Is our heart a well-designed pump? The heart along animal evolution

A carrier system for gases and nutrients became mandatory when primitive animals grew larger and developed different organs. The first circulatory systems are peristaltic tubes pushing slowly the haemolymph into an open vascular tree without capillaries (worms). Arthropods developed contractile bulg...

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Veröffentlicht in:	European heart journal 2014-09, Vol.35 (34), p.2322-2332
Hauptverfasser:	Bettex, Dominique A, Prêtre, René, Chassot, Pierre-Guy
Format:	Artikel
Sprache:	eng
Schlagworte:	Amphibians - anatomy & histology Amphibians - physiology Animals Arthropoda Arthropods - anatomy & histology Arthropods - physiology Biological Evolution Birds - anatomy & histology Birds - physiology Blood Circulation - physiology Blood Pressure - physiology Fishes - anatomy & histology Fishes - physiology Heart - anatomy & histology Heart - physiology Hemodynamics - physiology Invertebrates - anatomy & histology Invertebrates - physiology Mammals - anatomy & histology Mammals - physiology Mollusca Mollusca - anatomy & histology Mollusca - physiology Reptiles - anatomy & histology Reptiles - physiology Vertebrates - anatomy & histology Vertebrates - physiology
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container_title	European heart journal
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creator	Bettex, Dominique A Prêtre, René Chassot, Pierre-Guy
description	A carrier system for gases and nutrients became mandatory when primitive animals grew larger and developed different organs. The first circulatory systems are peristaltic tubes pushing slowly the haemolymph into an open vascular tree without capillaries (worms). Arthropods developed contractile bulges on the abdominal aorta assisted by accessory hearts for wings or legs and by abdominal respiratory motions. Two-chamber heart (atrium and ventricle) appeared among mollusks. Vertebrates have a multi-chamber heart and a closed circulation with capillaries. Their heart has two chambers in fishes, three chambers (two atria and one ventricle) in amphibians and reptiles, and four chambers in birds and mammals. The ventricle of reptiles is partially divided in two cavities by an interventricular septum, leaving only a communication of variable size leading to a variable shunt. Blood pressure increases progressively from 15 mmHg (worms) to 170/70 mmHg (birds) according to the increase in metabolic rate. When systemic pressure exceeds 50 mmHg, a lower pressure system appears for the circulation through gills or lungs in order to improve gas exchange. A four-chamber heart allows a complete separation of systemic and pulmonary circuits. This review describes the circulatory pumping systems used in the different classes of animals, their advantages and failures, and the way they have been modified with evolution.
doi_str_mv	10.1093/eurheartj/ehu222
format	Article
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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Oxford University Press Journals All Titles (1996-Current); Alma/SFX Local Collection
subjects	Amphibians - anatomy & histology Amphibians - physiology Animals Arthropoda Arthropods - anatomy & histology Arthropods - physiology Biological Evolution Birds - anatomy & histology Birds - physiology Blood Circulation - physiology Blood Pressure - physiology Fishes - anatomy & histology Fishes - physiology Heart - anatomy & histology Heart - physiology Hemodynamics - physiology Invertebrates - anatomy & histology Invertebrates - physiology Mammals - anatomy & histology Mammals - physiology Mollusca Mollusca - anatomy & histology Mollusca - physiology Reptiles - anatomy & histology Reptiles - physiology Vertebrates - anatomy & histology Vertebrates - physiology
title	Is our heart a well-designed pump? The heart along animal evolution
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