COVID Archives

Novel SARS-CoV-2 spike variant found in a newborn in Washington, D.C.

February 24, 2021

coronavirus molecules with DNA

Researchers at Children’s National Hospital found a new SARS-CoV-2 spike variant in a neonatal patient, according to a study that genetically sequenced the virus in 27 pediatric patients. The newborn presented with a viral load of 50,000 times more particles than the average patient, which led to identifying the N679S spike protein variant — the earliest known sample of this coronavirus lineage in the U.S. mid-Atlantic region.

While the paper is posted to the preprint server medRxiv and has not been peer-reviewed, it represents an early step towards establishing better surveillance of the COVID-19 pandemic. The new variant helps understand the process of viral adaptation, potentially informing treatment development and vaccine design for any viral variants in the future.

All genomes change and evolve. Additional viral variants are expected to emerge as more patients are infected. The data analysis recognized eight other cases in Washington, D.C., with the N679S variant, pointing toward a European origin due to the genetic similarity between of SARS-CoV-2 strains in the U.S. and United Kingdom.

“We need to sequence more cases to identify variants and stay ahead of the virus,” said Drew Michael, Ph.D., molecular geneticist at Children’s National and senior author of the study. “The United States sequences a tiny fraction of all cases, and because we are not sequencing enough, we are not aware of the variants in SARS-CoV-2 that may be spreading in our community.”

“Novel SARS-CoV-2 spike variant identified through viral genome sequencing of the pediatric Washington D.C. COVID-19 outbreak,” was published on the preprint server medRxiv. Additional authors include Jonathan LoTempio, Erik Billings, Kyah Draper, Christal Ralph, Mahdi Moshgriz, Nhat Duong, Jennifer Dien Bard, Xiaowu Gai, David Wessel, M.D., Roberta L. DeBiasi, M.D., M.S., Joseph M. Campos, Ph.D., Eric Vilain, M.D., Ph.D. and Meghan Delaney, D.O., M.P.H.

You can read the full preprint on medRxiv.

There’s still more to learn about COVID-19 and diabetes

February 8, 2021

boy checking his blood glucose

Researchers have learned a lot about COVID-19 over the past year and are continuing to learn and study more about this infection caused by the SARS-CoV-2 virus. There have been many questions about whether COVID-19 affects people with diabetes differently than those without and why this might occur.

Diabetes experts, like Brynn Marks, M.D., M.S.H.P.Ed., endocrinologist at Children’s National Hospital, have been studying the relationship between COVID-19 and diabetes, especially in the pediatric population. Dr. Marks tells us more about what we know so far and further research that needs to be done when it comes to COVID-19 and diabetes.

1. What do we know about COVID-19 and its effect on people with known diabetes?

The Centers for Disease Control and Prevention (CDC) currently lists type 2 diabetes (T2D) as a high risk condition for severe illness related to COVID-19 infection, while stating that adults with type 1 diabetes (T1D) might be at increased risk. A recent study from Vanderbilt University found that people with T1D and T2D were at approximately equal risk for complications of COVID-19 infection. As compared to adults without diabetes, adults with T1D and T2D were 3-4 times more likely to be hospitalized and to have greater illness severity. Given these comparable risks, both the American Diabetes Association and the Juvenile Diabetes Research Foundation are lobbying for adults with T1D to be given the same level or priority for COVID-19 vaccines as adults with T2D.

However, as pediatricians, we all know to be wary of extrapolating adult data to pediatrics. Children are less likely to be infected with COVID-19 and if they are, the clinical course is typically mild. To date, there have not been any studies of the impact of COVID-19 on youth with known T2D. Our clinical experience at Children’s National Hospital and reports from international multicenter studies indicate that youth with T1D are not at increased risk for hospitalization from COVID-19 infection. However, paralleling ongoing disparities in T1D care, African Americans with known T1D and COVID-19 infection were more likely to be develop diabetic ketoacidosis (DKA) than their White counterparts.

With the increased use of diabetes technologies, including continuous glucose monitors, insulin pumps and automated insulin delivery systems, diabetes care lends itself well to telemedicine. Studies from Italy during the period of lockdown showed better glycemic control among youth with T1D. Further studies are needed to better understand the implications of telehealth on diabetes care, particularly among those in rural areas with limited access to care.

Diabetes experts, like Brynn Marks, M.D., M.S.H.P.Ed., endocrinologist at Children’s National Hospital, have been studying the relationship between COVID-19 and diabetes, especially in the pediatric population.

2. What do we know about the impact of the COVID-19 pandemic on children with newly diagnosed diabetes?

Nationwide studies from Italy and Germany over the first few months of the pandemic found no increase in the incidence of pediatric T1D during the COVID-19 pandemic as compared to the year before; in fact, the Italian study found that fewer children were diagnosed with T1D during the pandemic. However, many centers are seeing higher rates of DKA and more severe DKA at diagnosis during the pandemic, possibly due to decreased primary care visits and/or fears of contracting COVID-19 while seeking care.

To date, no studies have been published exploring the incidence of T2D in youth. A group from Children’s National, including myself, Myrto Flokas, M.D., Abby Meyers, M.D., and Elizabeth Estrada, M.D., from the Division of Endocrinology and Randi Streisand, Ph.D., C.D.C.E.S. and Maureen Monaghan, Ph.D., C.D.C.E.S., from the Department of Psychology and Behavioral Health, are gathering data to compare the incidence of T1D and T2D during the pandemic as compared to the year before.

