Tag Archive for: pediatric cardiac surgery

Doctors performing cardiac surgery at Children's National Hospital

Socioeconomic disadvantage associated with higher long-term mortality after heart surgery

Doctors performing cardiac surgery at Children's National Hospital

Children who had heart surgery and come from less advantaged neighborhoods in the Washington, D.C., region are much more likely to die in the long term than those from neighborhoods with more wealth and opportunity.

Children who had heart surgery and come from less advantaged neighborhoods in the Washington, D.C., region are much more likely to die in the long term than those from neighborhoods with more wealth and opportunity. The finding was part of a presentation, Socioeconomic Disadvantage Is Associated with Higher Long-Term Mortality After Cardiac Surgery, presented by Jennifer Klein, MD, MPH, cardiologist at Children’s National Hospital, during the Society of Thoracic Surgeons (STS) Annual Meeting in Los Angeles.

What is it?

Clinical and demographic data were collected for 2,546 people who underwent corrective surgery for congenital heart disease over a 15-year period (2007-2022) in a single-center retrospective analysis. Using the Child Opportunity Index (COI), an index that uses environmental/health, educational, and socioeconomic domains to assess patients’ neighborhoods, the two lowest COI quintile neighborhoods were designated as “disadvantaged” while the two highest COI quintile neighborhoods were designated as “advantaged.” Multivariable mixed model analyses were conducted to understand the factors associated with overall mortality.

The research showed that patients from disadvantaged neighborhoods suffered in a great proportion both overall mortality [n=168 (13.6%) vs 66 (8.4%), p< 0.001] and major complications [n=168 (13.6%) vs 81 (10.3%), p< 0.001]. The positive association between neighborhood disadvantage and long-term mortality was maintained in stepwise logistic regression multivariable analysis after controlling for differences between surgical complexity and other clinical risk factors.

What it means

“Previous research has shown disparities like this,” says Dr. Klein. “What’s significant here is that the disparity for children from disadvantaged neighborhoods grows over time. That means corrective interventions won’t be implemented in the operating room or within the first 30 days after surgery. They need to happen in a cardiologist’s office, in the schools, and in the community long after a child goes home from the hospital.”

The findings from this particular study are also noteworthy as they are the first to include significantly greater numbers of patients who are more likely to experience this risk (48.5% of the study group). Previous research has sought to look at this research question but analysis may have been skewed by an over-representation of socioeconomically advantaged patients.

What’s next

Differences in mortality risk continue to grow greater as more time passes, the authors note, indicating that the disparity is not a product of surgical technique or disparities in care delivery at the time of surgery.

Instead, their outcomes are being influenced by factors outside the operating room. This opens a new avenue of research focused on identifying the “why.”

“What happens after they go home?” Klein asks. “Can they access medications? Do they come back for follow-up appointments? Can they afford food?”

Read the abstract, Socioceconomic Disadvantage Is Associated with Higher Long-Term Mortality After Cardiac Surgery, which was presented during a speed session at the STS Annual Meeting. A full manuscript will be published soon.

Team performing cardiac surgery at Children's National

Long-term outcomes are key measure of CHD care quality and safety

Short-term outcomes data may be one benchmark of the quality and safety found in a pediatric cardiac surgery program, but according to the team at Children’s National Hospital, it shouldn’t be the sole factor in how referring physicians and families make decisions about where to seek care.

Instead, physicians and families need more information about what to expect for a child’s entire lifespan. To meet this need, the Division of Cardiac Surgery at Children’s National has launched the Children’s National Cardiac Outcomes Registry (CNCOR), a first-of-its-kind database that captures outcomes from 15-plus years of congenital heart surgical repairs for specific congenital heart conditions.

What it means

Today, most pediatric heart programs publicly share their outcomes based on benchmarks defined by the Society for Thoracic Surgeons (STS). For cardiac surgery, the data points are focused on the short-term outcomes for various procedures, ranging from 30 days to one year after surgery.

However, as surgical procedures have been refined and multi-disciplinary teams continually improve their knowledge of how to treat children with these congenital heart defects, more children with these conditions are living far beyond those time frames. One metric, operative mortality for “index cases” defined by the STS (excluding VAD and ECMO), measures how many children having heart surgery with the cardiopulmonary bypass die during surgery or within the 30 days after surgery.

