%0 Journal Article
%T Reconstruction of Thermographic Signals to Map Perforator Vessels in Humans.
%A Liu WM
%A Maivelett J
%A Kato GJ
%A Taylor JG
%A Yang WC
%A Liu YC
%A Yang YG
%A Gorbach AM
%J Quant Infrared Thermogr J
%V 9
%N 2
%D Jan 2012 1
%M 23667389
%F 1.643
%R 10.1080/17686733.2012.737157
%X Thermal representations on the surface of a human forearm of underlying perforator vessels have previously been mapped via recovery-enhanced infrared imaging, which is performed as skin blood flow recovers to baseline levels following cooling of the forearm. We noted that the same vessels could also be observed during reactive hyperaemia tests after complete 5-min occlusion of the forearm by an inflatable cuff. However, not all subjects showed vessels with acceptable contrast. Therefore, we applied a thermographic signal reconstruction algorithm to reactive hyperaemia testing, which substantially enhanced signal-to-noise ratios between perforator vessels and their surroundings, thereby enabling their mapping with higher accuracy and a shorter occlusion period.