3. Can COVID-19 cause diabetes to develop?

This has been area of great interest, but the jury is still out. The SARS-CoV-2 virus, which causes COVID-19 infection, binds the angiotensin-converting enzyme 2 (ACE2) receptor which is located in many tissues throughout the body, including the pancreas. SARS-CoV-2 has been shown to infect pancreatic tissue leading to impaired glucose stimulated insulin secretion. Although the SARS-CoV-2 virus could plausibly cause diabetes, assessment has been complicated by many confounders that could be contributing to hyperglycemia in addition to or rather than the virus itself. Stress-induced hyperglycemia from acute illness, the use of high dose steroids to treat COVID-19 infection, and the disproportionate rates of infection among those already at high risk for T2D, as well as weight gain due to changes in day-to-day life as a result of social distancing precautions are all likely contributing factors.

Acting FCC chairwoman Rosenworcel highlights telehealth for pediatrics

February 3, 2021

FCC Chairwoman Jessica Rosenworcel visited Children’s National Hospital

Acting FCC Chairwoman Jessica Rosenworcel visited Children’s National Hospital yesterday to highlight the importance of connectivity in healthcare and learn more about how the hospital is using telehealth to serve families during the pandemic. Children’s National Hospital in Washington, D.C., has provided pediatric care for 150 years and is among the nation’s top 10 children’s hospitals. Last year, Children’s National, an academic pediatric health system, saw more than 219,000 children from the capital region and from across the country and around the world.

“So much more can be done to connect children and their families — in both urban and rural parts of the country — to the care they need not only to survive, but to thrive,” said Rosenworcel. “Telehealth can help bridge that gap by bringing specialty care available only in hospital centers to smaller clinics and even the home where problems can be addressed quickly, before they prove life threatening. I was encouraged by the creative work that Children’s National Hospital is doing to address the unique health needs of children from all backgrounds especially during these challenging times.”

Acting Chairwoman Rosenworcel was joined by her colleague FCC Commissioner Nathan Simington for a tour of the hospital, where they met with Shireen Atabaki, M.D., M.P.H., associate medical director of Telehealth, Emergency Medicine physician and program director for the COVID-19 Telehealth Program at Children’s National Hospital. The visit also included a demo of a telehealth robot by Ricardo Munoz, M.D., Cardiac Critical Care Medicine chief, and Alejandro Jose Lopez-Magallon, M.D., medical director of Telemedicine, both at Children’s National.

“The pandemic catapulted telehealth as a tool for the future of health care delivery,” said Dr. Atabaki. “With the support of the FCC, Children’s National is excited to introduce a robot and other state-of-the-art digital health technology to support provider-to-patient pediatric care and expert consultations in our hospital’s emergency departments and across our region. These innovations in telemedicine will facilitate access to specialized expertise and care of COVID-19 patients.”

In May 2020, Children’s National Hospital was approved for funding as part of the FCC’s COVID-19 Telehealth Program and established a regional pediatric telehealth consortium. This will enable the hospital to expand its telehealth platform to support 15 health care sites in the region serving children and young adults, providing care to children with COVID-19, as well as those who are medically vulnerable.

Acting Chairwoman Rosenworcel is committed to closing the digital divide and sees access to telehealth care services — especially for underserved and marginalized communities — as a top priority. To learn more about telehealth efforts at the FCC, including the COVID-19 Telehealth Program and the Connected Care Pilot Program, visit: https://www.fcc.gov/connecting-americans-health-care.

Top AI models unveiled in COVID-19 challenge to improve lung diagnostics

January 12, 2021

Coronavirus and lungs with world map in the background

The top 10 results have been unveiled in the first-of-its-kind COVID-19 Lung CT Lesion Segmentation Grand Challenge, a groundbreaking research competition focused on developing artificial intelligence (AI) models to help in the visualization and measurement of COVID specific lesions in the lungs of infected patients, potentially facilitating more timely and patient-specific medical interventions.

Attracting more than 1,000 global participants, the competition was presented by the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National Hospital in collaboration with leading AI technology company NVIDIA and the National Institutes of Health (NIH). The competition’s AI models utilized a multi-institutional, multi-national data set provided by public datasets from The Cancer Imaging Archive (National Cancer Institute), NIH and the University of Arkansas, that originated from patients of different ages, genders and with variable disease severity. NVIDIA provided GPUs to the top five winners as prizes, as well as supported the selection and judging process.

“Improving COVID-19 treatment starts with a clearer understanding of the patient’s disease state. However, a prior lack of global data collaboration limited clinicians in their ability to quickly and effectively understand disease severity across both adult and pediatric patients,” says Marius George Linguraru, D.Phil., M.A., M.Sc., principal investigator at the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National, who led the Grand Challenge initiative. “By harnessing the power of AI through quantitative imaging and machine learning, these discoveries are helping clinicians better understand COVID-19 disease severity and potentially stratify and triage into appropriate treatment protocols at different stages of the disease.”

The top 10 AI algorithms were identified from a highly competitive field of participants who tested the data in November and December 2020. The results were unveiled on Jan. 11, 2021, in a virtual symposium, hosted by Children’s National, that featured presentations from top teams, event organizers and clinicians.