Recently at Children’s National, the Cardiac Surgery, Cardiac Intensive Care Unit, Cardiology and Cardiac Anesthesia teams had a remarkable year with zero operative mortality, or no deaths, for the types of cases included in this benchmark. While it’s impossible to expect zero mortality to continue indefinitely when caring for children with the most severe and complex heart conditions — as is the case at Children’s National — the national average operative mortality for these procedures is closer to 3%.

Yves d’Udekem, M.D., Ph.D., chief of Cardiac Surgery at Children’s National, says that this achievement is not one he expected to “ever see in his lifetime” and is a testament to the teams’ dedication to providing the highest quality care every day. However, he also noted, “Achieving such impressive statistics for short-term measures has never been, is not, and will never be my objective. We also need to look beyond it. What happens to this patient 5, 10 or 15 years down the line? That’s what we want to know.”

Children’s National leads the way

The CNCOR collects long-term data from 20 years of cardiac surgical procedures at Children’s National. This data has allowed Children’s National to create a series of charts that show predicted long-term outcomes for specific congenital heart conditions.

The charts are now available in a new Cardiac Surgery Long-Term Outcomes section on the website, organized by specific types of congenital heart disease, including:

  • Tetralogy of Fallot
  • Aortic arch coarctation
  • Atrioventricular septal defects
  • Transposition of the great arteries

For most conditions, data is available showing long-term mortality as well as re-operation or re-intervention rates for children who underwent these procedures at Children’s National, going as far back as the year 2000. Eventually, the database might expand to include indicators such as exercise capacity and neurological outcomes.

What’s next

The launch of the CNCOR is the start of efforts by the team at Children’s National to provide what Dr. d’Udekem calls “proper” benchmarking based on the whole life of a patient rather than a single event in time.

If more institutions collect and report this data and make it available, patients, families and practitioners who refer to cardiac surgery will have a true lifetime perspective of what a surgical procedure at a specific institution may mean for a child.

illustration of diseased liver

Dominant Fontan approach may be associated with increased liver cirrhosis

illustration of diseased liver

The amount of long-term liver cirrhosis in children with single ventricle congenital heart disease who underwent the Fontan procedure may depend on which surgical approach is chosen by the pediatric cardiac surgeon.

The amount of long-term liver cirrhosis in children with single ventricle congenital heart disease who underwent the Fontan procedure may depend on which surgical approach is chosen by the pediatric cardiac surgeon, according to researchers at Children’s National Hospital who presented their findings this week at the American Association of Thoracic Surgery annual meeting. The full manuscript appears in the Journal of Thoracic and Cardiovascular Surgery.

What this means

Senior study author Yves d’Udekem, M.D., Ph.D., chief of Cardiac Surgery at Children’s National, says that the vast majority of Fontan procedures in the United States use an extracardiac conduit approach to redirect blood flow to the lungs. However, a retrospective review of 332 patients who underwent the Fontan at Children’s National showed that children who received the extracardiac Fontan may experience liver cirrhosis at a rate of 30% after 15 years compared to the lateral tunnel approach which showed 15-year liver cirrhosis at a significantly lower rate of 4.4%. The lateral tunnel was a well-established method pioneered in Europe by pediatric cardiac surgeon Marc de Leval in the 1980s. This technique lost traction in the field and people started in the 1990s to perform a variation of the technique called the extracardiac Fontan because it was thought that it would be giving more favorable flows and protect the patients against rhythm issues. Thirty years later, these predictions did not reveal themselves to be true.

“Since the 1990s, the vast majority of Fontan procedures in the United States are performed creating an extracardiac conduit rather than the lateral tunnel,” says Dr. d’Udekem. “But what we see when we follow long-term outcomes of these children is a consequence not reported before.”

Children’s National leads the way

Dr. d’Udekem and the research team, including presenter and first author Eiri Kisamori, M.D., a cardiac surgery fellow at Children’s National, are the first to report these findings based on reviews of 15-year outcome data. These retrospective reviews of long-term outcomes are a critical tool to inform and improve clinical approaches with the goal of optimizing the long-term quality of life for children born with these critical congenital conditions.

