The changing morphology of the ventricular walls of mouse and human with increasing gestation

Jensen, Bjarke; Chang, Yun Hee; Bamforth, Simon D.; Mohun, Timothy; Sedmera, David; Bartos, Martin; Anderson, Robert H.

doi:10.1111/joa.14017

Journal of Anatomy

2024

DOI: 10.1111/joa.14017

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The changing morphology of the ventricular walls of mouse and human with increasing gestation

Bjarke Jensen,

Yun Hee Chang,

Simon D. Bamforth

et al.

Abstract: That the highly trabeculated ventricular walls of the developing embryos transform to the arrangement during the fetal stages, when the mural architecture is dominated by the thickness of the compact myocardium, has been explained by the coalescence of trabeculations, often erroneously described as ‘compaction’. Recent data, however, support differential rates of growth of the trabecular and compact layers as the major driver of change. Here, these processes were assessed quantitatively and visualized in stand… Show more

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Cited by 2 publications

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Revisiting the Atrioventricular Conduction Axis for the 21st Century

Anderson,

Sánchez-Quintana,

Spicer

et al. 2024

Arrhythm Electrophysiol Rev

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In this review, we summarise the ongoing debate surrounding the anatomy of the atrioventricular conduction axis and its relevance to pacing. We highlight previous disagreements and emphasise the importance of understanding the anatomical location of the axis. We give credit and support to the initial descriptions by His and Tawara, in particular their attention to the relationship of the atrioventricular conduction axis with the membranous septum. We express our disagreements with recent diagrams that incorrectly, in our opinion, depict the left bundle and right bundle branches. We offer our own latest understanding of the location and relationships of the atrioventricular conduction axis, including details of its development, and differences between human and animal hearts. We also emphasise the importance of understanding the relationship between the inferior pyramidal space and the inferoseptal recess so as appropriately to place the axis within the heart. We conclude by emphasising the need to consider the heart in the context of the body, describing its component parts by using attitudinally appropriate nomenclature.

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Revisiting the Atrioventricular Conduction Axis for the 21st Century

Anderson,

Sánchez-Quintana,

Spicer

et al. 2024

Arrhythm Electrophysiol Rev

View full text Add to dashboard Cite

show abstract

Morphological, electrophysiological, and molecular alterations in foetal noncompacted cardiomyopathy induced by disruption of ROCK signalling

Sedmera,

Olejnickova,

Sankova

et al. 2024

Front. Cell Dev. Biol.

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Left ventricular noncompaction cardiomyopathy is associated with heart failure, arrhythmia, and sudden cardiac death. The developmental mechanism underpinning noncompaction in the adult heart is still not fully understood, with lack of trabeculae compaction, hypertrabeculation, and loss of proliferation cited as possible causes. To study this, we utilised a mouse model of aberrant Rho kinase (ROCK) signalling in cardiomyocytes, which led to a noncompaction phenotype during embryogenesis, and monitored how this progressed after birth and into adulthood. The cause of the early noncompaction at E15.5 was attributed to a decrease in proliferation in the developing ventricular wall. By E18.5, the phenotype became patchy, with regions of noncompaction interspersed with thick compacted areas of ventricular wall. To study how this altered myoarchitecture of the heart influenced impulse propagation in the developing and adult heart, we used histology with immunohistochemistry for gap junction protein expression, optical mapping, and electrocardiography. At the prenatal stages, a clear reduction in left ventricular wall thickness, accompanied by abnormal conduction of the ectopically paced beat in that area, was observed in mutant hearts. This correlated with increased expression of connexin-40 and connexin-43 in noncompacted trabeculae. In postnatal stages, left ventricular noncompaction was resolved, but the right ventricular wall remained structurally abnormal through to adulthood with cardiomyocyte hypertrophy and retention of myocardial crypts. Thus, this is a novel model of self-correcting embryonic hypertrabeculation cardiomyopathy, but it highlights that remodelling potential differs between the left and right ventricles. We conclude that disruption of ROCK signalling induces both morphological and electrophysiological changes that evolve over time, highlighting the link between myocyte proliferation and noncompaction phenotypes and electrophysiological differentiation.

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The changing morphology of the ventricular walls of mouse and human with increasing gestation

Cited by 2 publications

References 58 publications

Revisiting the Atrioventricular Conduction Axis for the 21st Century

Revisiting the Atrioventricular Conduction Axis for the 21st Century

Morphological, electrophysiological, and molecular alterations in foetal noncompacted cardiomyopathy induced by disruption of ROCK signalling

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