Developers of the 10 top AI models from the COVID-19 Lung CT Lesion Segmentation Grand Challenge are:

Shishuai Hu, et al. Northwestern Polytechnical University, China. “Semi-supervised Method for COVID-19 Lung CT Lesion Segmentation”
Fabian Isensee, et al. German Cancer Research Center, Germany. “nnU-Net for Covid Segmentation”
Claire Tang, Lynbrook High School, USA. “Automated Ensemble Modeling for COVID-19 CT Lesion Segmentation”
Qinji Yu, et al. Shanghai JiaoTong University, China. “COVID-19-20 Lesion Segmentation Based on nnUNet”
Andreas Husch, et al. University of Luxembourg, Luxembourg. “Leveraging State-of-the-Art Architectures by Enriching Training Information – a case study”
Tong Zheng, et al. Nagoya University, Japan. “Fully-automated COVID-19-20 Segmentation”
Vitali Liauchuk. United Institute of Informatics Problems (UIIP), Belarus. “Semi-3D CNN with ImageNet Pretrain for Segmentation of COVID Lesions on CT”
Ziqi Zhou, et al. Shenzhen University, China. “Automated Chest CT Image Segmentation of COVID-19 with 3D Unet-based Framework”
Jan Hendrik Moltz, et al. Fraunhofer Institute for Digital Medicine MEVIS, Germany. “Segmentation of COVID-19 Lung Lesions in CT Using nnU-Net”
Bruno Oliveira, et al. 2Ai – Polytechnic Institute of Cávado and Ave, Portugal. “Automatic COVID-19 Detection and Segmentation from Lung Computed Tomography (CT) Images Using 3D Cascade U-net”

Linguraru added that, in addition to an award for the top five AI models, these winning algorithms are now available to partner with clinical institutions across the globe to further evaluate how these quantitative imaging and machine learning methods may potentially impact global public health.

“Quality annotations are a limiting factor in the development of useful AI models,” said Mona Flores, M.D., global head of Medical AI, NVIDIA. “Using the NVIDIA COVID lesion segmentation model available on our NGC software hub, we were able to quickly label the NIH dataset, allowing radiologists to do precise annotations in record time.”

“I applaud the computer science, data science and image processing global academic community for rapidly teaming up to combine multi-disciplinary expertise towards development of potential automated and multi-parametric tools to better study and address the myriad of unmet clinical needs created by the pandemic,” said Bradford Wood, M.D., director, NIH Center for Interventional Oncology and chief, Interventional Radiology Section, NIH Clinical Center. “Thank you to each team for locking arms towards a common cause that unites the scientific community in these challenging times.”

COVID testing results highlight importance of understanding virus in children

December 21, 2020

A new study looking at the results of testing children for COVID-19 through a Children’s National Hospital community-based testing site found that one in four patients had a positive test.

A new study looking at the results of testing children for COVID-19 through a Children’s National Hospital community-based testing site found that one in four patients had a positive test. The findings, reported online Dec. 18 in The Journal of Pediatrics, reinforce that children and young adults are impacted by the virus more than originally believed, and that the continued understanding of their role in transmitting COVID-19 is essential to getting the virus under control.

Of the 1,445 patients tested at the specimen collection site for SARS-CoV-2 virus between March 21 and May 16, 2020, the median age was 8 years old, and more than 34% of positive patients were Hispanic, followed by non-Hispanic Black and non-Hispanic white. The daily positivity rate increased over the study period, from 5.4% during the first week to a peak of 47.4% in May. Children and adolescents were referred to the testing site because of risk of exposure or mild symptoms.

“We knew that community-based testing sites were key in minimizing exposure risk to other patients and health care workers, preserving PPE, centralizing specimen collection services, mitigating acute care site overcrowding and informing our community of the burden caused by this disease,” says Joelle Simpson, M.D., medical director of Emergency Preparedness at Children’s National.

Drive-through/walk-up testing sites outside of a traditional acute care setting have emerged around the world to meet the need for testing mildly ill or asymptomatic individuals. In March, Children’s National Hospital opened a drive-up/walk-up location — one of the first exclusively pediatric testing sites for the virus in the U.S. — where primary care doctors in the Washington, D.C., region could refer young patients for COVID-19 specimen collection and testing.

“At first, children were not the target of testing initiatives, but it is clear that making testing available to pediatric patients early was a very important part of the pandemic response,” says Meghan Delaney, D.O., M.P.H., chief of Pathology and Laboratory Medicine at Children’s National. “Not only can children get severe disease, they can be part of positive clusters with the adults they live with. The knowledge we have gained by testing many thousands of children over the pandemic has provided key information.”

Compared with non-Hispanic white children and after adjustments for age, sex and distance of residence from specimen collection site, minority children had a higher likelihood of infection.

“We wanted to identify the features of children tested at this site who did not require acute medical care and be able to compare demographic and clinical differences between patients who tested positive and negative for COVID-19,” says Dr. Simpson.

Patients with COVID-19 exposure and symptoms were more likely to have a positive test than patients without symptoms. This supports contact tracing for symptomatic cases and testing as an important tool in detecting and containing community spread, according to the study’s findings. Although most patients were referred because they lived with a family member with high risk for exposure or infection, this was not associated with positive test results.

“The impact of this virus is broad and affects planning for children, especially as schools and childcare centers work to reopen,” Dr. Simpson says. “In order to guide the development of measures to control the ongoing pandemic, we need better understand the transmission potential of these mildly symptomatic or well children and young adults.”

Research partnerships and capacity building in the time of COVID-19

November 24, 2020

global connectedness concept illustration

“COVID infection anywhere in the world is COVID infection everywhere in the world,” said John Nkengasong, M.Sc., Ph.D., director of the Africa Centers for Disease Control (Africa CDC), during his remarks on the importance of shared science, innovation and diplomacy. Leading experts in global health met virtually on November 13, 2020, to discuss updates in the COVID-19 crisis and lessons learned in Africa. Children’s National Hospital, along with the George Washington University (GW) Institute for Africa Studies and the CNRS-EpiDaPo Lab, sponsored the half-day conference that captured the interest of international attendees committed to examining how best to expand strong and enduring partnerships between U.S. and African scientists, health professionals and research institutes to meet global challenges.