What’s next

While more research is needed, the authors hypothesize that the size of the conduit for blood flow may be the culprit for higher levels of liver damage. For children who have already received an extracardiac Fontan, Dr. d’Udekem says that widening their existing conduit in a reoperation may successfully improve blood flow to the liver. For future procedures, he notes that in his own practice, he now uses the lateral tunnel approach whenever possible.

Read the study: Alarming rate of liver cirrhosis after the small conduit Extracardiac Fontan. A comparative analysis with the Lateral Tunnel.

Illustration showing phthalate exposure during cardiopulmonary bypass

Pediatric heart patients exposed to plastic chemicals during cardiopulmonary bypass

Children undergoing cardiac surgery using cardiopulmonary bypass are exposed to high levels of plastic chemical additives called phthalates, including DEHP, according to the largest single center study to date to measure this exposure. The findings were authored by a multi-disciplinary group from Children’s National Hospital and appear in the journal Transfusion.

What is it?

Di(2-ethylhexyl) phthalate (DEHP) is one of the most commonly used plasticizers in polyvinyl chloride (PVC) plastics, making up 40% to 80% of the finished weight of medical-grade tubing and blood storage bags. The study’s primary goal was to quantify three aspects of pediatric cardiac surgery: the phthalate exposure with and without cardiopulmonary bypass (the heart and lung machine), the time it takes for phthalates to clear after surgery and any correlations between higher phthalate exposures and postoperative complications.

The authors suggested that, like infants in the NICU exposed to various medical equipment, children on cardiopulmonary bypass are likely exposed to significant DEHP levels from blood products, bypass circuit components, and endotracheal tubes, potentially impacting postoperative outcomes.

Why does it matter?

Despite daily phthalate exposure in the general population, studies link high phthalate levels to developmental delays in language and motor skills. Phthalates accumulate in the hearts of infants undergoing umbilical catheterizations or blood transfusions. This is worrisome as even low-dose environmental exposure correlates with higher risks of overall and cardiovascular-related mortality.

Knowing these risks exist, it is important to understand these exposures, what causes them and implement measures to mitigate them, safeguarding medically fragile children. Regulatory actions in NICUs have reduced DEHP-containing plastics, yet no such efforts have been made for children on cardiopulmonary bypass.

The study also found some associations between postoperative complications and higher levels of phthalates, especially in younger children. They write, “it is plausible that a combination for risk factors (young age, longer CPB duration, increased phthalate exposure) collectively contribute to these complications.” More research is needed to understand the association and the impact of phthalates on how children recover from surgery.

Children’s National leads the way

The study involved 110 pediatric patients undergoing 122 cardiac surgeries at Children’s National, marking the largest single-center investigation into phthalate exposures in cardiac surgery. Led by a multidisciplinary team, including divisions of Transfusion Medicine and Cardiac Surgery, along with researchers from the Sheikh Zayed Institute for Pediatric Surgical Innovation, the study’s findings are some of the first to quantify that pediatric cardiac surgery patients are exposed to greater levels of these phthalate chemicals from plastic medical products, with increasing exposure the longer they require cardiopulmonary bypass. This is especially true when the bypass uses a prime based on red blood cells.

What’s next

The teams are exploring strategies to minimize chemical exposures, such as:

  • Using freshly donated blood products (made possible at Children’s National by the unique on-site Blood Donor Center).
  • Storing blood in DEHP-free storage bags prior to use when possible.
  • Increasing use of cell-saver equipment, which washes red blood cell products and removes extracellular contaminants.
  • At Children’s National, cardiac surgeons prioritize the use of recently collected, washed red blood cells in cardiopulmonary bypass cases, especially for younger and/or smaller patients.

“These exposures will affect patients undergoing pediatric cardiac surgery at any institution,” says first author Devon Guerrelli, M.S. “But we hope understanding what’s causing the exposures will help operating rooms around the United States take immediate small steps, like using washed red blood cells, to begin mitigating these exposures as soon as possible.”

Senior author Nikki Posnack, Ph.D., adds that the implications of phthalates on health are tremendous. “Studies have shown that heightened phthalate exposure increases your risk of all-cause and cardiovascular mortality,” she said. “Now is the time to support research efforts to understand how plastic chemicals damage the heart and to investigate strategies to reduce their overall impact.”

