted that maternal vaccination during pregnancy is an established method of protecting infants from infections such as influenza and pertussis.

Data from previous studies show that most infants whose mothers were vaccinated against COVID-19 during pregnancy retained maternal antibodies at 6 months, “but evidence for protection against neonatal COVID-19 infection has been deficient,” they said.

The current study findings support the value of vaccination during pregnancy, and the findings were strengthened by the large study population, the editorialists wrote. However, whether the same effectiveness holds for other COVID-19 strains such as BQ.1, BQ.1.1, BF.7, XBB, and XBB.1 remains unknown, they said.

Other areas in need of exploration include the optimal timing of vaccination during pregnancy, the protective effects of a bivalent mRNA vaccine (vs. the primary monovalent vaccine in the current study), and the potential benefits of additional boosters, they added.

“Although Jorgenson and colleagues’ study reinforces the value of maternal vaccination against COVID-19 during pregnancy, more studies are needed to better inform vaccination recommendations in an evolving landscape of new SARS-CoV-2 strains and novel vaccines,” the editorialists concluded.

The study was supported by ICES, which is funded by an annual grant from the Ontario Ministry of Health and the Ministry of Long-term Care; the study also received funding from the Canadian Immunization Research Network and the Public Health Agency of Canada. Dr. Jorgensen and the editorialists had no financial conflicts to disclose.

*This article was updated on 3/2/2023.

Maternal vaccination with two doses of the mRNA COVID-19 vaccine was 95% effective against infant infection from the delta variant, and 45% effective against infant infection from the omicron variant, a new study shows.

Previous research has confirmed that COVID-19 neutralizing antibodies following maternal vaccination or maternal COVID-19 infection are present in umbilical cord blood, breast milk, and infant serum specimens, wrote Sarah C.J. Jorgensen, PharmD, MPH, of the University of Toronto, and colleagues in their article published in The BMJ.

In the study, the researchers identified maternal and newborn pairs using administrative databases from Canada. The study population included 8,809 infants aged younger than 6 months who were born between May 7, 2021, and March 31, 2022, and who underwent testing for COVID-19 between May 7, 2021, and September 5, 2022.

Maternal vaccination with the primary COVID-19 mRNA monovalent vaccine series was defined as two vaccine doses administered up to 14 days before delivery, with at least one of the doses after the conception date.

Maternal vaccination with the primary series plus one booster was defined as three doses administered up to 14 days before delivery, with at least one of these doses after the conception date.

The primary outcome was the presence of delta or omicron COVID-19 infection or hospital admission of the infants.

The study population included 99 COVID-19 cases with the delta variant (with 4,365 controls) and 1,501 cases with the omicron variant (with 4,847 controls).

Overall, the vaccine effectiveness of maternal doses was 95% against delta infection and 45% against omicron.

The effectiveness against hospital admission in cases of delta and omicron variants were 97% and 53%, respectively.

The effectiveness of three doses was 73% against omicron infant infection and 80% against omicron-related infant hospitalization. Data were not available for the effectiveness of three doses against the delta variant.

The effectiveness of two doses of vaccine against infant omicron infection was highest when mothers received the second dose during the third trimester of pregnancy, compared with during the first trimester or second trimester (53% vs. 47% and 53% vs. 37%, respectively).

Vaccine effectiveness with two doses against infant infection from omicron was highest in the first 8 weeks of life (57%), then decreased to 40% among infants after 16 weeks of age.

Although the study was not designed to assess the mechanism of action of the impact of maternal vaccination on infants, the current study results were consistent with other recent studies showing a reduction in infections and hospitalizations among infants whose mothers received COVID-19 vaccines during pregnancy, the researchers wrote in their discussion.

The findings were limited by several factors including the potential unmeasured confounders not available in databases, such as whether infants were breastfed, the researchers noted. Other limitations included a lack of data on home test results and the inability to assess the waning impact of the vaccine effectiveness against the delta variant because of the small number of delta cases, they said. However, the results suggest that the mRNA COVID-19 vaccine during pregnancy was moderately to highly effective for protection against omicron and delta infection and infection-related hospitalization – especially during the first 8 weeks of life.

Effectiveness is encouraging, but updates are needed

The effectiveness of maternal vaccination to prevent COVID-19 infection and related hospitalizations in infants is promising, especially since those younger than 6 months have no other source of vaccine protection against COVID-19 infection, wrote Dana Danino, MD, of Soroka University Medical Center, Israel, and Ilan Youngster, MD, of Shamir Medical Center, Israel, in an accompanying editorial also published in The BMJ.

They also noted that maternal vaccination during pregnancy is an established method of protecting infants from infections such as influenza and pertussis.

Data from previous studies show that most infants whose mothers were vaccinated against COVID-19 during pregnancy retained maternal antibodies at 6 months, “but evidence for protection against neonatal COVID-19 infection has been deficient,” they said.

The current study findings support the value of vaccination during pregnancy, and the findings were strengthened by the large study population, the editorialists wrote. However, whether the same effectiveness holds for other COVID-19 strains such as BQ.1, BQ.1.1, BF.7, XBB, and XBB.1 remains unknown, they said.

Other areas in need of exploration include the optimal timing of vaccination during pregnancy, the protective effects of a bivalent mRNA vaccine (vs. the primary monovalent vaccine in the current study), and the potential benefits of additional boosters, they added.

“Although Jorgenson and colleagues’ study reinforces the value of maternal vaccination against COVID-19 during pregnancy, more studies are needed to better inform vaccination recommendations in an evolving landscape of new SARS-CoV-2 strains and novel vaccines,” the editorialists concluded.

The study was supported by ICES, which is funded by an annual grant from the Ontario Ministry of Health and the Ministry of Long-term Care; the study also received funding from the Canadian Immunization Research Network and the Public Health Agency of Canada. Dr. Jorgensen and the editorialists had no financial conflicts to disclose.

*This article was updated on 3/2/2023.

After more than 5 decades of trying, the drug industry is on the verge of providing effective immunizations against the respiratory syncytial virus (RSV), which has put an estimated 90,000 U.S. infants and small children in the hospital since the start of October.

But only one of the shots is designed to be given to babies, and a glitch in congressional language may make it difficult to allow children from low-income families to get it as readily as the well insured.

Since 1994, routine vaccination has been a childhood entitlement under the Vaccines for Children program, through which the federal government buys millions of vaccines and provides them free through pediatricians and clinics to children who are uninsured, underinsured, or on Medicaid – more than half of all American kids.

