Isaac Esteban scite author profile

In this review, we will focus on the growth and morphogenesis of the developing heart, an aspect of cardiovascular development to which Antoon Moorman and colleagues have extensively contributed. Over the last decades, genetic studies and characterization of regionally regulated gene programs have provided abundant novel insights into heart development essential to understand the basis of congenital heart disease. Heart morphogenesis, however, is inherently a complex and dynamic three-dimensional process and we are far from understanding its cellular basis. Here, we discuss recent advances in studying heart morphogenesis and regionalization under the light of the pioneering work of Moorman and colleagues, which allowed the reinterpretation of regional gene expression patterns under a new morphogenetic framework. Two aspects of early heart formation will be discussed in particular: (1) the initial formation of the heart tube and (2) the formation of the cardiac chambers by the ballooning process. Finally, we emphasize that in addition to analyses based on fixed samples, new approaches including clonal analysis, single-cell sequencing, live-imaging and quantitative analysis of the data generated will likely lead to novel insights in understanding early heart tube regionalization and morphogenesis in the near future.

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Pseudodynamic analysis of heart tube formation in the mouse reveals strong regional variability and early left–right asymmetry

Esteban

Schmidt

Desgrange

et al. 2022

Nat Cardiovasc Res

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Understanding organ morphogenesis requires a precise geometrical description of the tissues involved in the process. The high morphological variability in mammalian embryos hinders the quantitative analysis of organogenesis. In particular, the study of early heart development in mammals remains a challenging problem due to imaging limitations and complexity. Here, we provide a complete morphological description of mammalian heart tube formation based on detailed imaging of a temporally dense collection of mouse embryonic hearts. We develop strategies for morphometric staging and quantification of local morphological variations between specimens. We identify hot spots of regionalized variability and identify Nodal-controlled left–right asymmetry of the inflow tracts as the earliest signs of organ left–right asymmetry in the mammalian embryo. Finally, we generate a three-dimensional+t digital model that allows co-representation of data from different sources and provides a framework for the computer modeling of heart tube formation

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Correction: Ivanovitch et al. Growth and Morphogenesis during Early Heart Development in Amniotes. J. Cardiovasc. Dev. Dis. 2017, 4, 20

Ivanovitch

Esteban

Torres

2022

JCDD

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Isaac Esteban

Growth and Morphogenesis during Early Heart Development in Amniotes

Pseudodynamic analysis of heart tube formation in the mouse reveals strong regional variability and early left–right asymmetry

Correction: Ivanovitch et al. Growth and Morphogenesis during Early Heart Development in Amniotes. J. Cardiovasc. Dev. Dis. 2017, 4, 20

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