Portal de investigación
Morphological variations of the conduction system in the atrioventricular zone and its clinical relationship in different species.
Autores de INCLIVA
Participantes ajenos a INCLIVA
- Gomez-Torres, Fabian
- Ballesteros-Acuna, Luis
Grupos y Plataformas de I+D+i
Abstract
Atrioventricular node is responsible for delaying the passage of the electrical impulse to ventricles in order to protect them from fast depolarizations coming from the atria. The importance of this study is to identify the morphological variations of the components of atrioventricular zone that affect the conduction system and its clinical relationship in different species of mammals. We analyzed ten human hearts, nine from horses, eight from pigs, and five from dogs without a clinical history of cardiac pathologies. Histological section thickness of 5 µm were obtained with a microtome and stained with hematoxylin-eosin and Masson's trichrome. We observed both an increase in collagen fibers and a decrease in the size of P cells (nodal pacemaker cells) within the atrioventricular node in dogs, horses and pigs in cases that presented cartilage in fibrous body. The percentage of fundamental substance in atrioventricular node was significantly higher in dogs and the percentage of collagen fibers was higher in pigs, both than in humans. The presence of cartilaginous metaplasia in cardiac fibrous skeleton from different species decreases the size of atrioventricular node and its cells and increases the percentage of collagen fibers within the node, which can reduce the transmission of the electrical impulse to ventricles and therefore predispose to the presentation of ventricular arrhythmias. Morphometric analysis has allowed us to objectively quantify each of the components of AV node and compare them in the different species.
Datos de la publicación
- ISSN/ISSNe:
- 1447-6959, 1447-073X
- Tipo:
- Article
- Páginas:
- 212-220
- PubMed:
- 32997266
ANATOMICAL SCIENCE INTERNATIONAL Springer Verlag
Citas Recibidas en Web of Science: 2
Documentos
- No hay documentos
Filiaciones
Keywords
- Arrhythmia; Atrioventricular node; Cartilage; Fibrous body; P cell
Financiación
Proyectos y Estudios Clínicos
Inmunidad y metabolismo: exploración de nuevas vías fisiopatológicas y oportunidades terapeúticas en el infarto agudo de miocardio.
Investigador Principal: VICENT BODÍ PERIS
2012/114 . CONSELLERIA EDUCACION/INNOVACION,UNIVERSIDADES, CIENCIA Y SOCIEDAD DIGITAL/EMPLEO . 2013
Fibrosis miocárdica tras un infarto de miocardio. Estudio traslacional para la innovación en el diagnóstico mediante resonancia magnética y para el entendimiento de los mecanismos reguladores.
Investigador Principal: VICENT BODÍ PERIS
PI14/00271 . INSTITUTO SALUD CARLOS III . 2015
A multidisciplinary project to advance in basic mechanisms, diagnosis, prediction, and prevention of cardiac damage in reperfused acute myocardial infarction.
Investigador Principal: VICENT BODÍ PERIS
PIE15/00013 . INSTITUTO SALUD CARLOS III . 2016
Cita
Gomez F,Ballesteros L,Ruiz A. Morphological variations of the conduction system in the atrioventricular zone and its clinical relationship in different species. Anat Sci Int. 2021. 96. (2):p. 212-220. IF:1,693. (3).
Morphological variations of the conduction system in the atrioventricular zone and its clinical relationship in different species. Gomez F, Ballesteros L, Ruiz A. ANATOMICAL SCIENCE INTERNATIONAL. 2021 marzo 01. 96 (2):212-220. DOI:10.1007/s12565-020-00575-7. PMID:32997266.