The 1993 law creating the program didn’t specifically include antibody shots, which were used only as rare emergency therapy at the time the bill was written.

But the first medication of its kind likely to be available to babies, called nirsevimab (it was approved in Europe in December, and Food and Drug Administration approval is expected in the summer of 2023), is not a vaccine but rather a monoclonal antibody that neutralizes RSV in the bloodstream.

The Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices is certain to recommend giving the antibody to infants, said Kelly Moore, MD, president of the advocacy group Immunize.org. The CDC is currently assessing whether nirsevimab would be eligible for the Vaccines for Children program, agency spokesperson Kristen Nordlund told KHN.

Failing to do so would “consign thousands upon thousands of infants to hospitalization and serious illness for semantic reasons despite existence of an immunization that functionally performs just like a seasonal vaccine,” Dr. Moore said.

Officials from Sanofi, which is producing the nirsevimab injection along with AstraZeneca, declined to state a price but said the range would be similar to that of a pediatric vaccine course. The CDC pays about $650 for the most expensive routine vaccine, the four shots against pneumococcal infection. In other words, FDA approval would make nirsevimab a blockbuster drug worth billions annually if it’s given to a large share of the 3.7 million or so children born in the U.S. each year.

Pfizer and GlaxoSmithKline are making traditional vaccines against RSV and expect FDA approval later in 2023. Pfizer’s shot initially would be given to pregnant women – to shield their babies from the disease – while GSK’s would be given to the elderly.

Vaccines designed for infants are in the pipeline, but some experts are still nervous about them. A 1966 RSV vaccine trial failed spectacularly, killing two toddlers, and immunologists aren’t totally in agreement over the cause, said Barney Graham, MD, PhD, the retired National Institutes of Health scientist whose studies of the episode contributed to successful COVID-19 and RSV vaccines.

After 2 years of COVID lockdowns and masking slowed its transmission, RSV exploded across the United States in 2023, swamping pediatric intensive care units.

Sanofi and AstraZeneca hope to have nirsevimab approved by the FDA, recommended by the CDC, and deployed nationwide by fall to prevent future RSV epidemics.

Their product is designed to be provided before a baby’s first winter RSV season. In clinical trials, the antibodies provided up to 5 months of protection. Most children wouldn’t need a second dose because the virus is not a mortal danger to healthy kids over a year old, said Jon Heinrichs, a senior member of Sanofi’s vaccines division.

If the antibody treatment is not accepted for the Vaccines for Children program, that will limit access to the shot for the uninsured and those on Medicaid, the majority of whom represent racial or ethnic minorities, Dr. Moore said. The drugmakers would have to negotiate with each state’s Medicaid program to get it on their formularies.

Excluding the shot from Vaccines for Children “would only worsen existing health disparities,” said Sean O’Leary, MD, a professor of pediatrics at the University of Colorado at Denver, Aurora, and chair of the infectious diseases committee of the American Academy of Pediatrics.

RSV affects babies of all social classes but tends to hit poor, crowded households hardest, said Dr. Graham. “Family history of asthma or allergy makes it worse,” he said, and premature babies are also at higher risk.

While 2%-3% of U.S. infants are hospitalized with RSV each year, only a few hundred don’t survive. But as many as 10,000 people 65 and older perish because of an infection every year, and a little-discussed legal change will make RSV and other vaccines more available to this group.

A section of the 2022 Inflation Reduction Act that went into effect Jan. 1 ends out-of-pocket payments for all vaccines by Medicare patients – including RSV vaccines, if they are licensed for this group.

Before, “if you hadn’t met your deductible, it could be very expensive,” said Leonard Friedland, MD, vice president for scientific affairs and public health in GSK’s vaccines division, which also makes shingles and combination tetanus-diphtheria-whooping cough boosters covered by the new law. “It’s a tremendously important advance.”

Of course, high levels of vaccine hesitancy are likely to blunt uptake of the shots regardless of who pays, said Jennifer Reich, a sociologist at the University of Colorado who studies vaccination attitudes.

New types of shots, like the Sanofi-AstraZeneca antibodies, often alarm parents, and Pfizer’s shot for pregnant women is likely to push fear buttons as well, she said.

Public health officials “don’t seem very savvy about how to get ahead” of claims that vaccines undermine fertility or otherwise harm people, said Ms. Reich.

On the other hand, this winter’s RSV epidemic will be persuasive to many parents, said Heidi Larson, leader of the Vaccine Confidence Project and a professor of anthropology at the London School of Hygiene and Tropical Medicine.

“It’s a scary thing to have your kid hospitalized with RSV,” she said.

While unfortunate, “the high number of children who died or were admitted to the ICU in the past season with RSV – in some ways that’s helpful,” said Laura Riley, MD, chair of obstetrics and gynecology at Weill Cornell Medicine, New York.

Specialists in her field haven’t really started talking about how to communicate with women about the vaccine, said Dr. Riley, who chairs the immunization group at the American College of Obstetricians and Gynecologists.

“Everyone’s been waiting to see if it gets approved,” she said. “The education has to start soon, but it’s hard to roll out education before you roll out the shot.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

After more than 5 decades of trying, the drug industry is on the verge of providing effective immunizations against the respiratory syncytial virus (RSV), which has put an estimated 90,000 U.S. infants and small children in the hospital since the start of October.

But only one of the shots is designed to be given to babies, and a glitch in congressional language may make it difficult to allow children from low-income families to get it as readily as the well insured.

Since 1994, routine vaccination has been a childhood entitlement under the Vaccines for Children program, through which the federal government buys millions of vaccines and provides them free through pediatricians and clinics to children who are uninsured, underinsured, or on Medicaid – more than half of all American kids.

The 1993 law creating the program didn’t specifically include antibody shots, which were used only as rare emergency therapy at the time the bill was written.

But the first medication of its kind likely to be available to babies, called nirsevimab (it was approved in Europe in December, and Food and Drug Administration approval is expected in the summer of 2023), is not a vaccine but rather a monoclonal antibody that neutralizes RSV in the bloodstream.

The Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices is certain to recommend giving the antibody to infants, said Kelly Moore, MD, president of the advocacy group Immunize.org. The CDC is currently assessing whether nirsevimab would be eligible for the Vaccines for Children program, agency spokesperson Kristen Nordlund told KHN.

Failing to do so would “consign thousands upon thousands of infants to hospitalization and serious illness for semantic reasons despite existence of an immunization that functionally performs just like a seasonal vaccine,” Dr. Moore said.

