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Differences in finger skin contact cooling response between an arterial occlusion and a vasodilated condition

Department of Human Sciences, Environmental Ergonomics Research Centre, Loughborough University, Leicestershire, United Kingdom

Submitted 27 June 2005 ; accepted in final form 19 September 2005

To assess the presence and magnitude of the effect of skin blood flow on finger skin cooling on contact with cold objects against the background of circulatory disorder risks in occupational exposures, this study investigates the effect of zero vs. close-to-maximal hand blood flow on short-term (180 s) skin contact cooling response at a contact pressure that allows capillary perfusion of the distal pulp of the fingertip. Six male volunteers touched a block of aluminium with a finger contact force of 0.5 N at a temperature of –2°C under a vasodilated and an occluded condition. Before both conditions, participants were required to exercise in a hot room for 30 min for cutaneous vasodilation to occur (increase in rectal temperature of 1°C). Under the vasodilated condition, forearm blood flow rate rose as high as 16.8 ml·100 ml^–1·min^–1. Under the occluded condition, the arm was exsanguinated, after which a blood pressure cuff was secured on the wrist inducing arterial occlusion. Contact temperature of the finger pad during the subsequent cold contact exposure was measured. No significant difference was found between the starting skin temperatures for the two blood flow conditions, but a distinct difference in shape of the contact cooling curve was apparent between the two blood flow conditions, with Newtonian cooling observed under the occluded condition, whereas a rewarming of the finger skin toward the end of the exposure occurred for the vasodilated condition. Blood flow was found to significantly increase contact temperature from 40 s onward (P < 0.01). It is concluded that, at a finger contact force compatible with capillary perfusion of the finger pad (0.5 N), circulating blood provides a heat input source that significantly affects finger skin contact cooling during a vasodilated state.

arterial occlusion; blood flow; cold contact; circulatory disorders; skin cooling

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