Read the study:
Prevalence and clinical implications of heightened plastic chemical exposure in pediatric patients undergoing cardiopulmonary bypass

Cayden rides a horse with her father

Earliest hybrid HLHS heart surgery kids thrive 5 years later

Cayden rides a horse with her father

Five years ago, Cayden was born 6 weeks early weighing less than four pounds and at risk of dying from her critical congenital heart disease. Today, she’s a happy five-year-old who is excited to start kindergarten this fall.

Five years ago, Cayden was born 6 weeks early weighing less than four pounds and at risk of dying from her critical congenital heart disease. Today, she’s a happy five-year-old who is excited to start kindergarten this fall.

Early diagnosis of her hypoplastic right ventricle, double inlet left ventricle and critical coarctation of the aorta allowed for the team at Children’s National Hospital to create a careful plan for safe delivery and to offer an innovative hybrid HLHS surgical approach at the hospital within 24 hours after she was born.

“Truly in my own heart, I do not believe Cayden would be alive today without Dr. Yerebakan and those early hybrid procedures,” says her mom, Casey.

Can Yerebakan, M.D., associate chief of Cardiac Surgery, and Joshua Kanter, M.D., director of Interventional Cardiology, have performed more of these hybrid procedures together at Children’s National than just about anywhere else in the United States. And they are the only team in the country using a special toothpick-sized flexible stent in the ductus. They worked directly with the U.S. Food and Drug Administration to bring these right-sized tiny stents to the U.S. from Europe.

Cayden was one of the first babies to benefit from this cutting-edge approach. In the five-plus years since then, more than 50 high-risk babies, some born as early as 28 weeks of gestation or weighing as little as 2 pounds at birth, have also benefited from hybrid procedures. Soon, the team will start performing hybrid procedures with catheters only, preventing an incision in the chest. This will allow the smallest babies to get the care they need with fewer open-chest procedures.

Read the rest of Cayden’s story here.

Yves d’Udekem, M.D., Ph.D.,

Evidence and expertise drive cardiac surgery innovation at Children’s National Hospital

Yves d’Udekem, M.D., Ph.D.,

“Our goal is to do the difficult and the impossible,” says Yves d’Udekem, M.D., Ph.D.

“Our goal is to do the difficult and the impossible,” says Yves d’Udekem, M.D., Ph.D., chief of Cardiac Surgery at Children’s National Hospital.

Dr. d’Udekem and the cardiac surgeons at Children’s National apply technical skill and expertise to offer renewed hope for the highest risk children with critical congenital heart disease, including those with single ventricle anomalies like hypoplastic left heart syndrome.

“When families have nowhere else to turn, they can turn to us,” he adds.

Why it matters

The cardiac surgery team has welcomed families from across the United States and around the world who seek experts in the care of these critical heart conditions. Their experience is building an important evidence base for better surgical approaches that will improve long-term outcomes for children with many different types of congenital heart disease, but especially for single ventricle conditions.

Innovation in cardiac surgery

  • Hybrid surgical strategy: Cardiac Surgeon Can Yerebakan, M.D., and Interventional Cardiology Director Joshua Kanter, M.D., are national leaders in the use of a hybrid surgical strategy for high-risk infants with single ventricle heart conditions. They can perform this procedure on babies as small as 1.1 kilograms. It allows critical time for the lungs and other organs to recover and get stronger after birth before the child undergoes more invasive procedures.
  • New uses for artificial hearts: d’Udekem showed proof-of-concept for the use of an artificial heart to give a child with a single ventricle the time for their own heart to recover rather than being transplanted. In this case, the child was supported by a left-ventricle assist device (LVAD) long term. As their own heart recovered, surgeons then performed successful procedures that seemed impossible to perform before.
  • Novel complex pulmonary artery reconstruction: Children’s National performs the most complex lobar and sub-lobar pulmonary artery reconstruction for children with complex pulmonary stenosis. Cardiac Surgeon Manan Desai, M.D., says the approach leverages interventional cardiac imaging and precision surgical techniques to correct stenosis in smaller lung arteries. This helps establish better right-sided pressure in the heart and likely reduces the chance of heart failure down the road.
  • Pediatric-focused advanced lung care and transplant: Children’s National is poised to become one of only a few locations in the United States to offer comprehensive care for children with complex lung conditions. In 2024, Cardiac Surgeon Aybala Tongut, M.D., will begin performing pediatric lung transplants as part of the hospital’s Advanced Lung Disease Program focused on the unique needs of children.

