Your search keyword '"Mohun, Timothy"' showing total 8 results

1. Development of the Heart

Author

Anderson, Robert H., primary, Hikspoors, Jill P.J.M, additional, Lamers, Wouter H., additional, and Mohun, Timothy J., additional

Published

2024

2. Normal Development of the Heart

Author

Hikspoors, Jill P. J. M., Anderson, Robert H., Lamers, Wouter H., Mohun, Timothy J., Anderson, Robert H., editor, Backer, Carl L., editor, Berger, Stuart, editor, Blom, Nico A., editor, Holzer, Ralf J., editor, Robinson, Joshua D., editor, and Abdulla, Ra-id, Editor-in-Chief

Published

2024

3. Cardiac development demystified by use of the HDBR atlas.

Author

Anderson, Robert H., Kerwin, Janet, Lamers, Wouter H., Hikspoors, Jill P. J. M., Mohun, Timothy J., Chaudhry, Bill, Lisgo, Steven, and Henderson, Deborah J.

Subjects

HUMAN biology, DEVELOPMENTAL biology, HUMAN embryos, HISTOLOGY, SPECULATION, ARCHES

Abstract

Much has been learned over the last half century regarding the molecular and genetic changes that take place during cardiac development. As yet, however, these advances have not been translated into knowledge regarding the marked changes that take place in the anatomical arrangements of the different cardiac components. As such, therefore, many aspects of cardiac development are still described on the basis of speculation rather than evidence. In this review, we show how controversial aspects of development can readily be arbitrated by the interested spectator by taking advantage of the material now gathered together in the Human Developmental Biology Resource; HDBR. We use the material to demonstrate the changes taking place during the formation of the ventricular loop, the expansion of the atrioventricular canal, the incorporation of the systemic venous sinus, the formation of the pulmonary vein, the process of atrial septation, the remodelling of the pharyngeal arches, the major changes occurring during formation of the outflow tract, the closure of the embryonic interventricular communication, and the formation of the ventricular walls. We suggest that access to the resource makes it possible for the interested observer to arbitrate, for themselves, the ongoing controversies that continue to plague the understanding of cardiac development. [ABSTRACT FROM AUTHOR]

Published

2024

4. Revisiting the anatomy of the left ventricle in the light of knowledge of its development

Author

Crucean, Adrian, primary, Spicer, Diane E., additional, Tretter, Justin T., additional, Mohun, Timothy J., additional, Cook, Andrew C., additional, Sanchez‐Quintana, Damian, additional, Hikspoors, Jill P. J. M., additional, Lamers, Wouter H., additional, and Anderson, Robert H., additional

Published

2024

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

Author

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

Subjects

MICE, MORPHOLOGY, PREGNANCY, COMPACTING, MEDIAN (Mathematics), MYOCARDIUM

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 standardized views. We used a larger dataset than has previously been available of mouse hearts, covering the period from embryonic day 10.5 to postnatal day 3, supported by images from human hearts. The volume of the trabecular layer increased throughout development, in contrast to what would be expected had there been 'compaction'. During the transition from embryonic to fetal life, the rapid growth of the compact layer diminished the proportion of trabeculations. Similarly, great expansion of the central cavity reduced the proportion of the total cavity made up of intertrabecular recesses. Illustrations of the hearts with the median value of left ventricular trabeculation confirm a pronounced growth of the compact wall, with prominence of the central cavity. This corresponds, in morphological terms, to a reduction in the extent of the trabecular layer. Similar observations were made in the human hearts. We conclude that it is a period of comparatively slow growth of the trabecular layer, rather than so‐called compaction, that is the major determinant of the changing morphology of the ventricular walls of both mouse and human hearts. [ABSTRACT FROM AUTHOR]

Published

2024

6. Development of the arterial roots and ventricular outflow tracts.

Author

Anderson, Robert H., Lamers, Wouter H., Hikspoors, Jill P. J. M., Mohun, Timothy J., Bamforth, Simon D., Chaudhry, Bill, Eley, Lorraine, Kerwin, Janet, Crosier, Moira, and Henderson, Deborah J.

Abstract

The separation of the outflow tract of the developing heart into the systemic and pulmonary arterial channels remains controversial and poorly understood. The definitive outflow tracts have three components. The developing outflow tract, in contrast, has usually been described in two parts. When the tract has exclusively myocardial walls, such bipartite description is justified, with an obvious dogleg bend separating proximal and distal components. With the addition of non‐myocardial walls distally, it becomes possible to recognise three parts. The middle part, which initially still has myocardial walls, contains within its lumen a pair of intercalated valvar swellings. The swellings interdigitate with the distal ends of major outflow cushions, formed by the remodelling of cardiac jelly, to form the primordiums of the arterial roots. The proximal parts of the major cushions, occupying the proximal part of the outflow tract, which also has myocardial walls, themselves fuse and muscularise. The myocardial shelf thus formed remodels to become the free‐standing subpulmonary infundibulum. Details of all these processes are currently lacking. In this account, we describe the anatomical changes seen during the overall remodelling. Our interpretations are based on the interrogation of serially sectioned histological and high‐resolution episcopic microscopy datasets prepared from developing human and mouse embryos, with some of the datasets processed and reconstructed to reveal the specific nature of the tissues contributing to the separation of the outflow channels. Our findings confirm that the tripartite postnatal arrangement can be correlated with the changes occurring during development. [ABSTRACT FROM AUTHOR]

Published

2024

7. Revisiting the anatomy of the right ventricle in the light of knowledge of its development.

Author

Crucean, Adrian, Spicer, Diane E., Tretter, Justin T., Mohun, Timothy J., and Anderson, Robert H.

Subjects

HEART septum, ANATOMY, HUMAN embryos, TRICUSPID valve, HEART

Abstract

Controversies continue regarding several aspects of the anatomy of the morphologically right ventricle. There is disagreement as to whether the ventricle should be assessed in bipartite or tripartite fashion, and the number of leaflets to be found in the tricuspid valve. In particular, there is no agreement as to whether a muscular outlet septum is present in the normally constructed heart, nor how many septal components are to be found during normal development. Resolving these issues is of potential significance to those investigating and treating children with congenitally malformed hearts. With all these issues in mind, we have revisited our own experience in investigating the development and morphology of the normal right ventricle. To assess development, we have examined a large number of datasets, prepared by both standard and episcopic microscopy, from human and murine embryos. In terms of gross anatomy, we have compared dissections of normal autopsied hearts with virtual dissections of datasets prepared using computed tomography. Our developmental and postnatal studies, taken together, confirm that the ventricle is best assessed in tripartite fashion, with the three parts representing its inlet, apical trabecular, and outlet components. The ventricular septum, however, has only muscular and membranous components. The muscular part incorporates a small component derived from the muscularised fused proximal outflow cushions, but this part cannot be distinguished from the much larger part that is incorporated within the free‐standing muscular infundibular sleeve. We confirm that the tricuspid valve itself has three components, which are located inferiorly, septally, and antero‐superiorly. [ABSTRACT FROM AUTHOR]

Published

2024

8. What are the conotruncal malformations?

Author

Anderson RH, Mohun TJ, and Henderson DJ

Abstract

Competing Interests: Conflict of Interest Statement The authors reported no conflicts of interest. The Journal policy requires editors and reviewers to disclose conflicts of interest and to decline handling or reviewing manuscripts for which they may have a conflict of interest. The editors and reviewers of this article have no conflicts of interest.

Published

2024