Hypoplastic left heart syndrome (HLHS) is a rare congenital heart defect in which the left side of the heart is severely underdeveloped and incapable of supporting the systemic circulation. It is estimated to account for 2-3% of all congenital heart disease. Overall, it is estimated to make up 2-3% of all cases of congenital heart disease, and is the most common single-ventricle defect. It is thought to be more common in male infants, 1.5 times as common as in female infants. A recent systematic review found a slight decrease in prevalence of HLHS from 0.689/1000 in 1995–1999, to 0.475/1000 in 2010–2017.

HLHS often co-occurs with low birth weight and premature birth. Some cases may have a genetic component, as HLHS has been shown to be heritable and associated with specific gene mutations. Possible contributing factors may include intrauterine infarction, infectious changes, and a selective left ventricular cardiomyopathy.

Genetics

Genetic loci associated with HLHS include GJA1 (connexin 43), HAND1, NKX2.5, 10q22, and 6q23. There is a slight risk of recurrence in future pregnancies, estimated to be 2-4%, which increases to 25% in families with two affected children. These primary defects can be divided into those that lead to outflow tract obstruction or reduced left ventricular filling. Outflow tract obstruction leads to left ventricular hypertrophy and reduction in the left ventricular lumen. One example of this would be in the case of aortic stenosis. Aortic stenosis that occurs during fetal development results in added stress on the left ventricle in utero. This can eventually lead to decreased perfusion through the left ventricle which is believed to inhibit ventricular growth.

Pathophysiology

At birth, the ductus arteriosus is still open, and there is higher than normal resistance to blood flow in the lungs. This allows for adequate oxygenation via mixing between the atria and a normal appearance at birth. When the ductus begins to close and pulmonary vascular resistance decreases, blood flow through the ductus is restricted and flow to the lungs is increased. There are three main anatomic variants of the disease differentiated by either stenosis or atresia of the aortic and mitral valve.

Management

Medical

Without life-prolonging interventions, HLHS is fatal, but with intervention, an infant may survive. A cardiothoracic surgeon may perform a series of operations or a full heart transplant. While surgical intervention has emerged as the standard of care in the United States, other national health systems, notably in France, approach diagnosis of HLHS in a more conservative manner, with an emphasis on termination of pregnancy or compassionate care after delivery.

Before surgery, the ductus must be kept open to allow blood-flow using medication containing prostaglandin. Nitric oxide is a potent pulmonary vasodilator, and thus reduces PVR and improves venous return. Any factor that increases PVR will impede right-sided flow.

Surgical

Surgical operations to assist with hypoplastic left heart are complex and need to be individualized for each patient. A cardiologist must assess all medical and surgical options on a case-by-case basis.

Currently, infants undergo either the staged reconstructive surgery (Norwood or Sano procedure within a few days of birth, Glenn or Hemi-Fontan procedure at 3 to 6 months of age, and the Fontan procedure at 1 1/2 to 5 years of age) or cardiac transplantation. Current expectations are that 70% of those with HLHS may reach adulthood. Factors that increase an infant's risk include lower birth weight, additional congenital anomalies, a genetic syndrome or those with a highly restrictive atrial septum. For patients without these additional risk factors, 5 year survival now approaches 80%. Current research focuses on charting the connections between neurodevelopment injuries, surgical and intensive care procedures, and genetic susceptibility with the goal of modifying interventions that impair neurodevelopmental and psychosocial outcomes. An alternative to the traditional Norwood is the Hybrid procedure.

Some physicians offer compassionate care, instead of the surgeries, which results in the child's death, usually within 2 weeks of birth. Compassionate care is overseen by a physician, and may be carried out either in the hospital or at home. However, due to the vast improvement of surgical intervention, with many hospitals achieving over 90% survival, there is debate on whether or not compassionate care should still be offered to families. A study in 2003 concluded that a selection of physicians who are experts in the care of children with HLHS were evenly split when asked what they would do if their own children were born with HLHS, with 1/3 stating that they would choose surgery, 1/3 stating that they would choose palliative (compassionate) treatment without surgery, and 1/3 stating that they are uncertain which choice they would make.

