Abstract
EPR imaging with modulated field gradients provides the possibility for obtaining an EPR spectrum in a selected volume We demonstrate the feasibility of X-band (9.5GHz) electron paramagnetic resonance (EPR) imaging in skin biopsies of hairless mice. One- (ID) and two-dimensional (2D) EPR images of the persistent free radical di-tertiary-butyl-nitroxide are measured. At a microwave frequency of 9.5 GHz (X-band), 2D images are obtained in skin biopsies with an actual point distinction resolution of 25 μm. In a biological model system. 2D images are measured at L-band frequency (2.0 GHz) with a pixel resolution of 61 μm. and a theoretical spatial resolution of 12.5 μm. In combination with the spin labeling and spin trapping technique. EPR imaging is the most direct approach to analyzing spatial distribution of physico-chemical properties in skin, such as membrane fluidity and polarity. as well as detection of free radicals.