1. Skin blood flow from gas transport: helium xenon and laser Doppler compared.
- Author
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Neufeld GR, Galante SR, Whang JM, DeVries D, Baumgardner JE, Graves DJ, and Quinn JA
- Subjects
- Blood Flow Velocity, Blood Gas Monitoring, Transcutaneous methods, Humans, Radionuclide Imaging, Regional Blood Flow, Rheology, Skin diagnostic imaging, Skin Temperature, Xenon Radioisotopes metabolism, Helium pharmacokinetics, Skin blood supply, Xenon pharmacokinetics
- Abstract
A study was designed to compare three independent measures of cutaneous blood flow in normal healthy volunteers: xenon-133 washout, helium flux, and laser velocimetry. All measurements were confined to the volar aspect of the forearm. In a large group of subjects we found that helium flux through intact skin changes nonlinearly with the controlled local skin temperature whereas helium flux through stripped skin, which is directly proportional to skin blood flow, changes linearly with cutaneous temperature over the range 33 degrees to 42 degrees. In a second group of six volunteers we compared helium flux through stripped skin to xenon-133 washout (intact skin) at a skin temperature of 33 degrees, and we found an essentially linear relationship between helium flux and xenon measured blood flow. In a third group of subjects we compared helium flux blood flow (stripped skin) to laser doppler velocimetric (LDV) measurements (intact skin) at adjacent skin sites and found a nonlinear increase in the LDV skin blood flow compared to that determined by helium over the same temperature range. A possible explanation for the nonlinear increases of helium flux through intact skin and of LDV output with increasing local skin temperature is that they reflect more than a change in blood flow. They may also reflect physical changes in the stratum corneum, which alters its diffusional resistance to gas flux and its optical characteristics.
- Published
- 1988
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