The three-stage procedure is a palliative procedure (not a cure), as the child's circulation is made to work with only two of the heart's four chambers.

thumb|Norwood procedure

Norwood procedure

The first step is the Norwood procedure. In this procedure, the right ventricle is used to pump blood into the systemic circulation. Since the right ventricle is no longer directly pumping blood to the lungs, a shunt is required in order to pass deoxygenated blood through the lungs. Either the subclavian artery can be connected to the pulmonary circulation (Blalock-Taussig shunt), or a shunt is made directly from the right ventricle to the pulmonary circulation (Sano shunt). The narrow aorta is enlarged using a patch to improve blood flow to the body.

During this time the baby may be medically fragile and have feeding problems because the heart is working very hard. There is a considerable degree of venous mixing in the right ventricle, leading to lower oxygen saturation. In addition, both the Blalock-Taussig and the Sano shunts expose the lungs to systemic arterial pressures, leading to long-term pulmonary hypertension and, eventually, heart failure. The Hybrid procedure does not necessitate the use of heart-lung bypass or performing a sternotomy. Instead of a six-hour surgery, the Hybrid typically takes one to two hours. In this procedure, a stent is placed in the ductus arteriosus to maintain its patency, and bands are placed over both the left and right pulmonary artery branches to limit pressure and over-circulation to the lungs. Outcomes with the Hybrid approach are comparable to those with the Norwood.

Glenn procedure

The second stage—the bidirectional Glenn or Hemi-Fontan (see also Kawashima procedure)—relieves some of the problems introduced by Stage I palliation.

Prognosis

95% of untreated infants with HLHS die in the first weeks of life.

Children with HLHS and other comparable single-ventricle conditions, as a group, have poorer neurodevelopmental outcomes than their healthy peers. Deficits in language, executive functioning, and higher rates of anxiety and depression disorders have been demonstrated. Some of these outcomes may be a consequence of genetic factors associated with HLHS, and others may be modifiable through changes to procedures and to the healthcare environment. There is an emerging clinical consensus around the importance of continuous neurodevelopmental surveillance from the earliest years into adulthood. Additionally, a recent meta-analysis comparing twenty-two studies showed that 64.7% of the studies reported delayed motor development in children with single ventricle physiologies, such as hypoplastic left heart syndrome.

As is true for patients with other types of heart defects involving malformed valves, HLHS patients run a high risk of endocarditis, and must be monitored by a cardiologist for the rest of their lives to check on their heart function.

Heart transplantation may be indicated, typically after Fontan completion.

Future of stem cell therapies

A systematic review found 23 articles, published since 2010, as well as nine relevant clinical trials related to congenital heart disease and recent advances in stem cell therapies. Pre-clinical research has focused on several types of stem cells including: mesenchymal stem cells (MSCs), autologous umbilical cord blood cells, c-kit+ cardiac stem cells, and neonatal thymus mesenchymal stem cells.

  • Phase I trial testing the efficacy of autologous cord blood cell infusion during Stage 1 (Norwood) repair within two-to-three days of birth.
  • The ELPIS trial is a phase I/IIb open pilot testing the efficacy and safety of intramyocardial donor human mesenchymal stem cell injections in patients during Stage 2 (Glenn) and Stage 3 (Fontan) repairs.
  • Phase I trial testing the efficacy of umbilical cord blood intramyocardial injections during Stage 2 (Glenn) repair.
  • The PERSEUS study is a phase II trial testing the efficacy of intracoronary infusions of cardiac progenitor cells and evaluating function 3-months post-treatment.
  • APOLLON study is a phase III clinical trial testing the efficacy and safety of intracoronary injections of autologous cardiac stem cells during Stage 2 (Glenn) or Stage 3 (Fontan) repair.
  • CHILD Study is a phase I clinical trial testing the feasibility and safety of intramyocardial injections of c-kit+ cells during Stage 2 (Glenn) repair.

It is important to keep in mind that patients with HLHS are at increased risk of developing heart failure as adults. It remains unknown if these potential therapies would reduce the future risk of heart failure in these patients.

References

thumb|Hypoplastic left heart syndrome video by Osmosis

  • Hypoplastic left heart syndrome information for parents.