A computational solution of mathematical model for oxygen transport in peripheral nerve

Time-dependent transport of oxygen in a peripheral nerve by simulating oxygen release, diffusion, chemical reactions and consumption in capillaries and surrounding peripheral nerve tissue using Krogh cylinder symmetry has been studied. Radial diffusion of oxygen is from a capillary to a surrounding...

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Published in:Computers in biology and medicine 2004-10, Vol.34 (7), p.633-645
Main Authors: Sharma, G.C., Jain, Madhu
Format: Article
Language:English
Subjects:
Blood Flow Velocity
Capillaries - physiology
Computer applications
Forward and backward reactions
Health care
Humans
Mathematics
Medicine
Oxygen - blood
Oxygen Consumption
Oxygen transport
Peripheral nerve
Peripheral nerves
Peripheral Nerves - blood supply
Resistance ischemia
Tissue
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description Time-dependent transport of oxygen in a peripheral nerve by simulating oxygen release, diffusion, chemical reactions and consumption in capillaries and surrounding peripheral nerve tissue using Krogh cylinder symmetry has been studied. Radial diffusion of oxygen is from a capillary to a surrounding cylinder tissue and axial diffusion to arterial distance to veins. A monoexponential or bioexponential function characterizes the approach of the oxygen tension to a new value. The time-dependent transport of oxygen in peripheral nerve with forward and backward reactions has been considered in this mathematical model which makes it different from earlier-studied models. A numerical technique has been used to find the solution.
doi_str_mv 10.1016/S0010-4825(03)00043-X
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source Library & Information Science Abstracts (LISA); Elsevier
subjects Blood Flow Velocity
Capillaries - physiology
Computer applications
Forward and backward reactions
Health care
Humans
Mathematics
Medicine
Oxygen - blood
Oxygen Consumption
Oxygen transport
Peripheral nerve
Peripheral nerves
Peripheral Nerves - blood supply
Resistance ischemia
Tissue
title A computational solution of mathematical model for oxygen transport in peripheral nerve
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