Hypoplastic left heart syndrome (HLHS) is one of the most severe congenital heart malformations, characterized by underdevelopment of the structures in the left heart-aorta complex. The majority of cases are sporadic. Although multiple genetic loci have been tentatively implicated in HLHS, no gene or pathway seems to be specifically associated with the disease. To elucidate the genetic basis of HLHS, we analyzed 53 well-characterized patients with isolated HLHS using an integrated genomic approach that combined DNA sequencing of five candidate genes (NKX2-5, NOTCH1, HAND1, FOXC2 and FOXL1) and genome-wide screening by high-resolution array comparative genomic hybridization. In 30 patients, we identified two novel de novo mutations in NOTCH1, 23 rare patients inherited gene variants in NOTCH1, FOXC2 and FOXL1, and 33 rare patients mostly inherited copy-number variants. Some of the identified variations coexisted in the same patient. The biological significance of such rare variations is unknown, but our findings strengthen the role of NOTCH pathway in cardiac valve development, indicating that HLHS is, at least in part, a 'valve' disease. This is the first report of de novo mutations associated with isolated HLHS. Moreover, the coexistence of multiple rare variants suggests in some cases a cumulative effect, as shown for other complex disease.
Our study highlights the efficiency and safety of the Misgav Ladach method, and points out the speeded recovery, with early ambulation and resumption of drinking and eating, that makes the cesarean section delivery closer and closer to natural childbirth.
The transcatheter approach is nowadays considered a cost-effective alternative to surgery in adults with “complex” aortic coarctation. The printed 3D model was crucial in planning transcatheter treatment of a complex case of postsurgical aortic re-coarctation, due to coexistence of transverse aortic arch stenosis and pseudoaneurysm as well as aneurysm of the descending aorta. (
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