Officials from Sanofi, which is producing the nirsevimab injection along with AstraZeneca, declined to state a price but said the range would be similar to that of a pediatric vaccine course. The CDC pays about $650 for the most expensive routine vaccine, the four shots against pneumococcal infection. In other words, FDA approval would make nirsevimab a blockbuster drug worth billions annually if it’s given to a large share of the 3.7 million or so children born in the U.S. each year.

Pfizer and GlaxoSmithKline are making traditional vaccines against RSV and expect FDA approval later in 2023. Pfizer’s shot initially would be given to pregnant women – to shield their babies from the disease – while GSK’s would be given to the elderly.

Vaccines designed for infants are in the pipeline, but some experts are still nervous about them. A 1966 RSV vaccine trial failed spectacularly, killing two toddlers, and immunologists aren’t totally in agreement over the cause, said Barney Graham, MD, PhD, the retired National Institutes of Health scientist whose studies of the episode contributed to successful COVID-19 and RSV vaccines.

After 2 years of COVID lockdowns and masking slowed its transmission, RSV exploded across the United States in 2023, swamping pediatric intensive care units.

Sanofi and AstraZeneca hope to have nirsevimab approved by the FDA, recommended by the CDC, and deployed nationwide by fall to prevent future RSV epidemics.

Their product is designed to be provided before a baby’s first winter RSV season. In clinical trials, the antibodies provided up to 5 months of protection. Most children wouldn’t need a second dose because the virus is not a mortal danger to healthy kids over a year old, said Jon Heinrichs, a senior member of Sanofi’s vaccines division.

If the antibody treatment is not accepted for the Vaccines for Children program, that will limit access to the shot for the uninsured and those on Medicaid, the majority of whom represent racial or ethnic minorities, Dr. Moore said. The drugmakers would have to negotiate with each state’s Medicaid program to get it on their formularies.

Excluding the shot from Vaccines for Children “would only worsen existing health disparities,” said Sean O’Leary, MD, a professor of pediatrics at the University of Colorado at Denver, Aurora, and chair of the infectious diseases committee of the American Academy of Pediatrics.

RSV affects babies of all social classes but tends to hit poor, crowded households hardest, said Dr. Graham. “Family history of asthma or allergy makes it worse,” he said, and premature babies are also at higher risk.

While 2%-3% of U.S. infants are hospitalized with RSV each year, only a few hundred don’t survive. But as many as 10,000 people 65 and older perish because of an infection every year, and a little-discussed legal change will make RSV and other vaccines more available to this group.

A section of the 2022 Inflation Reduction Act that went into effect Jan. 1 ends out-of-pocket payments for all vaccines by Medicare patients – including RSV vaccines, if they are licensed for this group.

Before, “if you hadn’t met your deductible, it could be very expensive,” said Leonard Friedland, MD, vice president for scientific affairs and public health in GSK’s vaccines division, which also makes shingles and combination tetanus-diphtheria-whooping cough boosters covered by the new law. “It’s a tremendously important advance.”

Of course, high levels of vaccine hesitancy are likely to blunt uptake of the shots regardless of who pays, said Jennifer Reich, a sociologist at the University of Colorado who studies vaccination attitudes.

New types of shots, like the Sanofi-AstraZeneca antibodies, often alarm parents, and Pfizer’s shot for pregnant women is likely to push fear buttons as well, she said.

Public health officials “don’t seem very savvy about how to get ahead” of claims that vaccines undermine fertility or otherwise harm people, said Ms. Reich.

On the other hand, this winter’s RSV epidemic will be persuasive to many parents, said Heidi Larson, leader of the Vaccine Confidence Project and a professor of anthropology at the London School of Hygiene and Tropical Medicine.

“It’s a scary thing to have your kid hospitalized with RSV,” she said.

While unfortunate, “the high number of children who died or were admitted to the ICU in the past season with RSV – in some ways that’s helpful,” said Laura Riley, MD, chair of obstetrics and gynecology at Weill Cornell Medicine, New York.

Specialists in her field haven’t really started talking about how to communicate with women about the vaccine, said Dr. Riley, who chairs the immunization group at the American College of Obstetricians and Gynecologists.

“Everyone’s been waiting to see if it gets approved,” she said. “The education has to start soon, but it’s hard to roll out education before you roll out the shot.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

After more than 5 decades of trying, the drug industry is on the verge of providing effective immunizations against the respiratory syncytial virus (RSV), which has put an estimated 90,000 U.S. infants and small children in the hospital since the start of October.

But only one of the shots is designed to be given to babies, and a glitch in congressional language may make it difficult to allow children from low-income families to get it as readily as the well insured.

Since 1994, routine vaccination has been a childhood entitlement under the Vaccines for Children program, through which the federal government buys millions of vaccines and provides them free through pediatricians and clinics to children who are uninsured, underinsured, or on Medicaid – more than half of all American kids.

The 1993 law creating the program didn’t specifically include antibody shots, which were used only as rare emergency therapy at the time the bill was written.

But the first medication of its kind likely to be available to babies, called nirsevimab (it was approved in Europe in December, and Food and Drug Administration approval is expected in the summer of 2023), is not a vaccine but rather a monoclonal antibody that neutralizes RSV in the bloodstream.

The Centers for Disease Control and Prevention’s Advisory Committee on Immunization Practices is certain to recommend giving the antibody to infants, said Kelly Moore, MD, president of the advocacy group Immunize.org. The CDC is currently assessing whether nirsevimab would be eligible for the Vaccines for Children program, agency spokesperson Kristen Nordlund told KHN.

Failing to do so would “consign thousands upon thousands of infants to hospitalization and serious illness for semantic reasons despite existence of an immunization that functionally performs just like a seasonal vaccine,” Dr. Moore said.

Officials from Sanofi, which is producing the nirsevimab injection along with AstraZeneca, declined to state a price but said the range would be similar to that of a pediatric vaccine course. The CDC pays about $650 for the most expensive routine vaccine, the four shots against pneumococcal infection. In other words, FDA approval would make nirsevimab a blockbuster drug worth billions annually if it’s given to a large share of the 3.7 million or so children born in the U.S. each year.

Pfizer and GlaxoSmithKline are making traditional vaccines against RSV and expect FDA approval later in 2023. Pfizer’s shot initially would be given to pregnant women – to shield their babies from the disease – while GSK’s would be given to the elderly.

