Add to ORKGAbstract All embryonic and fetal amniotes possess a ductus(i) arteriosus(i) that allows blood to bypass the pulmonary circulation and the non-functional lungs. The central hemodynamic of embryonic reptiles are unique, given the additional systemic aorta that allows pulmonary circulatory bypass, the left aorta (LAo). The LAo exits in the right ventricle or ‘pulmonary side ’ of reptilian hearts in both embryos and adults, but its functional significance in ovo is unknown. This study investigated the role of the LAo in embryonic American alligators by surgically occluding the LAo and measuring oxygen consumption and, in addition, measured hemodynamic responses to hypoxia in embryonic alligators. We measured systemic cardiac output and primary ...
This article investigates the effects of chronic developmental hypoxia on cardiac mitochondrial func...
During amniotic vertebrate development, the embryo and fetus employ a number of cardiovascular shunt...
Extant crocodilians are a highly apomorphic archosaur clade that is endothermic, yet often achieve l...
All embryonic and fetal amniotes possess a ductus(i) arteriosus(i) that allows blood to bypass the p...
The cardiac and circulatory anatomy of the American alligator (Alligator mississippiensis) is uniqu...
The functional and possible adaptive significance of non-avian reptiles’ dual aortic arch system and...
Crocodilians have complete anatomical separation between the ventricles, similar to birds and mammal...
Crocodilians and birds comprise sister taxa of archosaurs, the development of these vertebrates occu...
In terms of cardiac anatomy, crocodilians occupy an intermediate position between the avian and rep...
There have been several hypotheses proposed discussing the evolutionary preservation of cardiac shun...
Background: The outflow tract of crocodilians resembles that of birds and mammals as ventricular sep...
In this dissertation, I explored the effects of developmental hypoxia on heart contractility in thre...
Abstract Background Cardiac outflow tract patterning and cell contribution are studied using an evo-...
This article investigates the effects of chronic developmental hypoxia on cardiac mitochondrial func...
During amniotic vertebrate development, the embryo and fetus employ a number of cardiovascular shunt...
Extant crocodilians are a highly apomorphic archosaur clade that is endothermic, yet often achieve l...
All embryonic and fetal amniotes possess a ductus(i) arteriosus(i) that allows blood to bypass the p...
The cardiac and circulatory anatomy of the American alligator (Alligator mississippiensis) is uniqu...
The functional and possible adaptive significance of non-avian reptiles’ dual aortic arch system and...
Crocodilians have complete anatomical separation between the ventricles, similar to birds and mammal...
Crocodilians and birds comprise sister taxa of archosaurs, the development of these vertebrates occu...
In terms of cardiac anatomy, crocodilians occupy an intermediate position between the avian and rep...
There have been several hypotheses proposed discussing the evolutionary preservation of cardiac shun...
Background: The outflow tract of crocodilians resembles that of birds and mammals as ventricular sep...
In this dissertation, I explored the effects of developmental hypoxia on heart contractility in thre...
Abstract Background Cardiac outflow tract patterning and cell contribution are studied using an evo-...
This article investigates the effects of chronic developmental hypoxia on cardiac mitochondrial func...
During amniotic vertebrate development, the embryo and fetus employ a number of cardiovascular shunt...
Extant crocodilians are a highly apomorphic archosaur clade that is endothermic, yet often achieve l...