Tag Archive for: Featured

Catherine Limperopoulos

Imaging reveals altered brain chemistry of babies with CHD

Researchers at Children’s National Hospital used magnetic resonance spectroscopy to find new biomarkers that reveal how congenital heart disease (CHD) changes an unborn baby’s brain chemistry, providing early clues that could someday guide treatment decisions for babies facing lifelong health challenges.

Published in the Journal of the American College of Cardiology, the findings detail the ways that heart defects disrupt metabolic processes in the developing brain, especially during the third trimester of pregnancy when babies grow exponentially.

“Over the past decade, our team has been at the forefront of developing safe and sophisticated ways to measure and monitor fetal brain health in the womb,” said Catherine Limperopoulos, Ph.D., director of the Center for Prenatal, Neonatal and Maternal Health Research at Children’s National. “By tapping into the power of advanced imaging, we were able to measure certain maturational components of the brain to find early biomarkers for newborns who are going to struggle immediately after birth.”

The fine print

In one of the largest cohorts of CHD patients assembled to date, researchers at Children’s National studied the developing brains of 221 healthy unborn babies and 112 with CHD using magnetic resonance spectroscopy, a noninvasive diagnostic test that can examine chemical changes in the brain. They found:

  • Those with CHD had higher levels of choline and lower levels of N-Acetyl aspartate-to-choline ratios compared to healthy babies, potentially representing disrupted brain development.
  • Babies with more complex CHD also had higher levels of cerebral lactate compared to babies with two ventricle CHD. Lactate, in particular, is a worrying signal of oxygen deprivation.

Specifically, elevated lactate levels were notably increased in babies with two types of heart defects: transposition of the great arteries, a birth defect in which the two main arteries carrying blood from the heart are switched in position, and single ventricle CHD, a birth defect causing one chamber to be smaller, underdeveloped or missing a valve. These critical heart defects generally require babies to undergo heart surgery not long after birth. The elevated lactate levels also were associated with an increased risk of death, highlighting the urgency needed for timely and effective interventions.

The research suggests that this type of imaging can provide a roadmap for further investigation and hope that medicine will someday be able to better plan for the care of these children immediately after their delivery. “With important clues about how a fetus is growing and developing, we can provide better care to help these children not only survive, but thrive, in the newborn period and beyond,” said Nickie Andescavage, M.D., Children’s National neonatologist and first author on the paper.

The big picture

CHD is the most common birth defect in the United States, affecting about 1% of all children born or roughly 40,000 babies each year. While these defects can be fatal, babies who survive are known to be at significantly higher risk of lifelong neurological deficits, including lower cognitive function, poor social interaction, inattention and impulsivity. The impact can also be felt in other organ systems because their hearts did not pump blood efficiently to support development.

Yet researchers are only beginning to pinpoint the biomarkers that can provide information about which babies are going to struggle most and require higher levels of care. The National Institutes of Health (NIH) and the District of Columbia Intellectual and Developmental Disabilities Research Center supported the research at Children’s National to improve this understanding.

“For many years we have known that the brains of children with severe heart problems do not always develop normally, but new research shows that abnormal function occurs already in the fetus,” said Kathleen N. Fenton, M.D., M.S., chief of the Advanced Technologies and Surgery Branch in the Division of Cardiovascular Sciences at the National Heart, Lung, and Blood Institute (NHLBI). “Understanding how the development and function of the brain is already different before a baby with a heart defect is born will help us to intervene with personal treatment as early as possible, perhaps even prenatally, and improve outcomes.”

Note: This research and content are solely the responsibility of the authors and do not necessarily represent the official views of the NIH. The NIH provided support for this research through NHLBI grant R01HL116585 and the Eunice Kennedy Shriver National Institute of Child Health and Human Development grant P50HD105328.

little girl with cancer

A destination for pediatric oncology care: Children’s National Hospital’s T-cell therapy trials

When children are diagnosed with pediatric cancer, most doctors are forced to reach for the same standard therapies that were available decades ago. Research oncologists at Children’s National Hospital are changing that with clinical trials that will hopefully train the body’s immune system – specifically its T cells – to fight the tumors.

Holly Meany, M.D., and her colleague Amy Hont, M.D., oncologists and research scientists at the Center for Cancer and Immunology Research, have put together a pair of clinical trials that are investigating two pathways for using T cells to go after solid tumors.

“At Children’s National, we have a novel immunotherapy to offer to patients with relapsed or refractory solid tumors,” said Meany, director of the Solid Tumor Program. “This is a patient population who has failed standard therapy, so new technologies and treatments are always needed in this group.”

Where we started

Meany’s trial laid the foundation. She began the center’s research using a patient’s own blood sample to develop a targeted therapy and evaluate the safety and efficacy of this approach. In her study, scientists isolated the T cells, grew millions in a lab and reinfused them into the patient. The cells were replicated in an environment that was rich in three proteins that are commonly found on the surface of solid tumor cancer cells.

“Our hope and hypothesis are that when we give the T cells back to the patient, those T cells circulate and hunt down the cancer cells that have the tumor proteins,” Meany said. “We are hoping to use the patient’s own immune system to attack the cancer in an enduring way.”

Where we are headed

Hont’s phase 1 trial, which is currently recruiting participants, builds on Meany’s work using a healthy donor whose T cells have not been impacted by chemotherapy or other treatments. The cells can be prepared, stored and readily available for patients who need them. They are also matched through specific proteins on the patient’s own cells to bolster their effectiveness. The participants in this trial have Wilms tumors, rhabdomyosarcoma, neurosarcoma, soft tissue sarcoma or neuroblastoma, but conventional therapies including chemotherapy, radiation or surgery were unable to fully treat the disease.

In both studies, Hont said that the T cells have been given in an outpatient setting with fewer side effects compared to other cancer treatments aimed at high-risk malignancies.

“This allows patients to really maintain a good quality of life during a particularly hard time,” Hont said. “Also, these T cells are designed to act in the body the way that our immune system acts in a physiologic way. This means patients typically don’t have the severe side effects that we think of with chemotherapy or other therapies.”

Children’s National leads the way

The team at Children’s National is one of the few in the country to offer this kind of T-cell therapy for solid tumors. “Immunotherapy has been challenging for this patient population because the tumors are adept at finding out ways to evade treatment,” Hont said. “Giving patients a chance to receive a targeted T-cell therapy, while also maintaining a high quality of life, is something that’s special here.”

illustration of a nuclesome

Researchers publish first-ever atlas of cancerous mutations in histones

Leading genetic researchers at Children’s National Hospital have published the first pan-cancer atlas of key mutations that can drive molecular changes leading to tumors, creating a roadmap that could lead to new treatments for brain tumors and other cancers.

