DN Kenwright scite author profile

DN Kenwright

2Publications

5Citation Statements Received

54Citation Statements Given

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University of Auckland

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Oxygen exchange in the isolated, arrested guinea pig heart: theoretical and experimental observations

Mawson

Hunter

Kenwright

et al. 1994

Biophysical Journal

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A model of oxygen transport in perfused myocardial tissue is presented. Steady-state conditions are assumed in order to mimic the metabolic rate of the arrested heart. The model incorporates Michaelis-Menten dependence of mitochondrial oxygen consumption, oxymyoglobin saturation and oxyhemoglobin saturation on oxygen partial pressure (PO2). The transport equations model both the advective supply of oxygen via the coronary circulation and the diffusive exchange of oxygen between tissues and environment across the epicardial and endocardial surfaces. The left ventricle is approximated by an axisymmetric prolate spheroid and the transport equations solved numerically using finite element techniques. Solution yields the PO2 profile across the heart wall. Integration of this profile yields the simulated rate of metabolic oxygen uptake determined according to the Fick principle. Correction for the diffusive flux of oxygen across the surfaces yields the simulated true metabolic rate of oxygen consumption. Simulated values of oxygen uptake are compared with those measured experimentally according to the Fick principle, using saline-perfused, Langendorff-circulated, K(+)-arrested, guinea pig hearts. Four perfusion variables were manipulated: arterial PO2, environmental PO2, coronary flow and perfusion pressure. In each case agreement between simulated and experimentally determined rates of oxygen consumption gives confidence that the model adequately describes the advective and diffusive transport of oxygen in the isolated, arrested, saline-perfused heart.

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Myoglobin facilitates oxygen delivery during cardiac arrest

Kenwright¹,

Loiselle²

1986

Journal of Molecular and Cellular Cardiology

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DN Kenwright

Oxygen exchange in the isolated, arrested guinea pig heart: theoretical and experimental observations

Myoglobin facilitates oxygen delivery during cardiac arrest

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