Trust, transparency and communication were common themes of expert panelists that included Elizabeth Bukusi, Ph.D., M.P.H., Kenya Medical Research Institute; Maryam DeLoffre, Ph.D., GW Humanitarian Action Initiative; Peter Kilmarx, M.D., National Institutes of Health (NIH) Fogarty International Center; Enock Motavu, Ph.D., Makerere University in Uganda; Jennifer Troyer, Ph.D., Human Health and Heredity in Africa Program (H3Africa) at NIH; Désiré Tshala-Katumbay, M.D., Ph.D., National Institute of Biomedical Research in Kinshasa; Eric Vilain, M.D., Ph.D., Center for Genetic Medicine Research at Children’s National, with Institute for African Studies Director Jennifer Cooke, and Jonathan LoTempio Jr and D’Andre Spencer of Children’s National as moderators and co-conveners. Read more about the panelists.

The keynote speaker, Nkengasong, updated the group on the massive efforts in bending the COVID-19 disease curve on the African continent which at present has two million cases and 46,000 deaths. This is fewer than many other regions, and Nkengasong attributes this in part to health systems strengthening and capacity building that already occurred with past pandemics like Ebola. He stressed the importance of focusing on the “4 Ps” — population, pathogen, politics and policy — in fighting the pandemic, and the need to ensure that citizens trust their leaders and the public health measures they advance. New endeavors by the Africa CDC include the Pathogen Genomic Initiative, which will help inform research and responses to COVID-19 and other emergent disease threats, and the African COVID-19 Vaccine Development and Access Strategy, which aims to ensure widespread access, delivery and uptake of effective vaccines across Africa. Africa CDC is surging to hotspots as lockdowns ease or shift, and is empowering universities to invest in proactive and, which has helped with the active response success. “Rising tides raise all boats in the sea,” said Nkengasong. He went on to say that there is great power in coordination and cooperation, and science diplomacy and technology are critical to winning the novel coronavirus war.

In a panel on research partnerships, speakers Motavu, Tshala-Katumbay, and Vilain emphasized the global benefits of scientific collaborations in Africa. Africa contains more human genetic variation than any other region of the world, and capturing that diversity in global understanding of the human genome — which is still heavily skewed toward individuals of European ancestry — will be a major factor in global medical advances of the future. And research into relatively localized diseases can lead to breakthroughs in broader understanding on connections between climate variation, environment, nutrition and child health. “The simplistic, localized, nationalist, way of doing science is over,” said Tshala-Katumbay, “and there is no way to go back.” The discipline of science diplomacy will take time for people to grasp, he added, “but it will be crucial for the future generation of scientists to go back.”

A recurring conference theme was that collaboration between countries is crucial for development of better care. Kilmarx told the event participants that in 2019, the National Institutes of Health supported some 1,668 collaborations with African research institutions. Investments in capacity building have yielded impressive results, and today some of Africa’s foremost leaders in science research and public health have received NIH training and support, stating: “If you plant acorns over the decades, you have some mighty oaks.” Bukusi, once such NIH trainee, now is engaged in training a new generation of African researchers and U.S. researchers based in Africa and expanding research partnerships at the Kenya Medical Research Institute.

Troyer showed the successes of the Human Heredity and Health in Africa Initiative, a large consortium that supports a pan-continental network of laboratories that aims to determine disease susceptibility and drug responses. Finally, DeLoffre underscored the need for long-term investments and the value of building local capacities to respond to current crises and anticipate future challenges.

Overall, there was optimism that innovative coalitions are a long-term strength in fighting pandemics and promoting reciprocal learning that will last after the crisis. Science can be a neutral platform that, combined with diplomacy and technology, builds bridges between peoples.

Steady rates of patient satisfaction, reimbursement for cardiac telehealth during COVID-19

November 16, 2020

a telehealth video visit with a patient family

In the first two weeks of COVID-19’s major impact on the U.S., Children’s National Hospital moved most of its subspecialty in-person day-to-day clinics to virtual care. Children’s National Heart Institute was one of the first divisions to offer telehealth visits — in part because the team was an early adopter of telehealth in cardiology for both physician-to-physician consultations and direct-to-patient care, and stood poised to widely implement it.

A poster presentation at the American Heart Association Scientific Sessions 2020 quantified how the rapid transition to direct-to-consumer telehealth services impacted families with children who have congenital heart disease. The findings were presented by first author Kristine Mehrtens, M.S., B.S.N., R.N., C.P.N., clinical manager for the Heart Institute’s Ambulatory Services.

The team found that though in-person cardiology visits decreased during the COVID-19 pandemic, direct-to-patient telehealth visits were able to partially compensate for the sudden drop.

Additionally, payer reimbursement rates for these direct-to-consumer telehealth visits were similar to in-person clinic visits.

”This is exciting as prior to COVID-19 we have seen a lower reimbursement rates for these cardiology direct-to-consumer telehealth visits compared to in-person cardiology clinic visits,” said Ashraf S. Harahsheh, M.D., a pediatric cardiologist at Children’s National Hospital who has utilized direct-to-consumer telehealth visits since 2016 and is a senior author on the new study.