The research – published in npj Genomic Medicine – presents the first-of-its-kind atlas of histone mutations across pediatric, adolescent/young adult and adult cancers. The novel genetic work offers a framework allowing specific cancers to be redefined in the context of changes in histones, which are essential proteins that provide the structural support for chromosomes.

The big picture

“One of the major challenges that we face every day with pediatric, aggressive tumors, including pediatric high-grade gliomas, is that these tumors grow fast. Doctors often have to give patients 9 to 12 months from diagnosis,” said Javed Nazarian, Ph.D., scientific director of the Brain Tumor Institute at Children’s National and principal investigator at the Center for Genetic Medicine Research. “Children’s National has put together a team of clinicians that are truly devoted to finding a therapy for pediatric high-grade gliomas and aggressive pediatric brain tumors. Our dedicated team empowers translational research, from bench to bedside and reverse translation.”

In 2023, the American Cancer Society estimates that 9,910 children under age 15 will be diagnosed with cancer, making it the second leading cause of death among children. Because of treatment advances, 85% will survive, but many will be left with lifelong disabilities from their treatment. Nazarian and his team believe that identifying the underlying molecular alterations leading to cancers will be essential to finding new therapies that extend life expectancies and preserve quality of life.

The fine print

Histones are essential cellular structures, which prevent DNA from getting tangled. Nazarian and other researchers are investigating whether errors in histones could lead to cancers, including high-grade gliomas and other particularly sinister tumors that can strike young children. By mapping the mutations of the histone-encoding genes, Nazarian and his team believe they can find the drivers of tumors in many pediatric and adult cancers. In studying more than 12,000 tumors for the pan-cancer atlas, they cataloged patient ages, survival outcomes and tumor locations to reveal important trends among different cancers.

Overall, the team found that 11% of tumors had somatic histone mutations, with the highest rates observed among chondrosarcoma, a type of bone cancer (67%); pediatric high-grade glioma, a type of cancer that attacks glial cells in the brain and spinal cord (>60%); and lymphoma, a category of cancers in the lymph system (>30%).

“I think one implication of our study is that we are looking at the epigenomic changes of these mutations in a new light,” Nazarian said. “These mutations are not just specific to a particular tumor type, but they are indeed across a large spectrum of cancer types, and they come in different flavors that could potentially show a new avenue for treatments.”

healthcare workers putting on PPE

“Mask up!” Soon, AI may be prompting healthcare workers

Researchers at Children’s National Hospital are embarking on an effort to deploy computer vision and artificial intelligence (AI) to ensure medical professionals appropriately use personal protective equipment (PPE). This strikingly common problem touches almost every medical specialty and setting.

With nearly $2.2 million in grants from the National Institutes of Health, the team is combining their expertise with information scientists at Drexel University and engineers at Rutgers University to build a system that will alert doctors, nurses and other medical professionals of mistakes in how they are wearing their PPE. The goal is to better protect healthcare workers (HCWs) from dangerous viruses and bacteria that they may encounter — an issue laid bare with the COVID-19 pandemic and PPE shortages.

“If any kind of healthcare setting says they don’t have a problem with PPE non-adherence, it’s because they’re not monitoring it,” said Randall Burd, M.D., Ph.D., division chief of Trauma and Burn Surgery at Children’s National and the principal investigator on the project. “We need to solve this problem, so the medical community will be prepared for the next potential disaster that we might face.”

The big picture

The World Health Organization has estimated that between 80,000 and 180,000 HCWs died globally from COVID-19 between January 2020 and May 2021 — an irreplaceable loss of life that created significant gaps in the pandemic response. Research has shown that HCWs had an 11-fold greater infection risk than the workers in other professions, and those who were not wearing appropriate PPE had a 1/3 higher infection risk, compared to peers who followed best practices.

Burd said the Centers for Disease Control and Prevention has recommended that hospitals task observers to stand in the corner with a clipboard to watch clinicians work and confirm that they are being mindful of their PPE. However, “that’s just not scalable,” he said. “You can’t always have someone watching, especially when you may have 50 people in and out of an operating room on a challenging case. On top of that, the observers are generally trained clinicians who could be filling other roles.”

What’s ahead

Bringing together the engineering talents at Drexel and Rutgers with the clinical and machine-learning expertise at Children’s National, the researchers plan to build a computer-vision system that will watch whether HCWs are properly wearing PPE such as gloves, masks, eyewear, gowns and shoe covers.

The team is contemplating how the system will alert HCWs to any errors and is considering haptic watch alerts and other types of immediate feedback. The emerging power of AI brings tremendous advantages over the current, human-driven systems, said Marius George Linguraru, D.Phil., M.A., M.Sc., the Connor Family Professor in Research and Innovation at Children’s National and principal investigator in the Sheikh Zayed Institute for Pediatric Surgical Innovation.

“Human observers only have one pair of eyes and may fatigue or get distracted,” Linguraru said. “Yet artificial intelligence, and computers in general, work without getting tired. We are excited to figure out how a computer can do this work – without ever blinking.”

Children’s National Hospital leads the way

Linguraru says that Children’s National and its partners make up the ideal team to tackle this vexing challenge because of their ability to assemble a multidisciplinary team of scientists and engineers who can work together with clinicians. “This is a dialogue,” he said. “A computer scientist, like myself, needs to understand the intricacies of complicated clinical realities, while a clinician needs to understand how AI can impact the practice of medicine. The team we are bringing together is intentional and poised to fix this problem.”

Bone Marrow–Derived MSC Treatment Mitigates Structural Abnormalities Resulting From CPB

Cell therapy mitigates neurological impacts of cardiac surgery in pre-clinical model

Differences of cortical fractional anisotropy between cardiopulmonary bypass and control (left), cardiopulmonary bypass + mesenchymal stromal cells and cardiopulmonary bypass (center), and 3 groups (right).

A pre-clinical study in the journal JACC: Basic to Translational Science shows that infusing bone marrow-derived mesenchymal stromal cells (BM-MSCs) during cardiac surgery provides both cellular-level neuroprotection for the developing brain and improvements in behavior alterations after (or resulting from) surgery.

What this means

According to lead author Nobuyuki Ishibashi, M.D., Oxidative and inflammatory stresses that are thought to be related to cardiopulmonary bypass cause prolonged microglia activation and cortical dysmaturation in the neonatal and infant brain. These issues are a known contributor to neurodevelopmental impairments in children with congenital heart disease.