Vaccines designed for infants are in the pipeline, but some experts are still nervous about them. A 1966 RSV vaccine trial failed spectacularly, killing two toddlers, and immunologists aren’t totally in agreement over the cause, said Barney Graham, MD, PhD, the retired National Institutes of Health scientist whose studies of the episode contributed to successful COVID-19 and RSV vaccines.

After 2 years of COVID lockdowns and masking slowed its transmission, RSV exploded across the United States in 2023, swamping pediatric intensive care units.

Sanofi and AstraZeneca hope to have nirsevimab approved by the FDA, recommended by the CDC, and deployed nationwide by fall to prevent future RSV epidemics.

Their product is designed to be provided before a baby’s first winter RSV season. In clinical trials, the antibodies provided up to 5 months of protection. Most children wouldn’t need a second dose because the virus is not a mortal danger to healthy kids over a year old, said Jon Heinrichs, a senior member of Sanofi’s vaccines division.

If the antibody treatment is not accepted for the Vaccines for Children program, that will limit access to the shot for the uninsured and those on Medicaid, the majority of whom represent racial or ethnic minorities, Dr. Moore said. The drugmakers would have to negotiate with each state’s Medicaid program to get it on their formularies.

Excluding the shot from Vaccines for Children “would only worsen existing health disparities,” said Sean O’Leary, MD, a professor of pediatrics at the University of Colorado at Denver, Aurora, and chair of the infectious diseases committee of the American Academy of Pediatrics.

RSV affects babies of all social classes but tends to hit poor, crowded households hardest, said Dr. Graham. “Family history of asthma or allergy makes it worse,” he said, and premature babies are also at higher risk.

While 2%-3% of U.S. infants are hospitalized with RSV each year, only a few hundred don’t survive. But as many as 10,000 people 65 and older perish because of an infection every year, and a little-discussed legal change will make RSV and other vaccines more available to this group.

A section of the 2022 Inflation Reduction Act that went into effect Jan. 1 ends out-of-pocket payments for all vaccines by Medicare patients – including RSV vaccines, if they are licensed for this group.

Before, “if you hadn’t met your deductible, it could be very expensive,” said Leonard Friedland, MD, vice president for scientific affairs and public health in GSK’s vaccines division, which also makes shingles and combination tetanus-diphtheria-whooping cough boosters covered by the new law. “It’s a tremendously important advance.”

Of course, high levels of vaccine hesitancy are likely to blunt uptake of the shots regardless of who pays, said Jennifer Reich, a sociologist at the University of Colorado who studies vaccination attitudes.

New types of shots, like the Sanofi-AstraZeneca antibodies, often alarm parents, and Pfizer’s shot for pregnant women is likely to push fear buttons as well, she said.

Public health officials “don’t seem very savvy about how to get ahead” of claims that vaccines undermine fertility or otherwise harm people, said Ms. Reich.

On the other hand, this winter’s RSV epidemic will be persuasive to many parents, said Heidi Larson, leader of the Vaccine Confidence Project and a professor of anthropology at the London School of Hygiene and Tropical Medicine.

“It’s a scary thing to have your kid hospitalized with RSV,” she said.

While unfortunate, “the high number of children who died or were admitted to the ICU in the past season with RSV – in some ways that’s helpful,” said Laura Riley, MD, chair of obstetrics and gynecology at Weill Cornell Medicine, New York.

Specialists in her field haven’t really started talking about how to communicate with women about the vaccine, said Dr. Riley, who chairs the immunization group at the American College of Obstetricians and Gynecologists.

“Everyone’s been waiting to see if it gets approved,” she said. “The education has to start soon, but it’s hard to roll out education before you roll out the shot.”

KHN (Kaiser Health News) is a national newsroom that produces in-depth journalism about health issues. Together with Policy Analysis and Polling, KHN is one of the three major operating programs at KFF (Kaiser Family Foundation). KFF is an endowed nonprofit organization providing information on health issues to the nation.

A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
 

Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.

The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.

The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.

“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”

The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.

Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.

The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.

“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
 

Surprising findings

Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.

“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)

For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.

Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.

“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”

The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.

The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.

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

A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
 

Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.

The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.

The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.

“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”

The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.

Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.

The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.

“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
 

Surprising findings

Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.

“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)

For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.

Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.

“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”

The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.

The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.

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

A new prognostic tool may help identify infants with cerebral palsy (CP) earlier, allowing them to receive therapies to improve later outcomes.
 

Researchers from Canada used 12 clinical variables to predict the condition. The tool accurately predicted 75% of CP cases. The study was published in JAMA Pediatrics.

The prevalence of CP in the United States is 2-3 children per 1,000, a rate that has been relatively unchanged for decades. Although recent innovations in diagnosis using motor scores and MRI scans have aided in diagnosis, these techniques have historically been reserved only for infants who were cared for in neonatal intensive care units, were born prematurely, or who had other neurologic risk factors, such as birth defects.

The tool identified 2.4 times more children with CP than would have been detected using current diagnostic methods, according to the researchers.

“We developed the prediction tool to try to make these findings accessible to any health care provider, which will hopefully help break down the long-held perception that CP is usually related to prematurity or a difficult delivery,” said Mary Dunbar, MD, an author of the study. “We know that about half of children with CP aren’t premature and didn’t have a particularly difficult birth.”

The bedside tool weighs factors such as the use by mothers of illicit drugs and tobacco; the presence of diabetes and preeclampsia during pregnancy; whether the infant is male; birth weight; and the number of miscarriages the mother had prior to the birth. The tool also factors in results from a test that measures how well the infant is adjusting to life outside the womb.

Dr. Dunbar and colleagues compared 1,265 infants with CP from the Canadian Cerebral Palsy Registry from 2003 to 2019 with a control group of 1,985 children without CP from the Alberta Pregnancy Outcomes and Nutrition longitudinal study.

The study authors hope that the prognostic tool can be integrated into existing newborn screenings and completed by nurses or physicians as part of routine care.

“Its cost is low especially in comparison to MRI and specialized neurological assessments,” said Sarah Taylor, MD, section chief of neonatal-perinatal medicine at Yale New Haven Children’s Hospital in New Haven, Conn. Health systems and doctors may be more apt to adopt the tool, since it does not require specialized equipment or training.
 

Surprising findings

Several clinical variables independently increased the risk of CP, including independent 5-minute Apgar test scores of <6, chorioamnionitis, and illicit drug use during the pregnancy. Dr. Dunbar and colleagues recommend that primary care clinicians provide enhanced surveillance for these infants.

