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Non-Invasive Blood Perfusion Measurements Using a Combined Temperature and Heat Flux Surface Probe.

Authors :
Ricketts PL
Mudaliar AV
Ellis BE
Pullins CA
Meyers LA
Lanz OI
Scott EP
Diller TE
Source :
International journal of heat and mass transfer [Int J Heat Mass Transf] 2008 Nov 01; Vol. 51 (23-24), pp. 5740-5748.
Publication Year :
2008

Abstract

Non-invasive blood perfusion measurement systems have been developed and tested in a phantom tissue and an animal model. The probes use a small sensor with a laminated flat thermocouple to measure the heat transfer and temperature response to an arbitrary thermal event (convective or conductive) imposed on the tissue surface. Blood perfusion and thermal contact resistance are estimated by comparing heat flux data with a mathematical model of the tissue. The perfusion probes were evaluated for repeatability and sensitivity using both a phantom tissue test stand and exposed rat liver tests. Perfusion in the phantom tissue tests was varied by controlling the flow of water into the phantom tissue test section, and the perfusion in the exposed liver tests was varied by temporarily occluding blood flow through the portal vein. The phantom tissue tests indicated that the probes can be used to detect small changes in perfusion (0.005 ml/ml/s). The probes qualitatively tracked the changes in the perfusion of the liver model due to occlusion of the portal vein.

Details

Language :
English
ISSN :
0017-9310
Volume :
51
Issue :
23-24
Database :
MEDLINE
Journal :
International journal of heat and mass transfer
Publication Type :
Academic Journal
Accession number :
19885372
Full Text :
https://doi.org/10.1016/j.ijheatmasstransfer.2008.04.051