This study found that, in a pre-clinical model, the innovative use of cardiopulmonary bypass to deliver these mesenchymal stromal cells minimizes microglial activation and neuronal apoptosis (cell death), with subsequent improvement of cortical dysmaturation and behavioral alteration after neonatal cardiac surgery.

Additionally, the authors note that further transcriptomic analyses provided a possible mechanism for the success: Exosome-derived miRNAs such as miR-21-5p, which may be key drivers of the suppressed apoptosis and STAT3-mediated microglial activation observed following BM-MSC infusion.

Why it matters

Significant neurological delay is emerging as one of the most important current challenges for children with congenital heart disease, yet few treatment options are currently available.

Applications of BM-MSC treatment will provide a new therapeutic paradigm for potential MSC-based therapies as a form of neuroprotection in children with congenital heart disease.

Children’s National Hospital leads the way

The Ishibashi lab is the first research team to demonstrate the safety, efficacy and utility of using cardiopulmonary bypass to deliver BM-MSCs with the goal of improving neurological impairments in children undergoing surgery for congenital heart disease. In addition to this pre-clinical research, a phase 1 clinical trial, MeDCaP, is underway at Children’s National.

Recent additional funding from the NIH will allow the team to identify molecular signatures of BM-MSC treatment and mine specific BM-MSC exosomes for unique cardiopulmonary bypass pathology to further increase understanding of precisely how and why this cell-based treatment shows success.

Marius Linguraru, D.Phil., M.A., M.Sc., a co-principal investigator for the project, presents

Children’s National joins team to use AI to expand health knowledge in Kenya

Marius Linguraru, D.Phil., M.A., M.Sc., a co-principal investigator for the project, presentsChildren’s National Hospital is joining a team of global health researchers to use large language models (LLMs) like ChatGPT to help Kenyan youth learn about their health and adopt lifestyles that may prevent cancer, diabetes and other non-communicable diseases.

The work, which is one of nearly 50 Grand Challenges Catalyzing Equitable Artificial Intelligence (AI) Use grants announced by the Bill & Melinda Gates Foundation, will harness the emerging power of AI to empower young people with information that they can carry through adulthood to reduce rates of unhealthy behaviors including physical inactivity, unhealthy diet and use of tobacco and alcohol.

“We are thrilled to be part of this effort to bring our AI expertise closer to young patients who would benefit dramatically from technology and health information,” said Marius George Linguraru, D.Phil., M.A., M.Sc., a co-principal investigator for the project, the Connor Family Professor in Research and Innovation at Children’s National and principal investigator in the Sheikh Zayed Institute for Pediatric Surgical Innovation. “Using generative AI, we will build an application to enhance the knowledge, attitudes and healthy habits of Kenyan youth and use this as a foundation to improve health inequities around the globe.”

Why it matters

A lower middle-income country located on the east coast of Sub-Saharan Africa, Kenya is home to 50 million people and one of the continent’s fastest-growing economies. English is one of Kenya’s official languages, and the country has been recognized as a technology leader in Africa, with 82% of Kenyans having phone connectivity. Taken together, these factors make the country an ideal location to deploy an LLM-based platform designed to improve health information and attitudes.

The Gates Foundation selected this project from more than 1,300 grant applications. The nearly 50 funded projects are aimed at supporting low- and middle-income countries to harness the power of AI for good and help countries participate in the AI development process. The project’s findings will contribute to building an evidence base for testing LLMs that can fill wide gaps in access and equitable use of these tools. Each of the grants provides an opportunity to mitigate challenges experienced by communities, researchers and governments.

What’s next

The project development will be led by the National Cancer Institute of Kenya, with Linguraru and other global experts advising the effort from Kenyan institutions and Stanford University. Researchers plan to enroll youth from universities, shopping malls, markets, sporting events and other high-traffic locations. The study will look at participants’ risk factors and how their attitudes toward healthier lifestyles changed after engaging with the new LLM platform.

“The team is thrilled to be selected as one of the nearly 50 most promising AI proposals in the Gates Foundation Grand Challenge competition, and we look forward to seeing how our work can benefit the health of Kenyan youth,” said Dr. Martin Mwangi, principal investigator for the project and head of the Cancer Prevention and Control Directorate at the National Cancer Institute of Kenya. “If successful, we hope to share this model and the expertise we gain to expand health equity and knowledge to other regions.”

newborn baby with bandaid on heel

JAMA Pediatrics editorial: A better approach for newborn screening

The medical community has an opportunity to update its approach to newborn screening (NBS) to be prepared for emerging technological advancements that will help diagnose children with rare diseases from their first weeks of life, according to an editorial from a leading Children’s National Hospital researcher published in JAMA Pediatrics.

“In health care, we are seeing ways in which we can identify more children who have rare diseases even earlier, in the newborn period, rather than waiting for children to develop symptoms or experience irreversible changes,” said Beth Tarini, M.D., M.S., M.B.A., associate director of the Center for Translational Research. “We have continued innovations in screening technology – with more on the way – that can be added to the screening programs overseen by all 50 states. Updating how we approach newborn screening presents an incredible opportunity for doctors and their patient-families.”

Why it matters

Newborn screening happens before the baby leaves the hospital, generally with a prick of the heel to take a small sample of blood to look for several dozen rare, debilitating disorders such as sickle cell disease, congenital hypothyroidism and cystic fibrosis. The current screening system has grown successfully for roughly 60 years and creates a network of state programs. Along the way, researchers have had extensive debates about which disorders to include, based on whether there are treatments and options for patients.

Dr. Tarini, a pediatrician who has done extensive research on NBS and related policies, said that the existing screening programs across all 50 states should be modernized, with federal research support and funding, to create a unified “learning newborn screening system” that derives information from the 4 million babies born each year and provides feedback to the medical community about best practices for babies who are diagnosed with a rare disease or at risk for developing one.

“A new approach will require resources and infrastructure, but as the technology advances, we should change our system to leverage the experience of doctors, patients, and NBS programs across the country,” Dr. Tarini said. “We have the will, the experience and the ability to transform the care for children with rare disease.”

Read the full editorial in JAMA Pediatrics.

girl being examined by doctor

Pediatric hospitals underutilize systems to get at social challenges impacting health

 

girl being examined by doctor

Physicians treating hospitalized children rarely use a coding system established in 2015 for flagging social challenges and stressors that may be impacting patient health, according to new research from Children’s National Hospital.

