Blood flow fluctuation underneath human forearm skin caused by local thermal stimuli of different fabrics

The aim of this study was to investigate physiological interactions between fabric and the human body via skin and the resultant disturbance to blood flow, which in turn influences the skin temperature and the sensation of warmth and chilliness, thus the feeling of comfort. We focussed on the effects on the forearm skin blood flow by different local physical stimuli from fabrics. The blood flows were examined under three protocols: (1) using fabrics of different fiber types and fiber blending, (2) different surface characteristics of the same fabric and fiber type, and (3) different moisture levels of the same fabric type. A total of five different fabrics were wrapped over the forearm of a female subject at a good health state for test. The fabric samples were preconditioned for 24 h, and the subject sat for 30 min, in both cold and dry ambient conditions (20.5±0.5 °C, 45±5 p.100 RH) to reach equilibrium before testing. The forearm skin blood flow and temperature were recorded by a laser-Doppler flowmeter (DP1T/7-V2) with two probes mounted on both forearms to eliminate any systematic common mode fluctuations. Several conclusions were drawn from our test data. First, the fabric impact on both skin temperature and blood flow can be significant. Also fabric surface characteristics play important role, especially during the transient heat exchange at the beginning of contact. Finally, moisture level in the samples exhibits considerable influences on skin temperature and blood flow, and the higher the moisture level, the longer the duration of the impact.