Genetic background of Brugada syndrome is more complex than what we would like it to be!

Brugada and early repolarisation (ER) syndromes are currently considered two distinct inherited electrical disorders with overlapping clinical and electrocardiographic features. A considerable number of patients diagnosed with ER syndrome have a genetic mutation related to Brugada syndrome (BrS). Due to the high variable phenotypic manifestation, patients with BrS may present with inferolateral repolarisation abnormalities only, resembling the ER pattern. Moreover, the complex genotype–phenotype interaction in BrS can lead to the occurrence of mixed phenotypes with ER syndrome. The first part of this review focuses on specific clinical and electrocardiographic features of BrS and ER syndrome, highlighting the similarity shared by the two primary electrical disorders. The genetic background, with emphasis on the complexity of genotype–phenotype interaction, is explored in the second part of this review.

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Faculty Opinions recommendation of SCN5A mutations and the role of genetic background in the pathophysiology of Brugada syndrome.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1162972.623609 ◽

2009 ◽

Author(s):

Hugues Abriel

Keyword(s):

Brugada Syndrome ◽

Genetic Background

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SCN5A Mutations and the Role of Genetic Background in the Pathophysiology of Brugada Syndrome

Circulation Cardiovascular Genetics ◽

10.1161/circgenetics.109.853374 ◽

2009 ◽

Vol 2 (6) ◽

pp. 552-557 ◽

Cited By ~ 191

Author(s):

Vincent Probst ◽

Arthur A.M. Wilde ◽

Julien Barc ◽

Frederic Sacher ◽

Dominique Babuty ◽

...

Keyword(s):

Brugada Syndrome ◽

Genetic Background

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G023 SCN5A mutations and the role of genetic background in the pathophysiology of brugada syndrome

Archives of Cardiovascular Diseases ◽

10.1016/s1875-2136(09)72298-3 ◽

2009 ◽

Vol 102 ◽

pp. S70

Author(s):

J. Barc ◽

V. Probst ◽

A.A.M. Wilde ◽

F. Sacher ◽

D. Babuty ◽

...

Keyword(s):

Brugada Syndrome ◽

Genetic Background

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Computer Reconstruction of the Cellular Architecture of the Daphnia Magna Optic Ganglion

Proceedings, annual meeting, Electron Microscopy Society of America ◽

10.1017/s0424820100115043 ◽

1975 ◽

Vol 33 ◽

pp. 284-285

Author(s):

E. R. Macagno ◽

C. Levinthal

Keyword(s):

Daphnia Magna ◽

Genetic Background ◽

Compound Eye ◽

Synaptic Connectivity ◽

Serial Sections ◽

Cross Sectional ◽

Small Crustacean ◽

Optic Ganglion ◽

Structural Invariance ◽

High Degree

The optic ganglion of Daphnia Magna, a small crustacean that reproduces parthenogenetically contains about three hundred neurons: 110 neurons in the Lamina or anterior region and about 190 neurons in the Medulla or posterior region. The ganglion lies in the midplane of the organism and shows a high degree of left-right symmetry in its structures. The Lamina neurons form the first projection of the visual output from 176 retinula cells in the compound eye. In order to answer questions about structural invariance under constant genetic background, we have begun to reconstruct in detail the morphology and synaptic connectivity of various neurons in this ganglion from electron micrographs of serial sections (1). The ganglion is sectioned in a dorso-ventra1 direction so as to minimize the cross-sectional area photographed in each section. This area is about 60 μm x 120 μm, and hence most of the ganglion fit in a single 70 mm micrograph at the lowest magnification (685x) available on our Zeiss EM9-S.

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