 

Physicians treating hospitalized children rarely use a coding system established in 2015 for flagging social challenges and stressors that may be impacting patient health, according to new research from Children’s National Hospital published in Pediatrics. Known as social determinants of health (SDOH), these factors include food insecurity, homelessness and adverse childhood events like substance abuse at home, and they can greatly affect a child’s well-being.

“We only get so many touchpoints with our patients,” said Kaitlyn McQuistion, M.D., pediatric hospital medicine fellow at Children’s National and co-lead author of the paper. “Our research shows the screening itself provides valuable insight into our patients, making identification an important part of inpatient and post-discharge care. With this information, doctors can help families tap into social workers, community supports and other resources aimed at providing a more holistic approach to child health.”

The big picture

The American Academy of Pediatrics advises screening for unmet social needs and using the codes laid out in the International Classification of Disease, 10th Revision (ICD-10), to flag risk factors for some of a hospital’s most vulnerable patients. In 2018, the American Hospital Association (AHA) clarified that the coding can be added by any healthcare professional accessing the chart, including nurses, social workers, case managers and physicians. The study looked at data from 4,000 hospitals in 48 states and the District of Columbia and found that use of the codes has remained low, even with the AHA’s clarification.

In practice, physicians know that screening and documentation are the essential first steps to help families find resources. Yet less than 2% of pediatric inpatients were coded as needing support. Most commonly, “problems related to upbringing” – a broad category indicating social needs and adverse childhood events – was used.

What’s ahead

Some providers are using these SDOH codes, or Z Codes, more often to address and improve health disparities. “Our mental health colleagues and those working with the Native American population, in particular, are using these tools more often to capture and disseminate critical information related to their patients’ social needs,” said Stacey Stokes, M.D., a hospitalist at Children’s National and co-lead author on the paper.  “Their innovative approaches to address and improve health disparities may provide learning opportunities for institutions.”

The researchers said that more work needs to be done to take these successes to other populations, find ways to incentivize this work in billing and ensure that providers have community resources to address the needs that they uncover.

“The ultimate goal of this work is to identify patients with social needs affecting their health and connect them with resources,” said Kavita Parikh, M.D., director for the Research Division of Hospital Medicine. “There are many avenues to explore to find ways to better utilize this tool, including language learning models, improved training and stronger community resources.”

smiling young family

Survey: Teen parents with support report greater well-being

smiling young family

Teen parents in Washington, D.C., reported better physical and mental health when they had more social support, a community and people who understood their problems.

Teen parents in Washington, D.C., reported better physical and mental health when they had more social support, a community and people who understood their problems, according to a survey conducted as part of a novel city-wide program to bring together resources for young families.

“This should come as no surprise. Young parents say they do better – and their children do better – when they have the material and social supports they need,” said Yael Smiley, M.D., a pediatrician at Children’s National Hospital and lead author of research in BMC Public Health. “This work is the start of a roadmap to help young parents thrive.”

The big picture

Each year in D.C., 300 babies are born to teens, and the rate of births among teens ages 15 to 17 is higher than the national average. Dr. Smiley is a leader in a federally funded coalition run by D.C. Primary Care Association (DCPCA) to help support young parents called the D.C. Network for Expectant and Parenting Teens (DC NEXT!). This city-wide network brings together community partners to support teen mothers, fathers and their children.

A key feature of the program is its context team, a group of teen parents who provide insights into their experiences as young parents. They advise about research and support for their peers, and they also build a community and develop a platform to speak up about their issues. The context team recruited other parents to complete a well-being survey in 2022, which will guide programming and resources for families. An added benefit for the parents who participate in the context team: The survey data showed that a key facet of well-being for the young parents was feeling “like you were part of a group of friends or community” and having “someone who understood your problems.”

“The context team provides the type of community that the research shows is essential to the well-being of teen parents,” said Dr. Smiley. “Not only are the context team members helping us understand what teen parents need, but they are also helping each other thrive as young parents.”

The fine print

Among the findings of the survey of 107 teen parents in D.C.:

  • The most used resources were supplemental food programs – with 35% receiving Supplemental Nutrition Assistance Program (SNAP) benefits, 24% receiving support from the Special Supplemental Nutrition Program for Women, Infants and Children (WIC) and 18% accessing food pantries.
  • Also popular were Temporary Assistance for Needy Families (TANF), housing assistance and childcare.
  • Surprisingly, the largest group of respondents, 37%, reported receiving no resources.

Having higher social support was correlated with higher ratings for physical health, mental health and well-being. “With this research, we have even more evidence underscoring the need to connect young parents with programs and resources that will improve their well-being,” Smiley said. “I can’t wait to see what the leaders on the context team and in the DC NEXT! program do in the next phases of our work.”

photo of muscle collagen

New Becker muscular dystrophy drug on the horizon

photo of muscle collagen

Muscular dystrophies are a collection of genetic disorders that affect boys and cause progressive loss of muscle strength and disability throughout childhood. They impact the protein dystrophin, and other proteins associated with it, which helps strengthen muscles and protect them from injury.

A new corticosteroid – vamorolone – improves symptoms of Becker muscular dystrophy (BMD) with fewer side effects than the off-label treatments currently offered to patients, according to new research from Children’s National Hospital published in iScience.

Currently, there are no drugs approved to treat BMD, an inherited disorder that causes progressive muscle weakness. In preclinical models, daily treatment with vamorolone improved muscle strength and structure with results comparable to prednisolone, which is sometimes prescribed to patients with BMD. Unlike prednisolone, vamorolone is not known to stunt growth, weaken bone and cause negative behaviors.

“Patients with muscular dystrophy can fall anywhere on the spectrum from asymptomatic to facing life-threatening cardiac complications,” said Christopher Heier, Ph.D., principal investigator at the Center for Genetic Medicine Research at Children’s National. “We are excited to have our eye on a drug that may help manage the disease progression, without all the harmful side effects of the steroids currently being offered.”

The big picture

Muscular dystrophies are a collection of genetic disorders that affect boys and cause progressive loss of muscle strength and disability throughout childhood. They impact the protein dystrophin, and other proteins associated with it, which helps strengthen muscles and protect them from injury.

The FDA has approved four drugs to help mitigate the impact of Duchenne muscular dystrophy (DMD), the most severe and most common form of the disease, with dozens more drugs in the research pipeline for that disease subtype. In some cases, these drugs convert DMD into BMD, which is less severe but still greatly affects the quality of life. As a result, the number of patients living with BMD is growing, yet only two drugs are being studied to treat the Becker form of the disease.

