Non-invasive in vivo human model of post-ischaemic skin preconditioning by measurement of flow-mediated 460-nm autofluorescence.
Jan NizińskiPiotr FilberekGreta SibrechtTomasz KrauzeJacek ZielinskiJaroslaw PiskorskiAndrzej WykrętowiczPrzemyslaw GuzikPublished in: British journal of clinical pharmacology (2021)
The measurement of the 460-nm fluorescence during repeated TIARs allows for a non-invasive in vivo investigation of human skin IPC. Although IPC reduces the overall NADH skin content, the most noticeable NADH reduction appears during ischaemia after earlier TIARs. Studying the skin model of IPC may provide new avenues for in vivo physiological, clinical and pharmacological research on mitochondrial metabolism.