Children’s National leads the way

“It’s time to combine firsthand expertise and long-term outcomes from decades of congenital heart surgical procedures to refine our surgical techniques,” says Dr. d’Udekem. “We need to ensure patients with congenital heart disease, especially those with single ventricle heart defects, can thrive long term.”
animation showing MRI cardiac imaging

Soon, the Children’s National team plans to re-examine the effectiveness of different techniques for the Fontan procedure. They’ll compare an extracardiac approach against the older lateral tunnel procedure to determine how best to reduce long-term pressure on the heart by creating larger conduits and improving blood flow.

More education is needed to ensure valve repairs for children with congenital heart disease, including single ventricle conditions, which have a high rate of failure and require reoperation, are as successful as can be. The goal is to avoid the need for reoperation or replacement procedures. This is why Children’s National recently hosted the inaugural Valve Repair Symposium. It featured practical cases illustrated with intraoperative video, echocardiography and MR images to bring critical knowledge about pediatric heart valve repair to more people in the field.

sonogram showing tetralogy of Fallot

Tetralogy of Fallot repair technique demonstrates low reoperation rates

Cardiac surgeons at Children’s National Hospital have used a uniform transventricular strategy for tetralogy of Fallot repair for more than 15 years. A large, retrospective study published in the Journal of Thoracic and Cardiovascular Surgery demonstrates that few patients who received a repair using this method required a reoperation to implant a pulmonary valve in the first 10 years after their primary repair surgery.

What it is

The study is one of the first to report statistically significant outcomes of the transventricular approach applied uniformly in a single institution. It provides tangible evidence of the short- and mid-term postoperative outcomes from 244 consecutive patients who underwent tetralogy of Fallot repair at Children’s National between 2004 and 2019. Infants received the repair between 42 and 106 days after birth.

Tetralogy of Fallot is a condition of several related congenital heart defects that occur due to abnormal development of the prenatal heart during the first eight weeks of pregnancy.

Why it matters

The data show that, at Children’s National, 96.7% of children who underwent tetralogy of Fallot repair within the first year of life using this transventricular approach were able to avoid having an additional surgery to receive a replacement pulmonary valve for up to a decade after their initial repair.

It also shows a benefit of this approach soon after birth. The authors believe that having the repair earlier (on average, 71 days after birth in this study) provides long-term benefits to the growth and development of both the brain and heart. The repair also protects the heart’s function over time by preventing the development of dangerous ventricular arrhythmias.

The big picture

Short- and mid-term post-surgical outcome data like the information presented in this study are an important indicator of the expertise, care quality and overall safety associated with the cardiac surgery team performing the procedure.

These findings provide critical insight into the effectiveness of specific treatment approaches for infants with tetralogy of Fallot and can help both clinicians and families better understand the benefits and risks of these procedures.

Read the full study in the Journal of Thoracic and Cardiovascular Surgery.

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.

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.

Yves D'Udekem

Yves d’Udekem, M.D., Ph.D., named as The Baier Family Distinguished Professor of Cardiac Surgery

Yves d'UdekemChildren’s National Hospital named Yves d’Udekem, M.D., Ph.D., as The Baier Family Distinguished Professor of Cardiac Surgery at Children’s National Hospital.

Dr. d’Udekem serves as chief of cardiac surgery at Children’s National Hospital, co-director of Children’s National Heart Institute, and professor of surgery and pediatrics, The George Washington University School of Medicine and Health Sciences.

About the award

Dr. d’Udekem joins a distinguished group of 42 Children’s National physicians and scientists who hold an endowed chair. Professorships at Children’s National support groundbreaking work on behalf of children and their families and foster new discoveries and innovations in pediatric medicine. These appointments carry prestige and honor that reflect the recipient’s achievements and donor’s forethought to advance and sustain knowledge.

Amy and Bret Baier, through their vision and generosity, are ensuring that Dr. d’Udekem and future holders of this professorship will launch bold, new initiatives to rapidly advance the field of pediatric cardiac surgery, elevate our leadership and improve the lifetimes of children with special hearts.

About the donors

The Baiers’ oldest son Paul was born with five congenital heart defects and needed open heart surgery when he was just 12 days old. He has since had three more open heart surgeries and countless procedures and visits to Children’s National. Dr. d’Udekem serves as Paul’s current heart surgeon.