Why we’re excited

The Food and Drug Administration is nearing approval for vamorolone to treat DMD. Researchers including Nikki McCormack, Ph.D., a postdoctoral fellow at Children’s National, found it has an added characteristic that makes it particularly helpful to BMD. “Excitingly, by reducing inflammatory signaling in the muscle, we find vamorolone can actually help to correct the underlying dystrophin protein deficiency in BMD through a newly discovered RNA-targeting mechanism.”

Investigators at Children’s National have been interested in expanding vamorolone’s possible use to BMD. Their work builds upon research finished late last year, when they created the first preclinical model to study drugs that could treat BMD. The model provides tremendous hope for those suffering from BMD around the world.

“By creating a pre-clinical model to test possible treatments, we are creating hope for boys living with this life-changing disorder,” said Alyson Fiorillo, Ph.D., principal investigator at the Center for Genetic Medicine Research at Children’s National. “This model, and the drugs it will lead to, will revolutionize how we treat those children living with this disorder.”

x-ray of child with congenital heart disease

Cell therapy research for neuroprotection in congenital heart disease receives another $3.3 million from NIH

x-ray of child with congenital heart disease

Significant neurological delay is emerging as one of the most important current challenges for children with congenital heart disease, yet few treatment options are currently available.

The research lab of Nobuyuki Ishibashi, M.D., at Children’s National Hospital, recently received $3.3 million in additional funding for research into cell therapy for neuroprotection in children with congenital heart disease. The new support comes from the National Heart, Lung and Blood Institute (NHLBI) of the National Institutes of Health.

The research goal

The overarching goal of the award is to establish detailed molecular signatures from critical cell populations for tissue repair and regeneration at single cell resolution after bone marrow-derived mesenchymal stromal cell (BM-MSC) delivery. The team has shown cellular, structural and behavioral improvements in pre-clinical models after delivery of BM-MSCs through cardiopulmonary bypass for children with congenital heart disease. However, the mechanisms underlying the therapeutic action of BM-MSCs still remain largely unknown. This R01 renewal will address the key knowledge gap.

Why it matters

Significant neurological delay is emerging as one of the most important current challenges for children with congenital heart disease, yet few treatment options are currently available.

The Ishibashi lab has demonstrated the efficacy and utility of using cardiopulmonary bypass to deliver BM-MSCs  to improve neurological impairments in children undergoing surgery for congenital heart disease. Most notably, this included development of a phase 1 clinical trial, MeDCaP, at Children’s National.

The big picture

Together with the ongoing clinical trial established from the previous award, identifying molecular signatures of BM-MSC treatment and mining specific BM-MSC exosomes for unique cardiopulmonary bypass pathology will significantly improve understanding of this cell-based treatment. This work will also provide a new therapeutic paradigm for potential cell-free MSC-based therapies for neuroprotection in children with congenital heart disease.

Attendees at the inaugural symposium on AI in Pediatric Health and Rare Diseases

AI: The “single greatest tool” for improving access to pediatric healthcare

Attendees at the inaugural symposium on AI in Pediatric Health and Rare Diseases

The daylong event drew experts from the Food and Drug Administration, Pfizer, Oracle Health, NVIDIA, AWS Health and elsewhere to start building a community aimed at using data for the advancement of pediatric medicine.

The future of pediatric medicine holds the promise of artificial intelligence (AI) that can help diagnose rare diseases, provide roadmaps for safer surgeries, tap into predictive technologies to guide individual treatment plans and shrink the distance between patients in rural areas and specialty care providers.

These and dozens of other innovations were contemplated as scientists came together at the inaugural symposium on AI in Pediatric Health and Rare Diseases, hosted by Children’s National Hospital and the Fralin Biomedical Research Institute at Virginia Tech. The daylong event drew experts from the Food and Drug Administration, Pfizer, Oracle Health, NVIDIA, AWS Health and elsewhere to start building a community aimed at using data for the advancement of pediatric medicine.

“AI is the single greatest tool for improving equity and access to health care,” said symposium host Marius George Linguraru, D.Phil., M.A., M.Sc., principal investigator at the Sheikh Zayed Institute for Pediatric Surgical Innovation. “As a population, kids are vastly underrepresented in scientific research and resulting treatments, but pediatric specialties can use AI to provide medical care to kids more efficiently, more quickly and more effectively.”

What they’re saying

Scientists shared their progress in building digital twins to predict surgical outcomes, enhancing visualization to increase the precision of delicate interventions, establishing data command centers to anticipate risks for fragile patients and more. Over two dozen speakers shared their vision for the future of medicine, augmented by the power of AI:

  • Keynote speaker Subha Madhavan, Ph.D., vice president and head of AI and machine learning at Pfizer, discussed various use cases and the potential to bring drugs to market faster using real-world evidence and AI. She saw promise for pediatrics. “This is probably the most engaging mission: children’s health and rare diseases,” she said. “It’s hard to find another mission that’s as compelling.”
  • Brandon J. Nelson, Ph.D., staff fellow in the Division of Imaging, Diagnostics and Software Reliability at the Food and Drug Administration, shared ways AI will improve diagnostic imaging and reduce radiation exposure to patients, using more advanced image reconstruction and denoising techniques. “That is really our key take-home message,” he said. “We can get what … appear as higher dose images, but with less dose.”
  • Daniel Donoho, M.D., a neurosurgeon at Children’s National, introduced the audience to the potential of “Smart ORs”: operating rooms where systems can ingest surgery video and provide feedback and skill assessments. “We have to transform the art of surgery into a measurable and improvable scientific practice,” he said.
  • Debra Regier, M.D., chief of Genetics and Metabolism at Children’s National, discussed how AI could be used to diagnose and treat rare diseases by conducting deep dives into genetics and studying dysmorphisms in patients’ faces. Already, Children’s National has designed an app – mGene – that measures facial features and provides a risk score to help anyone in general practice determine if a child has a genetic condition. “The untrained eye can stay the untrained eye, and the family can continue to have faith in their provider,” she said.

What’s next

Linguraru and others stressed the need to design AI for kids, rather than borrow it from adults, to ensure medicine meets their unique needs. He noted that scientists will need to solve challenges, such as the lack of data inherent in rare pediatric disorders and the simple fact that children grow. “Children are not mini-adults,” Linguraru said. “There are big changes in a child’s life.”

The landscape will require thoughtfulness. Naren Ramakrishnan, Ph.D., director of the Sanghani Center for Artificial Intelligence & Analytics at Virginia Tech and symposium co-host, said that scientists are heading into an era with a new incarnation of public-private partnerships, but many questions remain about how data will be shared and organizations will connect. “It is not going to be business as usual, but what is this new business?” he asked.