Patient satisfaction scores for care providers, including the likelihood of recommending a care provider from Children’s National Hospital, was the same for telehealth follow-up visits as it was for in-person clinic visits before the pandemic.

“As a multidisciplinary team, we agreed that diagnostic studies such as echocardiograms were important to include with follow-up visits,” says Mehrtens. “Together we developed a strategy to ensure we could meet the needs of the patients and also safely conduct in-person visits when necessary.”

Why is this important?

The pandemic and the resulting temporary halt to in-person, non-urgent/emergent visits earlier this year put the most vulnerable people with congenital heart disease at high risk for complications or worsening of their existing heart disease because they are unable to follow the recommended schedule for follow-ups.

The readiness of the Children’s Heart Institute team to quickly move to a telehealth platform successfully bridged the gap between in-person visits for some patients, allowing cardiology surveillance to continue safely.

“I am proud of our team of physicians and advanced care providers,” Harahsheh concludes. “We went from three providers (8%) pre-COVID 19 to 31 (79%) providers offering direct-to-consumer telehealth visits during the pandemic.”

What’s next?

Building on previous, smaller studies of telehealth before the pandemic began, the team will continue to conduct research to assess the safety and efficacy of these telehealth visits over time. The increase in patients who are continuing to see their providers for routine follow-ups via telehealth will allow a larger sample for effective study of this care model.

American Heart Association Scientific Sessions 2020
Impact of Telemedicine on Pediatric Cardiac Center’s Ambulatory Response to the 2019 Novel Coronavirus Disease (covid-19) Pandemic
P1692
9:00am – 10:00am
Fri, Nov 13 (CST)

Read additional news stories about cardiology telehealth:

Single institution study finds high rates of cardiac complications in MIS-C

November 13, 2020

At this year’s AHA Scientific Sessions, cardiologists from Children’s National Hospital presented a poster about an interesting finding in children with MIS-C.

During the height of the pandemic, researchers at Children’s National Hospital discovered that as many as one half of children diagnosed with multisystem inflammatory disease in children (MIS-C) at the hospital developed cardiac complications including coronary artery abnormalities, even when diagnosed and treated promptly.

The data was shared as part of a poster presentation at the American Heart Association Scientific Sessions in November 2020. Though analysis was limited to the data from one institution’s confirmed MIS-C cases, the findings are significant enough to warrant further study.

Interestingly, the authors noted that the high rate of cardiac complications far exceeds the rate of similar issues in children with Kawasaki disease — another pediatric inflammatory syndrome that shares many common symptoms with MIS-C. The two are so similar that immunomodulation therapies successfully deployed in children with MIS-C were based on those developed to treat Kawasaki disease.

Knowledge of common cardiac complications in Kawasaki disease also flagged the need for routine echocardiograms in patients with MIS-C, which helped identify the higher rates of cardiac complications seen in the MIS-C patient population.

“This finding, however, is another data point that shows how MIS-C and Kawasaki disease have some specific differences needing further study,” says Ashraf Harahsheh, M.D., a pediatric cardiologist at Children’s National Hospital who studies Kawasaki disease and the first author on the new study.

“Previous clinical advancements made in Kawasaki disease set the stage for our response to MIS-C early on,” he said. ”Now we also need to understand MIS-C as its own syndrome so we can better address what we are seeing in this patient population,” he says.

While most of the cardiac findings resolved during follow up, long-term studies are needed to determine if the cardiac abnormalities are associated with major cardiac events later.

“This work will help inform the community of the importance of diagnosing children with MIS-C promptly and following clinical guidelines for necessary tests and treatments once MIS-C is diagnosed,” Harahsheh concludes.

Next, the research team plans to take a deep dive into patient demographics as well as findings from clinical, laboratory and electrocardiogram data for children who developed cardiac complications with MIS-C. The goal will be to refine treatment algorithms and potentially identify a subgroup of patients who may require different or more intense therapy to prevent cardiac complications.

American Heart Association Scientific Sessions 2020 Poster Session
Cardiac Complications of SARS CoV-2 Associated Multi-System Inflammatory Syndrome in Children (MIS-C)
P1306
9:00am – 10:00am
Fri, Nov 13 (CST)

Children’s National joins international AI COVID-19 initiative

October 28, 2020

Children’s National Hospital is the first pediatric partner to join an international initiative led by leading technology firm NVIDIA and Massachusetts General Brigham Hospital, focused on creating solutions through machine and deep learning to benefit COVID-19 healthcare outcomes.

Children’s National Hospital is the first pediatric partner to join an international initiative led by leading technology firm NVIDIA and Massachusetts General Brigham Hospital, focused on creating solutions through machine and deep learning to benefit COVID-19 healthcare outcomes. The initiative, known as EXAM (EMR CXR AI Model) is the largest and most diverse federated learning enterprise, comprised of 20 leading hospitals from around the globe.

Marius George Linguraru, D.Phil., M.A., M.Sc., principal investigator at the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National Hospital, noted that one of the core goals of the initiative is to create a platform which brings resources together, from a variety of leading institutions, to advance the care of COVID-19 patients across the board, including children.

“Children’s National Hospital is proud to be the first pediatric partner joining the world’s leading healthcare institutions in this collaboration to advance global health,” says Linguraru. “We are currently living in a time where rapid access to this kind of global data has never been more important — we need solutions that work fast and are effective. That is not possible without this degree of collaboration and we look forward to continuing this important work with our partners to address one of the most significant healthcare challenges in our lifetime.”