“I think there are also really important public health implications to address maternal and reproductive health to support pregnant people, since this study shows that common pregnancy conditions that are potentially treatable may additively contribute to cerebral palsy risk,” said Dr. Dunbar, a pediatric neurologist and assistant professor at the University of Calgary (Alta.)

For infants identified as being at risk, the study authors also suggest that doctors conduct focused examinations for CP at 3-, 6- and 12-month well-baby visits. If results of an examination are abnormal, doctors can advise the caregiver to conduct an early expert evaluation for a general movements assessment. Interventions for children with CP usually start in the first few years of life and can include occupational therapy, use of orthotic devices, and medication.

Dr. Dunbar and colleagues acknowledge that the test is not perfect and that additional work is needed.

“As helpful as the prediction tool may be to identify cases of CP early, we know there are still a minority of CP cases that it won’t catch because they don’t have any of the known risk factors,” Dr. Dunbar said. “We’re currently working on further research about this unique group.”

The researchers cited several limitations to the dataset used in the study, including a control group that was skewed toward older patients and persons of higher socioeconomic status. In addition, the data included a greater proportion of White women than the average Canadian population.

The Canadian Cerebral Palsy Registry was supported by the NeuroDevNet, KidsBrainHealth, the Harvey Guyda Chair of McGill University, Montreal Children’s Hospital, and the Public Health Agency of Canada. The authors disclosed no relevant financial relationships.

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

Children who were exposed in utero to maternal cancer and treatment do not appear to have any long-term health consequences as a result of this exposure, a nationwide Danish study suggests.

The study evaluated live-born children between January 1978 and December 2018 whose mothers were diagnosed with cancer during pregnancy. Compared with unexposed fetuses, children exposed in utero had no higher overall mortality and no increased risk of congenital malformations.

Researchers also determined that exposure to chemotherapy was not associated with somatic diseases and congenital malformations when compared with in utero exposure to maternal cancer without chemotherapy.

“These findings suggest that fetal exposure to maternal cancer and treatment did not have implications for the long-term somatic and psychiatric health of the children, which is reassuring for the affected families and their health care providers,” the researchers commented.

The paper was published online in the Journal of Clinical Oncology.

Approached for comment, Katherine Van Loon, MD, MPH, director of the Global Cancer Program at the University of California, San Francisco, Helen Diller Family Comprehensive Cancer Center, said the results offer “promising news.”

“In the balance between administering needed oncologic therapy to save a mother’s life versus considering potential risks to the fetus, this data is reassuring that there is not an increased risk of catastrophic outcomes for the fetus,” Dr. Van Loon said. She noted, however, that the exposed children were not prospectively evaluated for adverse outcomes, which may have been more subtle that this study could detect.

The authors used data from the Danish Civil Registration System and Danish Medical Birth Register. They found that of 2,526,163 live-born children, 690 (0.03%) were exposed to maternal cancer in utero. Children born to mothers younger than 15 years or older than 54 years and children with an outcome diagnosis were excluded from the study.

Researchers found that children exposed to maternal cancer in utero did not demonstrate a higher overall mortality than the unexposed reference group; adjusted hazard ratio, 0.8 (95% confidence interval, 0.4-1.5). There was also no excess of congenital malformations (aHR, 1.0 [95% CI, 0.8-1.2]). In addition, there were no excesses of puberty disturbances or respiratory, cardiovascular, urinary tract, or neurologic disease.

Researchers also conducted a subgroup analysis on in utero exposure to chemotherapy, which involved 1,053,109 children born after 2002. There were 378 (0.03%) children exposed to maternal cancer in utero, and 42 (12.5%) who were exposed to chemotherapy. Chemotherapy was given during the second trimester in 73.8% of the mothers and during the third trimester in 26.2%.

No deaths or events of cancer, autism spectrum disorder, ADHD, hearing loss, or suppressed myelopoiesis were identified during follow-up of the 42 children exposed to chemotherapy in utero.

Dr. Van Loon said many cancer treatments are safe during pregnancy but added that every situation is nuanced with a number of variables to consider.

“All treatment decisions must take into account the diagnosis and prognosis of the mother, the gestational age of the fetus, and the potential teratogenic effects of the proposed treatments,” she said.

The study was supported by grants from the Research Fund of Rigshospitalet, Copenhagen University Hospital, the Novo Nordisk Foundation, Johannes Clemmesen Research Foundation, Helsefonden, Holm Memorial Foundation, and the Danish Cancer Research Foundation. Researcher disclosures are listed in the study paper.
 

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

Children who were exposed in utero to maternal cancer and treatment do not appear to have any long-term health consequences as a result of this exposure, a nationwide Danish study suggests.

The study evaluated live-born children between January 1978 and December 2018 whose mothers were diagnosed with cancer during pregnancy. Compared with unexposed fetuses, children exposed in utero had no higher overall mortality and no increased risk of congenital malformations.

Researchers also determined that exposure to chemotherapy was not associated with somatic diseases and congenital malformations when compared with in utero exposure to maternal cancer without chemotherapy.

“These findings suggest that fetal exposure to maternal cancer and treatment did not have implications for the long-term somatic and psychiatric health of the children, which is reassuring for the affected families and their health care providers,” the researchers commented.

The paper was published online in the Journal of Clinical Oncology.

Approached for comment, Katherine Van Loon, MD, MPH, director of the Global Cancer Program at the University of California, San Francisco, Helen Diller Family Comprehensive Cancer Center, said the results offer “promising news.”

“In the balance between administering needed oncologic therapy to save a mother’s life versus considering potential risks to the fetus, this data is reassuring that there is not an increased risk of catastrophic outcomes for the fetus,” Dr. Van Loon said. She noted, however, that the exposed children were not prospectively evaluated for adverse outcomes, which may have been more subtle that this study could detect.

The authors used data from the Danish Civil Registration System and Danish Medical Birth Register. They found that of 2,526,163 live-born children, 690 (0.03%) were exposed to maternal cancer in utero. Children born to mothers younger than 15 years or older than 54 years and children with an outcome diagnosis were excluded from the study.

Researchers found that children exposed to maternal cancer in utero did not demonstrate a higher overall mortality than the unexposed reference group; adjusted hazard ratio, 0.8 (95% confidence interval, 0.4-1.5). There was also no excess of congenital malformations (aHR, 1.0 [95% CI, 0.8-1.2]). In addition, there were no excesses of puberty disturbances or respiratory, cardiovascular, urinary tract, or neurologic disease.