Amy serves as Board Chair of Children’s National Hospital Foundation. Amy and Bret have served numerous times as co-chairs of the Children’s Ball, and Bret has emceed since 2008. They also are co-chairs for follow the leader, the hospital’s comprehensive campaign to fund bold initiatives in pediatric medicine. Children’s National is grateful for the Baiers’ generosity, leadership and commitment.

“I am forever grateful for the Baiers’ generosity and dedication to Children’s National,” said Kurt Newman, M.D., president and CEO of Children’s National Hospital. “With this endowed professorship, Yves will advance the field of pediatric cardiac surgery for kids with special hearts. I am honored to call Amy and Bret friends and partners in pediatric care.”

human heart

Heart anatomy determines outcomes of valve repair for single ventricle hearts after Fontan procedure

human heart

The data shows that the valve repair surgery itself doesn’t increase the likelihood of heart transplant or death. Instead, it is only those with right ventricle dominant heart function who are significantly more likely to have such a negative outcome.

A new study in the Journal of the American College of Cardiology finds the anatomy of the heart is a key predictor of how efforts to repair atrioventricular valve regurgitation — or a leaky heart valve — will impact children with single ventricle heart defects who have undergone a Fontan surgical procedure.

The study uses retrospective data from the largest database of patients who have had the Fontan procedure, the Australia and New Zealand Fontan Registry. The data shows that the valve repair surgery itself doesn’t increase the likelihood of heart transplant or death. Instead, it is only those with right ventricle dominant heart function who are significantly more likely to have such a negative outcome.

It was conducted by cardiac surgeons at Royal Children’s Hospital, including Yves d’Udekem, M.D., Ph.D., who is now chief of cardiac surgery at Children’s National Hospital. Dr. d’Udekem presented the findings at the recent American College of Cardiology Scientific Sessions in Washington, D.C.

What this means

Until now, it was unclear why patients who had undergone a Fontan heart procedure were more likely to need a heart transplant or die after they also underwent surgery to repair atrioventricular valve regurgitation. This type of leaking valve is common in patients who have undergone a Fontan procedure, and it can also be dangerous if left untreated. But because existing data showed poor outcomes following atrioventricular valve repair, it was considered high risk to perform this repair on children with Fontan circulation.

However, this study drilled down into the outcomes of atrioventricular valve repair for these patients and found that it isn’t the surgery that leads to a poor outcome. Instead, it’s a specific anatomic feature — having a dominant right ventricle — that is predictive of the outcome.

Up to now, it was unclear whether surgery should be offered to all patients with a Fontan circulation who had leaky atrioventricular valves. This study shows that things are different for patients with dominant left or dominant right ventricle. For patients with dominant right ventricle, leaving this regurgitation not repaired is much more likely to lead to death and transplantation, and these patients should be operated at the earlier stages of the deficiency of their valves.

The hold-up in the field

One of the biggest challenges to identifying evidence-based best practices for children born with single ventricle heart defects, which are critical congenital heart defects, is the small number of patients at any one institution each year. The Australia and New Zealand Fontan Registry, founded by Dr. d’Udekem and the team at Royal Children’s Hospital, forms one of the world’s longest standing databases of patient information, including outcomes, for this population.

The patient benefit

This data can help doctors and families make the best care decisions possible for children with single ventricle defects by understanding how each child’s unique anatomy may impact how their heart will respond to treatment.

What’s next

Dr. d’Udekem hopes results from this study will improve how doctors strategize and recommend (or not) surgical repair of atrioventricular valve regurgitation. Additionally, the study shows the value of centralized patient registries and data for informing the standard of care. Similar registries across the world may promise to provide even greater insight into the long-term outcomes for patients born with these congenital heart conditions.

Crowded makeshift buildings of a shantytown

Calling greater attention to sub-Saharan Africa’s pressing challenges in pediatric cardiac care

Crowded makeshift buildings of a shantytown

Sub-Saharan Africa has only 0.19 pediatric cardiac surgeons per million children — nowhere near enough surgeons to care for all the pediatric congenital heart disease and acquired heart disease present in the people who live there.