A recent systematic review and meta-analysis from Children’s National Hospital became another core contribution to understanding how children are impacted by COVID-19. Led by Linguraru and accepted to be published in Pediatric Pulmonology, it offers the first comprehensive summary of the findings of various studies published thus far that describe COVID-19 lung imaging data across the pediatric population.

The review examined articles based on chest CT imaging in 1,026 pediatric patients diagnosed with COVID-19, and concluded that chest CT manifestations in those patients could potentially be used to prompt intervention across the pediatric population.

“Children’s National Hospital is proud to be the first pediatric partner joining the world’s leading healthcare institutions in this collaboration to advance global health,” says Marius George Linguraru, D.Phil., M.A., M.Sc.

“Until this point, pediatric COVID-19 studies have largely been restricted to case reports and small case series, which have prevented the identification of any specific pediatric lung disease patterns in COVID-19 patients,” says Linguraru. “Not only did this review help identify the common patterns in the lungs of pediatric patients presenting COVID-19 symptoms, which are distinct from the signs of other viral respiratory infections in children, it also provided insight into the differences between children and adults with COVID-19.”

Earlier this month, NVIDIA announced the EXAM initiative had – in just 20 days – developed an artificial intelligence (AI) model to determine whether a patient demonstrating COVID-19 symptoms in an emergency room would require supplemental oxygen hours – even days – after the initial exam. This data ultimately aids physicians in determining the proper level of care for patients, including potential ICU placement.

The EXAM initiative achieved a machine learning model offering precise prediction for the level of oxygen incoming patients would require.

In addition to Children’s National Hospital, other participants included Mass Gen Brigham and its affiliated hospitals in Boston; NIHR Cambridge Biomedical Research Centre; The Self-Defense Forces Central Hospital in Tokyo; National Taiwan University MeDA Lab and MAHC and Taiwan National Health Insurance Administration; Tri-Service General Hospital in Taiwan; Kyungpook National University Hospital in South Korea; Faculty of Medicine, Chulalongkorn University in Thailand; Diagnosticos da America SA in Brazil; University of California, San Francisco; VA San Diego; University of Toronto; National Institutes of Health in Bethesda, Maryland; University of Wisconsin-Madison School of Medicine and Public Health; Memorial Sloan Kettering Cancer Center in New York; and Mount Sinai Health System in New York.

Study shows COVID-19 antibodies and virus can coexist

October 27, 2020

Children’s National study shows that children can have COVID-19 antibodies and the virus in their system simultaneously.

With many questions remaining around how children spread COVID-19, Children’s National Hospital researchers set out to improve the understanding of how long it takes pediatric patients with the virus to clear it from their systems, and at what point they start to make antibodies that work against the coronavirus. The study, published Sept. 3 in the Journal of Pediatrics, finds that the virus and antibodies can coexist in young patients.

“With most viruses, when you start to detect antibodies, you won’t detect the virus anymore. But with COVID-19, we’re seeing both,” says Burak Bahar, M.D., lead author of the study and director of Laboratory Informatics at Children’s National. “This means children still have the potential to transmit the virus even if antibodies are detected.”

She adds that the next phase of research will be to test if the virus that is present alongside the antibodies can be transmitted to other people. It also remains unknown if antibodies correlate with immunity, and how long antibodies and potential protection from reinfection last.

The study also assessed the timing of viral clearance and immunologic response. It found the median time from viral positivity to negativity, when the virus can no longer be detected, was 25 days. The median time to seropositivity, or the presence of antibodies in the blood, was 18 days, while the median time to reach adequate levels of neutralizing antibodies was 36 days. Neutralizing antibodies are important in potentially protecting a person from re-infection of the same virus.

This study used a retrospective analysis of 6,369 children tested for SARS-CoV-2, the virus that causes COVID-19, and 215 patients who underwent antibody testing at Children’s National between March 13, 2020, and June 21, 2020. Out of the 215 patients, 33 had co-testing for both the virus and antibodies during their disease course. Nine of the 33 showed presence of antibodies in their blood while also later testing positive for the virus.

Also of note, researchers found patients 6 through 15 years old took a longer time to clear the virus (median of 32 days) compared to patients 16 through 22 years old (median of 18 days). Females in the 6-15 age group also took longer to clear the virus than males (median of 44 days for females compared to median of 25.5 days for males).

Although there is emerging data regarding this timing in adults with COVID-19, there is far less data when it comes to the pediatric population. The findings being gathered by Children’s National researchers and scientists around the world are critical to helping understand the unique impact on children and their role in viral transmission.

“The takeaway here is that we can’t let our guard down just because a child has antibodies or is no longer showing symptoms,” says Dr. Bahar. “The continued role of good hygiene and social distancing remains critical.”

Other researchers who contributed to this study include Cyril Jacquot, M.D.; Delores Y Mo,M.D.; Roberta L DeBiasi, M.D.; Joseph Campos, Ph.D.; and Meghan Delaney, D.O.

COVID-19: First comprehensive review of pediatric lung imaging features

October 19, 2020

A systematic review and meta-analysis by Children’s National Hospital researchers, published in Pediatric Pulmonology, provides the first comprehensive review of the findings of published studies describing COVID-19 lung imaging data in children.

The number COVID-19 studies focused on children have been small and with limited data. This has prevented the identification of specific pediatric lung disease patterns in COVID-19. Although children make up around 9.5% of COVID-19 infections, less than 2% of the literature on the virus, its symptoms and effects, have focused on kids.