U.S. News Badges

Children’s National Hospital ranked #5 in the nation on U.S. News & World Report’s Best Children’s Hospitals Honor Roll

U.S. News BadgesChildren’s National Hospital in Washington, D.C., was ranked #5 in the nation on the U.S. News & World Report 2023-24 Best Children’s Hospitals annual rankings. This marks the seventh straight year Children’s National has made the Honor Roll list. The Honor Roll is a distinction awarded to only 10 children’s hospitals nationwide.

For the thirteenth straight year, Children’s National also ranked in all 10 specialty services, with eight specialties ranked in the top 10 nationally. In addition, the hospital was ranked best in the Mid-Atlantic for neonatology, cancer, neurology and neurosurgery.

“Even from a team that is now a fixture on the list of the very best children’s hospitals in the nation, these results are phenomenal,” said Kurt Newman, M.D., president and chief executive officer of Children’s National. “It takes a ton of dedication and sacrifice to provide the best care anywhere and I could not be prouder of the team. Their commitment to excellence is in their DNA and will continue long after I retire as CEO later this month.”

“Congratulations to the entire Children’s National team on these truly incredible results. They leave me further humbled by the opportunity to lead this exceptional organization and contribute to its continued success,” said Michelle Riley-Brown, MHA, FACHE, who becomes the new president and CEO of Children’s National on July 1. “I am deeply committed to fostering a culture of collaboration, empowering our talented teams and charting a bold path forward to provide best in class pediatric care. Our focus will always remain on the kids.”

“I am incredibly proud of Kurt and the entire team. These rankings help families know that when they come to Children’s National, they’re receiving the best care available in the country,” said Horacio Rozanski, chair of the board of directors of Children’s National. “I’m confident that the organization’s next leader, Michelle Riley-Brown, will continue to ensure Children’s National is always a destination for excellent care.”

The annual rankings are the most comprehensive source of quality-related information on U.S. pediatric hospitals and recognizes the nation’s top 50 pediatric hospitals based on a scoring system developed by U.S. News.

“For 17 years, U.S. News has provided information to help parents of sick children and their doctors find the best children’s hospital to treat their illness or condition,” said Ben Harder, chief of health analysis and managing editor at U.S. News. “Children’s hospitals that are on the Honor Roll transcend in providing exceptional specialized care.”

The bulk of the score for each specialty service is based on quality and outcomes data. The process includes a survey of relevant specialists across the country, who are asked to list hospitals they believe provide the best care for patients with the most complex conditions.

The eight Children’s National specialty services that U.S. News ranked in the top 10 nationally are:

The other two specialties ranked among the top 50 were cardiology and heart surgery, and urology.

teen parents with baby

Community-wide program to support teen parents serves as a model for engagement

More than 500 adolescent mothers, caregivers and community members benefitted from a coordinated “collective impact” model to provide support aimed at addressing the litany of strains faced by teen parents, according to a case study published Wednesday in the journal Pediatrics.

Known as the District of Columbia Network for Parenting and Expectant Teens (DC NEXT), the model used well-tested pillars of community organization to provide services and care that bolstered the well-being of pregnant and expectant teens in the city. The case study found that the 3-year-old program, which included teen advisors to help guide the mission, could serve as a model in other areas with high rates of teen parents.

“There’s no system of care for teen parents in Washington, D.C., or really anywhere in our country,” said Yael Smiley, M.D., Children’s National Hospital pediatrician and the study’s lead author. “Our coalition came together to connect the resources and the people who care about young parents and their families to improve their health, their outcomes, their well-being, and set them up for success. We fuse representatives from healthcare, education and housing policy — people who care about creating the very best outcomes possible.”

The patient benefit

More than 140,000 teens became parents in 2021 in the United States. In Washington, D.C., more than 300 babies are born to teens each year, and the rate of births to young teens ages 15 to 17 is double the national average. These young parents often face barriers to childcare and education and poor birth outcomes, often stemming from a lack of access to prenatal care.

To address these obstacles, the network assembled a city-wide network in 2020 to follow the five pillars of an evidence-based “collective impact” model:

  • Create a common agenda
  • Design shared measurement systems
  • Host mutually reinforcing activities
  • Foster continuous communication
  • Rely on trusted backbone support

What’s unique

DC NEXT was housed at the District of Columbia Primary Care Association (DCPCA), which received the 3-year, $4.5 million federal grant and provided the leadership. At Children’s National, Dr. Smiley led a team that partnered with DCPCA and Howard University to direct a network of community clinics, nonprofits and other organizations whose mission was to support adolescent parents. Hundreds of client-facing staff members were trained to provide trauma-informed, human-centered care. DC NEXT also engaged directly with teen mothers through well-being surveys that led to improved access to essential programs, including resources for housing and food security. Over 550 young parents and caregivers have been impacted by the program.

The leadership quickly realized that the teen parents needed a voice and created a “context team” of paid teen advisors who provided insights into their unique experiences and needs as parents. They help set the agenda, choose program offerings and tailor communications to their peers.

“If the network can continue to grow and support young parents to achieve their health and well-being goals, the impact will be felt across generations,” said Dr. Smiley.

 

Germ cell tumor of testicle under microscopy

New research: Genes that drive testicular cancer identified

In the largest sequencing study to date on testicular cancer, researchers at Children’s National Hospital have identified genes that contribute to testicular germ cell tumors (TGCT), the most common cancer among young, white men.

The findings, published in European Urology, provide direction for future screening and treatment of this disease, which can strike during the teen years and often runs in families. While treatable when identified early, testicular cancer leads to infertility, mental health issues and sometimes death, making its identification crucial for young adults.

“Testicular cancer is really a young person’s disease,” said Louisa Pyle, M.D., Ph.D. , a pediatrician, medical geneticist and research geneticist at the Children’s National Rare Disease Institute. “Most folks who have testicular cancer are between the ages of 15 and 45. Even though testicular cancer is relatively rare in the cancer world, it results in the greatest number of years lost among all adult cancers.”

What we hope to discover

Dr. Pyle led a research team that included experts at the National Cancer Institute and the University of Pennsylvania to study families with multiple members diagnosed with testicular cancer. They used whole exome sequencing to identify variants in many genes that predisposed patients to TGCT. Their work suggests that multiple variants – inherited together – increased the risk for the disease and provides potential routes for drugs that could be used for prevention and treatment.