A literature review in the journal Current Opinion in Cardiology draws further attention to the pressing needs for better pediatric cardiac care in regions of the world where the population continues to grow, but the development of specialty care for children continues to lag. The article focuses specifically on sub-Saharan Africa.

“If 40% of live births occur in Africa by 2050 as the projections suggest, congenital heart disease may well become the most important contributor to infant mortality rate in sub-Saharan Africa in the next three decades,” stated the authors, including Annette Ansong, M.D., who recently joined Children’s National Hospital as medical director of outpatient cardiology.

As highlighted previously by other authors within the Global Health Initiative at Children’s National and through the work of the American Heart Association, the region’s needs are already significant in  tackling the impacts of existing congenital heart disease and rheumatic heart disease. Rheumatic heart disease is a devastating long-term outcome of rheumatic fever caused by untreated streptococcus infections.

Annette Ansong

“If 40% of live births occur in Africa by 2050 as the projections suggest, congenital heart disease may well become the most important contributor to infant mortality rate in sub-Saharan Africa in the next three decades,” stated the authors, including Annette Ansong, M.D., who recently joined Children’s National Hospital as medical director of outpatient cardiology.

Dr. Ansong and colleagues reiterate the point that today, “whereas one cardiac center caters to approximately 120,000 people in North America, 33 million people in sub-Saharan Africa must depend on one center for care.” They also note that this region of Africa has only 0.19 pediatric cardiac surgeons per million children compared with more than 58 times as many in North America.

Changing the trajectory of pediatric cardiac care in sub-Saharan Africa will take motivation on several fronts, the authors write. Dedication to early detection and intervention (medical or surgical), an emphasis on building an in-country pipeline of human resources and skills’ sets are needed to tackle the increasing numbers of children requiring this specialty care. Political will and better financial resources can also support the training and development of centers that specialize in these capabilities.

video still of Dr. Yves d'Udekem

A conversation with Yves d’Udekem, M.D., Ph.D.

Dr. Yves d’Udekem discusses his background, the history of pediatric cardiovascular surgery and his vision for the future.

Read more
Patients and staff at the Uganda Heart Institute

Lifesaving heart surgeries for RHD complications in Uganda go on despite COVID-19

Patients and staff at the Uganda Heart Institute

Patients and staff at the Uganda Heart Institute for RHD-related heart surgeries in Uganda, March 2020. These patients were originally scheduled as part of the cancelled medical mission, but UHI cardiovascular surgeon successfully managed these cases without the support of the mission doctors from the U.S.

In early March as countries around the globe began to wrestle with how best to tackle the spread of COVID-19, a group of doctors, nurses, researchers and other medical staff from Children’s National Hospital were wrestling with a distinct set of challenges: What to do about the 10 Ugandan children and adults who were currently scheduled for lifesaving heart surgery (and the countless others who would benefit from the continued training of the local heart surgery team) to correct complications of rheumatic heart disease (RHD) during an impending medical mission in the country.

Rheumatic heart disease impacts over 39 million people globally and causes nearly 300,000 deaths per year. RHD is the result of frequent, untreated streptococcal throat infections in childhood that ultimately cause the body’s immune system to repeatedly damage heart valves. It is completely preventable, yet the majority of the world’s children still live in impoverished and overcrowded conditions that predispose them to RHD. Most patients present with advanced valvular heart disease. For example, in Uganda, an RHD registry includes over 600 children with clinical RHD, of which nearly 40% die within four years and the median survival time from enrollment in the registry is only nine months. For these patients, heart surgery is the only viable solution for long-term survival and normal quality of life.

Patricia: 9-year-old from Gulu

Patricia: 9-year-old from Gulu (northern Uganda), had mitral valve replacement and was doing well on a recent follow-up visit at her home.

The scheduled trip from Washington was part of a nearly 20-year partnership** between doctors, nurses, researchers and other medical staff in the United States, including Craig Sable, M.D., associate chief of cardiology, and and Pranava Sinha, M.D.,pediatric cardiovascular surgeon, at Children’s National Hospital in Washington, D.C., and the Uganda Heart Institute in Kampala, Uganda. The partnership aims to tackle RHD head-on. It provides surgical skill transfer, allows for treatment of more complex patients, and increases sustainable surgical capacity for Uganda’s RHD patients over time. As a result, over the last 15 years more than 1,000 children have received lifesaving heart surgery in Uganda, with the Uganda Heart Institute (UHI) performing one to two heart valve surgeries every two weeks over the last few years.