A systematic review and meta-analysis by Children’s National Hospital researchers, published in Pediatric Pulmonology, provides the first comprehensive review of the findings of published studies describing COVID-19 lung imaging data in children. The analysis concludes that chest CT manifestations in children with COVID‐19 could potentially prompt intervention in the pediatric population.

Marius George Linguraru, D.Phil., M.A., M.Sc., principal investigator in the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National, discusses the importance of this work.

Q: What findings stand out to you?

A: We found that more than a third of children with COVID-19 had normal imaging. The lung imaging findings in these children were overall less frequent and less severe than in adult patients, but they were also more heterogeneous than in adults. Importantly, children with COVID-19 were three times more likely to have a normal exam than adults.

Several common lung imaging findings reported in adults were extremely rare or not found in the pediatric studies. These discoveries, and other recent reports in this space, support the fact that children’s symptoms may be less obvious than adults or even absent, but they still carry the virus and may be at risk for serious and life-threatening illness.

Marius George Linguraru, D.Phil., M.A., M.Sc., principal investigator in the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National.

Q: How will the findings of this study benefit pediatric care?

A: In our study, we showed how the health of the lungs of these children is impacted. Our results from data from 1,026 children (from newborns to 18 year old) with COVID-19 present chest manifestations that could potentially prompt informed intervention and better recovery.

Another conclusion of our study is that the abnormalities reported on the chest scans of children infected with COVID-19 are distinct from the typical lung images seen during other viral respiratory infections in the pediatric population. This is important for preparing for the cold and flu season.

Q: Why was this review important to our understanding of how COVID-19 impacts children?

A: This is the first systematic review and meta-analysis focused on the manifestation of the COVID-19 infection in the lungs of children. Our study, and others from colleagues at Children’s National, helps lead the efforts on elucidating how the pandemic affects the health of children.

Though children were initially thought to be less susceptible to infection, the data has made it clear that many children are at high risk for hospitalization and severe health complications. Although there are similarities between how children and adults are affected by the pandemic, there are also critical differences.

Given the limited knowledge in the manifestation of COVID-19 in children, with children susceptible to infection and hospitalization, and with children returning to school, continued efforts to understand the impact of COVID-19 on young patients is critically important. Understanding how children fare through the pandemic is the foundation of discovering better ways to take care of young patients and their health.

You can find the full study published in Pediatric Pulmonology. Learn more about the Sheikh Zayed Institute for Pediatric Surgical Innovation at Children’s National.

Higher COVID-19 rates seen in minority socioeconomically disadvantaged children

September 10, 2020

Minority and socioeconomically disadvantaged children have significantly higher rates of COVID-19 infection, a new study led by Children’s National Hospital researchers shows.

Minority and socioeconomically disadvantaged children have significantly higher rates of COVID-19 infection, a new study led by Children’s National Hospital researchers shows. These findings, reported online August 5 in Pediatrics, parallel similar health disparities for the novel coronavirus that have been found in adults, the authors state.

COVID-19, an infection caused by the novel coronavirus SARS-CoV-2 that emerged in late 2019, has infected more than 4.5 million Americans, including tens of thousands of children. Early in the pandemic, studies highlighted significant disparities in the rates of infection in the U.S., with minorities and socioeconomically disadvantaged adults bearing much higher burdens of infection. However, says Monika Goyal, M.D., M.S.C.E, a pediatric emergency medicine specialist and associate division chief in the Division of Emergency Medicine at Children’s National whose research focuses on health disparities, it’s been unclear whether these disproportionate rates of infection also extend to youth.

To investigate this question, she and her colleagues looked to data collected between March 21, 2020, and April 28, 2020, from a drive-through/walk-up COVID-19 testing site affiliated with Children’s National — one of the first exclusively pediatric testing sites for the virus in the U.S. To access this free testing site, funded by philanthropic support, patients between the ages of 0 and 22 years needed to meet specific criteria: mild symptoms and either known exposure, high-risk status, family member with high-risk status or required testing for work. Physicians referred patients through an online portal that collected basic demographic information, reported symptoms and the reason for referral.

When Dr. Goyal and her colleagues analyzed the data from the first 1,000 patients tested at this site, they found that infection rates differed dramatically among different racial and ethnic groups. While about 7% of non-Hispanic white children were positive for COVID-19, about 30% of non-Hispanic Black and 46% of Hispanic children were positive.

“You’re going from about one in 10 non-Hispanic white children to one in three non-Hispanic Black children and one in two Hispanic children. It’s striking,” says Dr. Goyal.

Using data from the American Families Survey, which uses five-year census estimates derived from home address to estimate median family income, the researchers separated the group of 1,000 patients into estimated family income quartiles. They found marked disparities in COVID-19 positivity rates by income levels: while those in the highest quartile had infection rates of about 9%, about 38% of those in the lowest quartile were infected.

There were additional disparities in exposure status, Dr. Goyal adds. Of the 10% of patients who reported known exposure to COVID-19, about 11% of these were non-Hispanic white. However, non-Hispanic Black children were triple this number.

Although these numbers show clear disparities in COVID-19 infection rates, the authors are now trying to understand why these disparities occur and how they can be mitigated.

“Some possible reasons may be socioeconomic factors that increase exposure, differences in access to health care and resources, as well as structural racism,” says Dr. Goyal.

She adds that Children’s National is working to address those factors that might increase risk for COVID-19 infection and poor outcomes by helping to identify unmet needs — such as food and/or housing insecurity — and steer patients toward resources when patients receive their test results.

