dorsal/arxiv
View SchemaTwo boundary model for freezing front propagation in biological tissue
| Authors | Vasyl Gafiychuk, Ihor Lubashevsky, Roman Andrushkiw |
|---|---|
| Categories | |
| ArXiv ID | patt-sol/9808009 |
| URL | https://arxiv.org/abs/patt-sol/9808009 |
Abstract
The response of the living tissue to the effects of strong heating or cooling can cause the blood flow rate to vary by an order of magnitude. A mathematical model for the freezing of living tissue is formulated which takes into account the nonlocal temperature dependence of the blood flow rate when the temperature distribution in the tissue is substantially nonuniform, as in cryosurgery.
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"abstract": "The response of the living tissue to the effects of strong heating or cooling\ncan cause the blood flow rate to vary by an order of magnitude. A mathematical\nmodel for the freezing of living tissue is formulated which takes into account\nthe nonlocal temperature dependence of the blood flow rate when the temperature\ndistribution in the tissue is substantially nonuniform, as in cryosurgery.",
"arxiv_id": "patt-sol/9808009",
"authors": [
"Vasyl Gafiychuk",
"Ihor Lubashevsky",
"Roman Andrushkiw"
],
"categories": [
"patt-sol",
"nlin.PS",
"physics.bio-ph",
"physics.med-ph",
"q-bio"
],
"title": "Two boundary model for freezing front propagation in biological tissue",
"url": "https://arxiv.org/abs/patt-sol/9808009"
},
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"type": "Model",
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