Researchers also conducted a subgroup analysis on in utero exposure to chemotherapy, which involved 1,053,109 children born after 2002. There were 378 (0.03%) children exposed to maternal cancer in utero, and 42 (12.5%) who were exposed to chemotherapy. Chemotherapy was given during the second trimester in 73.8% of the mothers and during the third trimester in 26.2%.

No deaths or events of cancer, autism spectrum disorder, ADHD, hearing loss, or suppressed myelopoiesis were identified during follow-up of the 42 children exposed to chemotherapy in utero.

Dr. Van Loon said many cancer treatments are safe during pregnancy but added that every situation is nuanced with a number of variables to consider.

“All treatment decisions must take into account the diagnosis and prognosis of the mother, the gestational age of the fetus, and the potential teratogenic effects of the proposed treatments,” she said.

The study was supported by grants from the Research Fund of Rigshospitalet, Copenhagen University Hospital, the Novo Nordisk Foundation, Johannes Clemmesen Research Foundation, Helsefonden, Holm Memorial Foundation, and the Danish Cancer Research Foundation. Researcher disclosures are listed in the study paper.
 

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

Children who were exposed in utero to maternal cancer and treatment do not appear to have any long-term health consequences as a result of this exposure, a nationwide Danish study suggests.

The study evaluated live-born children between January 1978 and December 2018 whose mothers were diagnosed with cancer during pregnancy. Compared with unexposed fetuses, children exposed in utero had no higher overall mortality and no increased risk of congenital malformations.

Researchers also determined that exposure to chemotherapy was not associated with somatic diseases and congenital malformations when compared with in utero exposure to maternal cancer without chemotherapy.

“These findings suggest that fetal exposure to maternal cancer and treatment did not have implications for the long-term somatic and psychiatric health of the children, which is reassuring for the affected families and their health care providers,” the researchers commented.

The paper was published online in the Journal of Clinical Oncology.

Approached for comment, Katherine Van Loon, MD, MPH, director of the Global Cancer Program at the University of California, San Francisco, Helen Diller Family Comprehensive Cancer Center, said the results offer “promising news.”

“In the balance between administering needed oncologic therapy to save a mother’s life versus considering potential risks to the fetus, this data is reassuring that there is not an increased risk of catastrophic outcomes for the fetus,” Dr. Van Loon said. She noted, however, that the exposed children were not prospectively evaluated for adverse outcomes, which may have been more subtle that this study could detect.

The authors used data from the Danish Civil Registration System and Danish Medical Birth Register. They found that of 2,526,163 live-born children, 690 (0.03%) were exposed to maternal cancer in utero. Children born to mothers younger than 15 years or older than 54 years and children with an outcome diagnosis were excluded from the study.

Researchers found that children exposed to maternal cancer in utero did not demonstrate a higher overall mortality than the unexposed reference group; adjusted hazard ratio, 0.8 (95% confidence interval, 0.4-1.5). There was also no excess of congenital malformations (aHR, 1.0 [95% CI, 0.8-1.2]). In addition, there were no excesses of puberty disturbances or respiratory, cardiovascular, urinary tract, or neurologic disease.

Researchers also conducted a subgroup analysis on in utero exposure to chemotherapy, which involved 1,053,109 children born after 2002. There were 378 (0.03%) children exposed to maternal cancer in utero, and 42 (12.5%) who were exposed to chemotherapy. Chemotherapy was given during the second trimester in 73.8% of the mothers and during the third trimester in 26.2%.

No deaths or events of cancer, autism spectrum disorder, ADHD, hearing loss, or suppressed myelopoiesis were identified during follow-up of the 42 children exposed to chemotherapy in utero.

Dr. Van Loon said many cancer treatments are safe during pregnancy but added that every situation is nuanced with a number of variables to consider.

“All treatment decisions must take into account the diagnosis and prognosis of the mother, the gestational age of the fetus, and the potential teratogenic effects of the proposed treatments,” she said.

The study was supported by grants from the Research Fund of Rigshospitalet, Copenhagen University Hospital, the Novo Nordisk Foundation, Johannes Clemmesen Research Foundation, Helsefonden, Holm Memorial Foundation, and the Danish Cancer Research Foundation. Researcher disclosures are listed in the study paper.
 

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

A program to increase the use of magnesium sulfate to reduce the risk of cerebral palsy is effective, say researchers. Giving magnesium sulfate to women at risk of premature birth can reduce the risk of a child having cerebral palsy by a third, and costs just £1 per dose.

However, the authors of the new observational study, published in Archives of Disease in Childhood – Fetal and Neonatal Edition, pointed out that in 2017 only around two-thirds (64%) of eligible women were being given magnesium sulfate in England, Scotland, and Wales, with “wide regional variations.”

To address this, in 2014 the PReCePT (Preventing Cerebral Palsy in Pre Term labor) quality improvement toolkit was developed by both parents and staff with the aim of supporting all maternity units in England to improve maternity staff awareness and increase the use of magnesium sulfate in mothers at risk of giving birth at 30 weeks’ gestation or under. PReCePT provided practical tools and training to support hospital staff to give magnesium sulfate to eligible mothers.

The pilot study in 2015, which involved five maternity units, found an increase in uptake from 21% to 88% associated with the PReCePT approach. Subsequently, in 2018, NHS England funded the National PReCePT Programme, which scaled up the intervention for national roll-out and provided the PReCePT quality toolkit – which includes preterm labor proforma, staff training presentations, parent information leaflet, posters for the unit, and a learning log – to each maternity unit.
 

Improvement ‘over and above’ expectation

For the first evaluation of a U.K. universally implemented national perinatal quality improvement program to increase administration of an evidence-based drug, researchers, led by University of Bristol, England, set out to evaluate the effectiveness and cost-effectiveness of the National PReCePT Programme in increasing use of magnesium sulfate in preterm births.

Using data from the U.K. National Neonatal Research Database for the year before and the year after PReCePT was implemented in maternity units in England, the researchers performed a before-and-after study that involved 137 maternity units within NHS England. Participants were babies born at 30 weeks’ gestation or under admitted to neonatal units in England, and the main outcome measure was magnesium sulfate uptake before and after the implementation of the National PReCePT Programme. In addition, implementation and lifetime costs were estimated.

During the first year, post implementation of the program, uptake increased by an average of 6.3 percentage points (to 83.1%) across all maternity units in England, which the authors explained was “over and above” the increase that would be expected over time as the practice spread organically. The researchers also found that after adjusting for variations in when maternity units started the program, the increase in use of magnesium sulfate was 9.5 percentage points. “By May 2020, on average 86.4% of eligible mothers were receiving magnesium sulfate,” they said.

