Bicuspid Aortic Valve: a Review with Recommendations for Genetic Counseling

Freeze, Samantha L.; Landis, Benjamin J.; Ware, Stephanie M.; Helm, Benjamin M.

doi:10.1007/s10897-016-0002-6

Cited by 54 publications

(64 citation statements)

References 58 publications

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“…The final development of the semilunar valves is a complex interplay between the second heart field cells and the neural crest cells, where the rudimentary aortic valve leaflets are shaped by neural crest cells that create "cavities" in the rudimentary valve. 4,6 If the cavities are not created, the cusps will be fused. 4,6 It is hypothesised that right coronary and non-coronary cusp fusion is caused by defective morphogenesis of the outflow tract tissue before "valve cavitation", whereas perturbations in the neural crest cell behaviour result in the lack of "cavitation" and thereby right and left coronary cusp fusion occurs.…”

Section: Foetal Developmentmentioning

confidence: 99%

Clinical and pathophysiological aspects of bicuspid aortic valve disease

et al. 2018

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A bicuspid aortic valve is not only a common congenital heart defect but also an enigmatic condition that can cause a large spectrum of diseases, such as aortic valve stenosis and severe heart failure in newborns whereas aortic dissection in adults. On the contrary, a bicuspid aortic valve can also occur with normal function throughout life and never need treatment. Numerous genetic mechanisms are involved in the abnormal cellular functions that may cause abnormal development of the aortic valve during early foetal life. As several chromosomal disorders are also associated with a bicuspid valve, there does not appear to be an apparent common trigger to the abnormal development of the aortic valve. The clinical care of the bicuspid aortic valve patient has been changed by a significant body of evidence that has improved the understanding of the natural history of the disease, including when to best intervene with valve replacement and when to provide prophylactic aortic root surgery. Moreover, as bicuspid valve disease is also part of various syndromes, we can identify high-risk patients in whom a bicuspid valve is much more unfavourable than in the normal population. This review provides an overview of all aspects of the bicuspid aortic valve condition and gives an updated perspective on issues from pathophysiology to clinical care of bicuspid aortic valve disease and associated aortic disease in asymptomatic, symptomatic, and pregnant patients, as well as our viewpoint on population screening.

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Section: Foetal Developmentmentioning

confidence: 99%

Clinical and pathophysiological aspects of bicuspid aortic valve disease

et al. 2018

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“…In cardiac valve morphogenesis there are multiple signaling pathways involved, such as members of the TGF-β superfamily, VEGF, Notch, Wnt/β-catenin, bx20, and Gata4 (32). Many other genes, including genes involved in connective tissue disorders, cell signaling, and the extracellular matrix, have also been associated to BAV.…”

Section: Aortic Dilatation: Intrinsic or Induced Development?mentioning

confidence: 99%

“…Many other genes, including genes involved in connective tissue disorders, cell signaling, and the extracellular matrix, have also been associated to BAV. The alteration of these pathways may produce or be related to BAV and studies developed in mouse models are contributing to clarify the new BAV candidate genes role (32).…”

Section: Aortic Dilatation: Intrinsic or Induced Development?mentioning

confidence: 99%

Bicuspid aortic valve syndrome: a multidisciplinary approach for a complex entity

et al. 2017

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Bicuspid aortic valve (BAV) or bicuspid aortopathy is the most common congenital heart disease.It can be clinically silent and it is often identified as an incidental finding in otherwise healthy, asymptomatic patients. However, it can be dysfunctioning at birth, even requiring neonatal intervention, or, in time, lead to aortic stenosis, aortic insufficiency, and endocarditis, and also be associated with aortic aneurysm and aortic dissection. Given its prevalence and significant complications, it is estimated that BAV is responsible for more deaths and morbidity than the combined effects of all the other congenital heart defects. Pathology of BAV is still not well known and many questions are unresolved. In this manuscript we review some aspects on bicuspid aortopathy, a heterogeneous and frequent disease in which like some authors have previously described, complex gene environment are present. Further investigations and, what is more, multidisciplinary teams are needed to improve our knowledge on this really fascinating disease.

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“…With age, degenerative alterations may aggravate the valve deformation, causing stenosis and/or insufficiency. Both the valvulopathy and the aortopathy may lead to unexpected sudden death [1,[13][14][15][16][17].…”

Section: Discussionmentioning

confidence: 99%

Sudden cardiac death and valvular pathology

Gouveia¹,

Gonçalves²

2019

Forensic Sciences Research

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Sudden death due to valvular heart disease is reported to range from 1% to 5% in native valves and around 0.2%-0.9%/year in prosthesis. The nature of the diseases is varied, from heritable, congenital to acquired. It may affect both genders in multiple age groups. The authors show and comment examples of the major nosologic aetiologies underlying unexpected exitus letalis of valvular nature. ARTICLE HISTORY

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Bicuspid Aortic Valve: a Review with Recommendations for Genetic Counseling

Cited by 54 publications

References 58 publications

Clinical and pathophysiological aspects of bicuspid aortic valve disease

Clinical and pathophysiological aspects of bicuspid aortic valve disease

Bicuspid aortic valve syndrome: a multidisciplinary approach for a complex entity

Sudden cardiac death and valvular pathology

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