“As clinicians and researchers at Children’s National, we pride ourselves on not only being a top-tier research institution that provides cutting-edge care to children, but by being a hospital that cares about the community we serve,” says Denice Cora-Bramble, M.D., M.B.A., chief medical officer of Ambulatory and Community Health Services at Children’s National and the research study’s senior author. “There’s still so much work to be done to achieve health equity for children.”

Other Children’s National researchers who contributed to this study include Joelle N. Simpson, M.D.; Meleah D. Boyle, M.P.H, Gia M. Badolato, M.P.H; Meghan Delaney, D.O,. M.P.H.; and Robert McCarter Jr., Sc.D.

Study finds children can become seriously ill with COVID-19

May 14, 2020

Despite early reports suggesting COVID-19 does not seriously impact children, a new study shows that children who contract COVID-19 can become very ill.

In contrast to the prevailing view that the novel coronavirus known as COVID-19 does not seriously impact children, a new study finds that children who contract the virus can become very ill—many of them critically so, according to physician researchers at Children’s National Hospital. Their results, published in the Journal of Pediatrics and among the first reports from a U.S. institution caring for children and young adults, shows differences in the characteristics of children who recovered at home, were hospitalized, or who required life support measures. These findings highlight the spectrum of illness in children, and could help doctors and parents better predict which pediatric patients are more likely to become severely ill as a consequence of the virus.

In late 2019, researchers identified a new coronavirus, known as SARS-CoV-2, which causes COVID-19. As the disease spread around the world, the vast majority of reports suggested that elderly patients bear the vast majority of the disease burden and that children are at less risk for either infection or severe disease. However, study leader Roberta DeBiasi, M.D., M.S., chief of the Division of Infectious Diseases at Children’s National, states that she and her colleagues began noticing an influx of children coming to the hospital for evaluation of a range of symptoms starting in mid-March 2020, who were tested and determined to be infected with COVID-19. One quarter of these children required hospitalization or life support.

“It was very apparent to us within the first several weeks of the epidemic that this was a very different situation than our colleagues on the West Coast of the US had described as their experience just weeks before,” DeBiasi says. “Right away, we knew that it was important for us to not only care for these sick children, but to examine the factors causing severe disease, and warn others who provide medical care to children.”

To better understand this phenomenon, she and her colleagues examined the medical records of symptomatic children and young adults who sought treatment at Children’s National for COVID-19 between March 15 and April 30, 2020. Each of these 177 children tested positive using a rapid assay to detect SARS-CoV-2 performed at the hospital. The researchers gathered data on each patient, including demographic details such as age and sex; their symptoms; whether they had any underlying medical conditions; and whether these patients were non-hospitalized, hospitalized, or required critical care.

The results of their analysis show that there was about an even split of male and female patients who tested positive for COVID-19 at Children’s National during this time period. About 25% of these patients required hospitalization. Of those hospitalized, about 75% weren’t considered critically ill and about 25% required life support measures. These included supplemental oxygen delivered by intubation and mechanical ventilation, BiPAP, or high-flow nasal cannula – all treatments that support breathing – as well as other support measures such as dialysis, blood pressure support and medications to treat infection as well as inflammation.

Although patients who were hospitalized spanned the entire age range, more than half of them were either under a year old or more than 15 years old. The children and young adults over 15 years of age, Dr. DeBiasi explains, were more likely to require critical care.

About 39% of all COVID-19 patients had underlying medical conditions, including asthma, which has been highlighted as a risk factor for worse outcomes with this infection. However, DeBiasi says, although underlying conditions were more common as a whole in hospitalized patients – present in about two thirds of hospitalized and 80% of critically ill – asthma didn’t increase the risk of hospitalization or critical illness. On the other hand, children with underlying neurological conditions, such as cerebral palsy, microcephaly, or global developmental delay, as well as those with underlying cardiac, hematologic, or oncologic conditions were significantly more likely to require hospitalization.

In addition, although early reports of COVID-19 suggested that fever and respiratory symptoms are hallmarks of this infection, Dr. DeBiasi and her colleagues found that fewer than half of patients had both concurrently. Those with mild, upper respiratory symptoms, such as runny nose, congestion, and cough were less likely to end up hospitalized than those with more severe respiratory symptoms, such as shortness of breath. The frequency of other symptoms including diarrhea, chest pain and loss of sense of smell or taste was similar among hospitalized and non-hospitalized patients.

Dr. DeBiasi notes that although other East Coast hospitals are anecdotally reporting similar upticks in pediatric COVID-19 patients who become seriously ill, it’s currently unclear what factors might account for differences from the less frequent and milder pediatric illness on the West Coast. Some factors might include a higher East Coast population density, differences between the genetic, racial and ethnic makeup of the two populations, or differences between the viral strains circulating in both regions (an Asian strain on the West Coast, and a European strain on the East Coast).

Regardless, she says, the good news is that the more researchers learn about this viral illness, the better prepared parents, medical personnel and hospitals will be to deal with this ongoing threat.

Other researchers from Children’s National who participated in this study include Xiaoyan Song, Ph.D., M.Sc., Meghan Delaney, D.O., M.P.H., Michael Bell, M.D. , Karen Smith, M.D., Jay Pershad, M.D., Emily Ansusinha, Andrea Hahn, M.D., M.S., Rana Hamdy, M.D., M.P.H., MSCE, Nada Harik, M.D., Benjamin Hanisch, M.D., Barbara Jantausch, M.D., Adeline Koay, MBBS, MS.c., Robin Steinhorn, Kurt Newman, M.D. and David Wessel, M.D.

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