Professor John Macleod, NIHR ARC West Director, professor in clinical epidemiology and primary care, University of Bristol, and principal investigator of the evaluation, said: “Our in-depth analysis has been able to demonstrate that the PReCePT program is both effective and cost-effective. The program has increased uptake of magnesium sulfate, which we know is a cost-effective medicine to prevent cerebral palsy, much more quickly than we could have otherwise expected.”

From a societal and lifetime perspective, the health gains and cost savings associated with the National PReCePT Programme generated a “net monetary benefit of £866 per preterm baby,” with the probability of the program being cost-effective being “greater than 95%,” the authors highlighted.

The researchers also estimated that the program’s first year could be associated with a lifetime saving to society of £3 million – which accounts for the costs of the program, of administering the treatment, of cerebral palsy to society over a lifetime, and the associated health gains of avoiding cases. “This is across all the extra babies the program helped get access to the treatment during the first year,” they said.

The authors highlighted that in the five pilot sites, the improved use of magnesium sulfate has been “sustained over the years” since PReCePT was implemented. As the program costs were mostly in the first year of implementation, longer-term national analysis may show that PReCePT is “even more cost-effective over a longer period,” they postulated.
 

Accelerate uptake

Uptake of new evidence or guidelines is often “slow” due to practical barriers, lack of knowledge, and need for behavior change, and can “take decades to become embedded” in perinatal clinical practice, expressed the authors, which in turn comes at a “high clinical and economic cost.”

Karen Luyt, professor in neonatal medicine, University of Bristol, said: “The PReCePT national quality improvement program demonstrates that a collaborative and coordinated perinatal implementation program supporting every hospital in England can accelerate the uptake of new evidence-based treatments into routine practice, enabling equitable health benefits to babies and ultimately reductions in lifetime societal costs.”

The authors said the PReCePT model “may serve as a blueprint for future interventions to improve perinatal care.”

Professor Lucy Chappell, chief executive officer of the National Institute for Health and Care Research, said: “This important study shows the impact of taking a promising intervention that had been shown to work in a research setting and scaling it up across the country. Giving magnesium sulfate to prevent cerebral palsy in premature babies is a simple, inexpensive intervention that can make such a difference to families and the health service.”

Prof. Macleod added: “We are pleased to have played a part in helping get this cheap yet effective treatment to more babies.”

This work was jointly funded by the National Institute for Health and Care Research Applied Research Collaboration West and the AHSN Network funded by NHS England. The Health Foundation funded the health economics evaluation. The authors declare that the study management group has no competing financial, professional, or personal interests that might have influenced the study design or conduct.

A version of this article first appeared on Medscape UK.

A program to increase the use of magnesium sulfate to reduce the risk of cerebral palsy is effective, say researchers. Giving magnesium sulfate to women at risk of premature birth can reduce the risk of a child having cerebral palsy by a third, and costs just £1 per dose.

However, the authors of the new observational study, published in Archives of Disease in Childhood – Fetal and Neonatal Edition, pointed out that in 2017 only around two-thirds (64%) of eligible women were being given magnesium sulfate in England, Scotland, and Wales, with “wide regional variations.”

To address this, in 2014 the PReCePT (Preventing Cerebral Palsy in Pre Term labor) quality improvement toolkit was developed by both parents and staff with the aim of supporting all maternity units in England to improve maternity staff awareness and increase the use of magnesium sulfate in mothers at risk of giving birth at 30 weeks’ gestation or under. PReCePT provided practical tools and training to support hospital staff to give magnesium sulfate to eligible mothers.

The pilot study in 2015, which involved five maternity units, found an increase in uptake from 21% to 88% associated with the PReCePT approach. Subsequently, in 2018, NHS England funded the National PReCePT Programme, which scaled up the intervention for national roll-out and provided the PReCePT quality toolkit – which includes preterm labor proforma, staff training presentations, parent information leaflet, posters for the unit, and a learning log – to each maternity unit.
 

Improvement ‘over and above’ expectation

For the first evaluation of a U.K. universally implemented national perinatal quality improvement program to increase administration of an evidence-based drug, researchers, led by University of Bristol, England, set out to evaluate the effectiveness and cost-effectiveness of the National PReCePT Programme in increasing use of magnesium sulfate in preterm births.

Using data from the U.K. National Neonatal Research Database for the year before and the year after PReCePT was implemented in maternity units in England, the researchers performed a before-and-after study that involved 137 maternity units within NHS England. Participants were babies born at 30 weeks’ gestation or under admitted to neonatal units in England, and the main outcome measure was magnesium sulfate uptake before and after the implementation of the National PReCePT Programme. In addition, implementation and lifetime costs were estimated.

During the first year, post implementation of the program, uptake increased by an average of 6.3 percentage points (to 83.1%) across all maternity units in England, which the authors explained was “over and above” the increase that would be expected over time as the practice spread organically. The researchers also found that after adjusting for variations in when maternity units started the program, the increase in use of magnesium sulfate was 9.5 percentage points. “By May 2020, on average 86.4% of eligible mothers were receiving magnesium sulfate,” they said.

Professor John Macleod, NIHR ARC West Director, professor in clinical epidemiology and primary care, University of Bristol, and principal investigator of the evaluation, said: “Our in-depth analysis has been able to demonstrate that the PReCePT program is both effective and cost-effective. The program has increased uptake of magnesium sulfate, which we know is a cost-effective medicine to prevent cerebral palsy, much more quickly than we could have otherwise expected.”

From a societal and lifetime perspective, the health gains and cost savings associated with the National PReCePT Programme generated a “net monetary benefit of £866 per preterm baby,” with the probability of the program being cost-effective being “greater than 95%,” the authors highlighted.

The researchers also estimated that the program’s first year could be associated with a lifetime saving to society of £3 million – which accounts for the costs of the program, of administering the treatment, of cerebral palsy to society over a lifetime, and the associated health gains of avoiding cases. “This is across all the extra babies the program helped get access to the treatment during the first year,” they said.

The authors highlighted that in the five pilot sites, the improved use of magnesium sulfate has been “sustained over the years” since PReCePT was implemented. As the program costs were mostly in the first year of implementation, longer-term national analysis may show that PReCePT is “even more cost-effective over a longer period,” they postulated.
 

