先天性心脏病的遗传和血流异常。

AIMS Genetics Pub Date : 2016-01-01 Epub Date: 2016-08-23 DOI:10.3934/genet.2016.3.157
Sandra Rugonyi
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引用次数: 0

摘要

先天性心脏缺陷是人类最常见的畸形,约占新生儿的 1%。虽然已经对先天性心脏病的遗传原因进行了研究,但只有不到 20% 的人类病例明确与遗传异常有关。大多数病例的病因仍然不明。心脏的形成是一个精心安排的发育过程,稍有不慎就会导致严重的畸形。导致心脏畸形的发育过程失调不仅由遗传异常引起,还与包括血流在内的环境因素有关。心内血流动力学对心脏发育起着重要的调节作用,在动物模型中,血流紊乱会导致先天性心脏缺陷。然而,血流动力学改变导致的缺陷可再现人类婴儿身上观察到的缺陷,甚至是那些因遗传异常和接触有毒致畸物而导致的缺陷。由于重要的心脏发育事件(如瓣膜形成和室间隔形成)是在心脏泵血时的血流条件下发生的,因此心脏形成的血流调节可能是决定心脏表型的关键因素。然而,血流对心脏表型的影响常常被忽视。要确定血流如何影响心脏发育以及血流在多大程度上可能决定心脏表型,还需要进行更多的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genetic and flow anomalies in congenital heart disease.

Genetic and flow anomalies in congenital heart disease.

Congenital heart defects are the most common malformations in humans, affecting approximately 1% of newborn babies. While genetic causes of congenital heart disease have been studied, only less than 20% of human cases are clearly linked to genetic anomalies. The cause for the majority of the cases remains unknown. Heart formation is a finely orchestrated developmental process and slight disruptions of it can lead to severe malformations. Dysregulation of developmental processes leading to heart malformations are caused by genetic anomalies but also environmental factors including blood flow. Intra-cardiac blood flow dynamics plays a significant role regulating heart development and perturbations of blood flow lead to congenital heart defects in animal models. Defects that result from hemodynamic alterations, however, recapitulate those observed in human babies, even those due to genetic anomalies and toxic teratogen exposure. Because important cardiac developmental events, such as valve formation and septation, occur under blood flow conditions while the heart is pumping, blood flow regulation of cardiac formation might be a critical factor determining cardiac phenotype. The contribution of flow to cardiac phenotype, however, is frequently ignored. More research is needed to determine how blood flow influences cardiac development and the extent to which flow may determine cardiac phenotype.

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AIMS Genetics
AIMS Genetics GENETICS & HEREDITY-
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