Jackline: 12-year-old from Gulu

Jackline: 12-year-old from Gulu, had mitral valve repair and aortic valve replacement. Jackline and Patricia were diagnosed through one of our research programs and benefit from our novel telehealth program, which helps connect patients from remote parts of Uganda to specialists at UHI.

COVID-19 was changing the current plan, however. Travel between countries was limited, and the team from the U.S. wouldn’t have been permitted to leave the U.S. and return according to schedule. The trip, and the support teams who were scheduled to arrive to help with the surgeries, were cancelled. The U.S. team members who had already arrived in Uganda were sent home after helping their UHI colleagues set up and prepare for the surgeries as much as possible. Knowing that patients and families were counting on the surgery mission to go forward after waiting for months or years to have surgery for heart valve disease, UHI decided not to cancel the majority of the surgeries. Instead, for the first time, they planned and successfully completed five valve-related cases in a single week – several of them quite complex. The cardiologists and cardiac surgeons from Children’s National who were supposed to be in-country for these procedures were forced to limit their in person assistance to the set-up activities the week prior to surgery and telehealth consult during the procedures.

“It was hard not to be able to stay  and work with the UHI team to help these families,” says Dr. Sable. “But we are so proud of the UHI team for meeting this challenge on their own. We knew they had the skills to perform at this volume and complexity. It’s a proud moment to see the team accomplish this major milestone, and to see the patients they cared for thrive.”

The patients are the most important outcome: The five who had successful open-heart surgery are all doing well, either on their way to recovery or already discharged to their communities, where they will, for the first time in memory, be able to play, exercise and go to school or work.

Longer term, this success demonstrates the UHI medical team’s ability to manage greater surgical capacity even when surgical missions from the U.S. resume. The partnership’s goal is to complete at least 1,000 annual operations (both pediatric and adult), with the majority being performed by the local team. Having this capacity available will mean the difference between life and death for many children and adults who have RHD in Uganda and the surrounding countries.

**This work is supported by the Edwards Life Sciences/Thoracic Surgery Foundation, the Emirates Airline Foundation, Samaritan’s Purse Children’s Heart Project and Gift of Life International.

Newborn baby laying in crib

Can cells collected from bone marrow stimulate generation of new neurons in babies with CHD?

Newborn baby laying in crib

The goal of the study will be to optimize brain development in babies with congenital heart disease (CHD) who sometimes demonstrate delay in the development of cognitive and motor skills.

An upcoming clinical trial at Children’s National Hospital will harness cardiopulmonary bypass as a delivery mechanism for a novel intervention designed to stimulate brain growth and repair in children who undergo cardiac surgery for congenital heart disease (CHD).

The NIH has awarded Children’s National $2.5 million to test the hypothesis that mesenchymal stromal cells (MSCs), which have been shown to possess regenerative properties and the ability to modulate immune responses in a variety of diseases, collected from allogeneic bone marrow, may promote regeneration of damaged neuronal and glial cells in the early postnatal brain. If successful, the trial will determine the safety of the proposed treatment in humans and set the stage for a Phase 2 efficacy trial of what could potentially be the first treatment for delays in brain development that happen before birth as a consequence of congenital heart disease. The study is a single-center collaboration between three Children’s National physician-researchers: Richard Jonas, M.D., Catherine Bollard, M.B.Ch.B., M.D. and Nobuyuki Ishibashi, M.D.

Dr. Jonas, chief of cardiac surgery at Children’s National, will outline the trial and its aims on Monday, November 18, 2019, at the American Heart Association’s Scientific Sessions 2019. Dr. Jonas was recently recognized by the Cardiac Neurodevelopmental Outcome Collaborative for his lifelong research of how cardiac surgery impacts brain growth and development in children with CHD.

Read more about the study: Researchers receive $2.5M grant to optimize brain development in babies with CHD.

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Regenerative Cell Therapy in Congenital Heart Disease – Protecting the Immature Brain
Presented by Richard Jonas, M.D.
AHA Scientific Sessions
Session CH.CVS.608 Congenital Heart Disease and Pediatric Cardiology Seminar: A Personalized Approach to Heart Disease in Children
9:50 a.m. to 10:05 a.m.
November 18, 2019