Accelerate uptake

Uptake of new evidence or guidelines is often “slow” due to practical barriers, lack of knowledge, and need for behavior change, and can “take decades to become embedded” in perinatal clinical practice, expressed the authors, which in turn comes at a “high clinical and economic cost.”

Karen Luyt, professor in neonatal medicine, University of Bristol, said: “The PReCePT national quality improvement program demonstrates that a collaborative and coordinated perinatal implementation program supporting every hospital in England can accelerate the uptake of new evidence-based treatments into routine practice, enabling equitable health benefits to babies and ultimately reductions in lifetime societal costs.”

The authors said the PReCePT model “may serve as a blueprint for future interventions to improve perinatal care.”

Professor Lucy Chappell, chief executive officer of the National Institute for Health and Care Research, said: “This important study shows the impact of taking a promising intervention that had been shown to work in a research setting and scaling it up across the country. Giving magnesium sulfate to prevent cerebral palsy in premature babies is a simple, inexpensive intervention that can make such a difference to families and the health service.”

Prof. Macleod added: “We are pleased to have played a part in helping get this cheap yet effective treatment to more babies.”

This work was jointly funded by the National Institute for Health and Care Research Applied Research Collaboration West and the AHSN Network funded by NHS England. The Health Foundation funded the health economics evaluation. The authors declare that the study management group has no competing financial, professional, or personal interests that might have influenced the study design or conduct.

A version of this article first appeared on Medscape UK.

A program to increase the use of magnesium sulfate to reduce the risk of cerebral palsy is effective, say researchers. Giving magnesium sulfate to women at risk of premature birth can reduce the risk of a child having cerebral palsy by a third, and costs just £1 per dose.

However, the authors of the new observational study, published in Archives of Disease in Childhood – Fetal and Neonatal Edition, pointed out that in 2017 only around two-thirds (64%) of eligible women were being given magnesium sulfate in England, Scotland, and Wales, with “wide regional variations.”

To address this, in 2014 the PReCePT (Preventing Cerebral Palsy in Pre Term labor) quality improvement toolkit was developed by both parents and staff with the aim of supporting all maternity units in England to improve maternity staff awareness and increase the use of magnesium sulfate in mothers at risk of giving birth at 30 weeks’ gestation or under. PReCePT provided practical tools and training to support hospital staff to give magnesium sulfate to eligible mothers.

The pilot study in 2015, which involved five maternity units, found an increase in uptake from 21% to 88% associated with the PReCePT approach. Subsequently, in 2018, NHS England funded the National PReCePT Programme, which scaled up the intervention for national roll-out and provided the PReCePT quality toolkit – which includes preterm labor proforma, staff training presentations, parent information leaflet, posters for the unit, and a learning log – to each maternity unit.
 

Improvement ‘over and above’ expectation

For the first evaluation of a U.K. universally implemented national perinatal quality improvement program to increase administration of an evidence-based drug, researchers, led by University of Bristol, England, set out to evaluate the effectiveness and cost-effectiveness of the National PReCePT Programme in increasing use of magnesium sulfate in preterm births.

Using data from the U.K. National Neonatal Research Database for the year before and the year after PReCePT was implemented in maternity units in England, the researchers performed a before-and-after study that involved 137 maternity units within NHS England. Participants were babies born at 30 weeks’ gestation or under admitted to neonatal units in England, and the main outcome measure was magnesium sulfate uptake before and after the implementation of the National PReCePT Programme. In addition, implementation and lifetime costs were estimated.

During the first year, post implementation of the program, uptake increased by an average of 6.3 percentage points (to 83.1%) across all maternity units in England, which the authors explained was “over and above” the increase that would be expected over time as the practice spread organically. The researchers also found that after adjusting for variations in when maternity units started the program, the increase in use of magnesium sulfate was 9.5 percentage points. “By May 2020, on average 86.4% of eligible mothers were receiving magnesium sulfate,” they said.

Professor John Macleod, NIHR ARC West Director, professor in clinical epidemiology and primary care, University of Bristol, and principal investigator of the evaluation, said: “Our in-depth analysis has been able to demonstrate that the PReCePT program is both effective and cost-effective. The program has increased uptake of magnesium sulfate, which we know is a cost-effective medicine to prevent cerebral palsy, much more quickly than we could have otherwise expected.”

From a societal and lifetime perspective, the health gains and cost savings associated with the National PReCePT Programme generated a “net monetary benefit of £866 per preterm baby,” with the probability of the program being cost-effective being “greater than 95%,” the authors highlighted.

The researchers also estimated that the program’s first year could be associated with a lifetime saving to society of £3 million – which accounts for the costs of the program, of administering the treatment, of cerebral palsy to society over a lifetime, and the associated health gains of avoiding cases. “This is across all the extra babies the program helped get access to the treatment during the first year,” they said.

The authors highlighted that in the five pilot sites, the improved use of magnesium sulfate has been “sustained over the years” since PReCePT was implemented. As the program costs were mostly in the first year of implementation, longer-term national analysis may show that PReCePT is “even more cost-effective over a longer period,” they postulated.
 

Accelerate uptake

Uptake of new evidence or guidelines is often “slow” due to practical barriers, lack of knowledge, and need for behavior change, and can “take decades to become embedded” in perinatal clinical practice, expressed the authors, which in turn comes at a “high clinical and economic cost.”

Karen Luyt, professor in neonatal medicine, University of Bristol, said: “The PReCePT national quality improvement program demonstrates that a collaborative and coordinated perinatal implementation program supporting every hospital in England can accelerate the uptake of new evidence-based treatments into routine practice, enabling equitable health benefits to babies and ultimately reductions in lifetime societal costs.”

The authors said the PReCePT model “may serve as a blueprint for future interventions to improve perinatal care.”

Professor Lucy Chappell, chief executive officer of the National Institute for Health and Care Research, said: “This important study shows the impact of taking a promising intervention that had been shown to work in a research setting and scaling it up across the country. Giving magnesium sulfate to prevent cerebral palsy in premature babies is a simple, inexpensive intervention that can make such a difference to families and the health service.”

Prof. Macleod added: “We are pleased to have played a part in helping get this cheap yet effective treatment to more babies.”

This work was jointly funded by the National Institute for Health and Care Research Applied Research Collaboration West and the AHSN Network funded by NHS England. The Health Foundation funded the health economics evaluation. The authors declare that the study management group has no competing financial, professional, or personal interests that might have influenced the study design or conduct.

A version of this article first appeared on Medscape UK.