“We found many genes that help us understand how testicular cancer happens,” Dr. Pyle said. “Our hope is that we can use that to try to come up with better treatments or better ways to preserve fertility for people with testicular cancer or gonadal differences.”

The patient benefit

Testicular cancer most often strikes men of European ancestry. It is also more common among intersex patients and those with differences in sex development, which is a clinical and research focus for Dr. Pyle. Medically, these are children who have a change in the biological characteristics of sex, including their chromosomes, hormones, gonads or physical body parts.

By studying a more common version of testicular cancer, the team learned about the underlying genetics in a way that will benefit intersex patients.

“One of the things we do in medicine is study a common version of the rare thing,” Dr. Pyle said.  “Through this research, we learned that the same genes that cause intersex traits in some patients are also changed in subtle ways for people with testicular cancer. This is a way to study something that could improve care for those kids, by studying a group that has greater numbers.”

HIV virus

NIH awards to address detection and treatment of HIV in adolescents

HIV virus

The funding will improve prevention, detection and treatment of HIV in adolescents.

The Eunice Kennedy Shriver National Institute of Child Health and Human Development (NICHD), part of the National Institutes of Health, awarded over $8 million to improve prevention, detection and treatment of HIV in adolescents through leveraging digital health for population-based screening in the emergency department (ED). The grants were awarded to multiple children’s hospitals, including Children’s National Hospital.

The big picture

The studies will play an important role in looking at how to curtail the HIV epidemic.

“This is an opportunity to make an impact on adolescent health and mitigate disparities,” said Monika Goyal, M.D., M.S.C.E., associate chief of Emergency Medicine and one of the main principal investigators of the awarded team.

Adolescents and young adults (AYA) are disproportionately affected by HIV in the United States. Despite adolescents accounting for over 20% of new infections, this age group is the least likely to be tested for HIV, linked to care and achieve viral suppression when compared to their adult counterparts. Further, AYA also have low rates of HIV awareness and initiation of HIV Pre-Exposure Prophylaxis.

“There is an urgent need to expand HIV screening and prevention strategies to nontraditional healthcare settings, such as emergency departments, to reach those adolescents who would otherwise not receive preventive healthcare,” Dr. Goyal added.

Why does this work matter?

Although adolescents frequently use the ED for access to healthcare, the ED has been underutilized as a venue for HIV screening, detection and prevention.

“We hope to curtail the HIV epidemic in youth by expanding HIV prevention and linkage to care services through the emergency department,” Dr. Goyal says.

Footnote: The grants issued by the NICHD are NICHD R01 HD110321 and UM2 HD111102-ATN.

 

Children’s National Research & Innovation Campus

Research campus joins Global Network of Innovation Districts

Children’s National Research & Innovation Campus

At the RIC’s 12-acre campus in Northwest Washington, D.C., experts from Children’s National work alongside public and private partners in industry, universities, federal agencies, start-up companies and academic medical centers to find solutions to some of science’s most vexing challenges.

The Children’s National Research & Innovation Campus (RIC) has become the first science ecosystem dedicated to pediatric health to join a network of over three dozen innovation districts worldwide that integrate research space with sustainable communities to create models for urban work and living.

Known as the Global Network of Innovation Districts (GNID), the community was conceived to unlock the design of campuses like the RIC to create collaborations among highly trained professionals. At the RIC’s 12-acre campus in Northwest Washington, D.C., experts from Children’s National work alongside public and private partners in industry, universities, federal agencies, start-up companies and academic medical centers to find solutions to some of science’s most vexing challenges. The campus is surrounded by mass transit, open spaces, retail and housing, and it’s built on deep historic roots in the city as the former home of the Walter Reed Army Medical Center.

Kerstin Hildebrandt, vice president of research administration at the Children’s National Research Institute, said the team at the Research & Innovation Campus is excited to maximize its potential by joining this global network of economic drivers that are enhancing their communities and cities.

“We look forward to sharing our best practices, and we want to learn about how our national and international colleagues are tackling complex issues,” she said. “For example, we can learn how others are leveraging their assets to improve their communities and their response to health crises, climate change and other significant challenges.”

The GNID was launched in March of last year by The Global Institute on Innovation Districts (GIID), an international nonprofit focused on the advancement of innovation districts. With an initial group of 23 districts. GIID is now expanding the network to include approximately 20 additional districts that extend across Europe, North America, Latin America, Australia and Asia.

GIID’s Founder Julie Wagner said innovation districts have become a worldwide phenomenon. She said their leaders are recognizing that working and collaborating with their peers — from Melbourne to Medellin — is a powerful strategy to help these complex geographies leverage their assets in new ways.

“We are finding that innovation districts are willing to execute impactful strategies after holding highly curated exchanges with their peers,” Wagner said. “These are the places armed to solve some of the world’s most vexing challenges. From where I sit, we all need to give them as many tools as possible to help them get there.”

sick boy with malaria

New guidance to optimize blood sugar monitoring in cerebral malaria

A Children’s National Hospital research team based in Malawi pinpointed the optimal duration and frequency for monitoring the blood glucose in children with cerebral malaria, providing a roadmap to improve the treatment and outcomes for young patients diagnosed with the life-threatening disease.

Published in the American Journal of Tropical Medicine and Hygiene, the findings analyzed data from 1,674 pediatric cases to recommend the best schedule for periodic bedside point-of-care laboratory testing in children with cerebral malaria (CM). Currently, World Health Organization (WHO) guidelines state that blood glucose should be monitored in all forms of severe malaria, but they do not include advice on the timing or duration of the measurements.

Children’s National neurologist Douglas Postels, M.D., M.S., led a team of trainees from Howard University, The George Washington University, the University of Washington and Children’s National to collect and analyze patient data that led to the creation of evidence-based recommendations for glucose monitoring.

“If blood glucose in children with severe malaria is too low, the child is at high risk of death,” Dr. Postels said. “What we found in this research study is both interesting and important, and we hope our study results will help the WHO in creating evidence-based guidelines for blood glucose monitoring in children with cerebral malaria.”

The big picture

In 2021, 247 million people contracted malaria worldwide, killing some 619,000 primarily in Africa. Almost 80% were children under 5 years old, making it one of the most virulent pediatric diseases in the world. Many who survive experience significant neurologic, cognitive and behavioral morbidities.

Dr. Postels works at Queen Elizabeth Central Hospital in Blantyre, Malawi, caring for patients on the Pediatric Research Ward and conducting research aimed at improving outcomes. The clinical team works without access to many medical tools that are considered standard throughout more advanced economies. Yet this team has one of the lowest mortality rates for cerebral malaria across Africa, thanks to their ongoing research to better understand the pathophysiology of malaria and improve its treatment.

The challenges are immense: During COVID-19, they battled supply chain issues that frustrated repairs on an aging MRI scanner. After the second tropical cyclone struck in the last two years, Blantyre was left without power for a week and without water for a month.

“You can imagine trying to run a hospital with no water,” Dr. Postels said. “During Cyclone Freddy, it was raining like crazy, and people were collecting water in bins—anything they could collect it in — to use for handwashing, as well as trying to clean instruments and supplies.”

What they’re saying

Using evidence-based guidelines to optimize care becomes important in sub-Saharan Africa, where resources are scarce. Running laboratory-based blood studies frequently is an inefficient use of supplies and laboratory reagents. Results of point-of-care testing are also available more rapidly and at less cost than studies performed in hospital labs.

An accompanying editorial in the journal said the new research on glucose monitoring in cerebral malaria “provides valuable data that could help clinicians in resource-limited settings improve CM management with more efficient use of available resources.” The work is increasing calls for further study and updates to international guidelines.

The bottom line

According to the team’s analysis, blood glucose should be measured in children with CM on admission and every six hours for the first 24 hours. If all results in the first 24 hours are normal, clinicians can stop testing.  If any blood sugar levels in the first 24 hours are low, the patient’s blood glucose should be checked for another 24 hours.

“This testing strategy captures 100% of the children who have a glucose level of 2.2 mmol/L or less, the definition of hypoglycemia in severe malaria,” Dr. Postels said.  “We want to do enough, but not too much.”

The overarching goal for Dr. Postels and the trainees who join him in Blantyre is improving care.  “If we can help clinicians better care for children with cerebral malaria, then hopefully we can make a small contribution to decreasing the death rate and improve neurologic outcomes of the children who survive,” he said. “That’s my hope.”

Panel members at the NIAID symposium

CN-NIAID Symposium seeks ways to promote child health amid challenges

Panel members at the NIAID symposium

More than 30 million children seek emergency care each year, but 80 percent of these visits happen at hospitals that aren’t designed for pediatrics — a daunting figure during pandemics and other crises in healthcare. This considerable hurdle is one of many challenges that leaders in pediatric health came to discuss during a two-day symposium on promoting child health, hosted by Children’s National Hospital, the National Institute of Allergy and Infectious Diseases and the Pediatric Pandemic Network (PPN).

The symposium laid out a multitude of issues facing children and their doctors: growing mental health diagnoses, shrinking access to care in rural areas, asthma and eczema, winter respiratory surges and more.

Joelle Simpson, M.D., chief of emergency medicine at Children’s National and PPN principal investigator, said the network is drawing on expertise from 10 pediatric hospitals to ensure communities are better prepared for whatever challenges lie ahead, through training and support, collaboration among pediatric specialists, education on best practices and the promotion of equity and inclusion.

Built on a Health Resources and Services Administration grant, the network is focusing on four key areas: infectious disease and disease outbreaks, emergency and disaster management, mental and behavioral health, and health equity and community engagement. “This year, we know we are boiling the ocean as we come together,” Simpson said.

Miss the symposium? Check out the recordings available on YouTube, including the closing Q&A with many of the panelists and Sheryl Gay Stolberg, health policy reporter with the New York Times.

Day 1 of the 6th Annual Children’s National Hospital – NIAID Symposium

Day 2 of the 6th Annual Children’s National Hospital – NIAID Symposium

 

stressed pregnant mom

Pandemic stress reshapes the placentas of expectant moms

stressed pregnant mom

Elevated maternal stress during the COVID-19 pandemic changed the structure, texture and other qualities of the placenta in pregnant mothers.

Elevated maternal stress during the COVID-19 pandemic changed the structure, texture and other qualities of the placenta in pregnant mothers – a critical connection between mothers and their unborn babies – according to new research from the Developing Brain Institute at Children’s National Hospital.

Published in Scientific Reports, the findings spotlight the underappreciated link between the mental health of pregnant mothers and the health of the placenta – a critical organ that develops during pregnancy to nourish and protect babies. The long-term neurodevelopmental impact on their children is under investigation.

“During the pandemic, mothers were exposed to a litany of negative stressors including social distancing, fear of dying, financial insecurity and more,” said Catherine Limperopoulos, Ph.D., chief and director of the Developing Brain Institute, which led the research. “We now know that this vital organ was changed for many mothers, and it’s essential that we continue to investigate the impact this may have had on children who were born during this global public health crisis.”

The big picture

Dr. Limperopoulos’s team compared magnetic resonance imaging (MRI) of 165 women who were pregnant before March 2020 to 63 women who became pregnant during the pandemic. Those pregnant during the pandemic were not knowingly exposed to COVID-19, and they collectively scored significantly higher on questionnaires measuring stress and depression. They were recruited at Children’s National as part of a clinical trial aimed at reducing pregnant women’s elevated stress levels during the pandemic.

The placenta is a temporary organ that grows during pregnancy to provide oxygen, nutrients and immunological protection to babies, and its health is vital to the well-being of the developing fetus. The data showed key changes in how the placenta grew and developed among women pregnant during the pandemic, especially when compared to placental growth and development among women who were pregnant before the pandemic. Changes in placental development also were associated with the infant’s birth weight at delivery. Importantly, these changes seem to be connected to maternal stress and depression symptoms.

Taken as a whole, the findings suggest that the disturbances measured on placental development in the womb may influence the placenta’s ability to support fetal health and wellness. “We are continuing to follow up on these mother-baby dyads to determine the long-term functional significance of these placental changes in utero,” Dr. Limperopoulos said.

Studies have shown that the placenta adapts to negative changes in the maternal environment and mental health status, and disruptions in placental function impact infant brain development and children’s neurobehavior and temperament.

The patient benefit

Dr. Limperopoulos’s research studying childbirth amid the pandemic builds on her extensive work investigating the impact of maternal stress on unborn children, including its adverse effect on brain structure and biochemistry. She’s also working on treatments and interventions to better support new families. Her program, DC Mother-Baby Wellness, brings together community partners to provide wrap-around care to expectant and new moms with elevated scores for stress, anxiety and depression.

“When identified early, maternal stress is a modifiable risk factor that can be treated with psychotherapy, social support and other personalized, evidence-based interventions,” Dr. Limperopoulos said. “We look forward to continued research in this area to better understand the mechanisms behind these biological changes and the needs of mothers and children who are born during pandemics, natural disasters and other significantly stressful events.”