Mechanical tissue optical clearing devices: enhancement of light penetration in ex vivo porcine skin and adipose tissue.

BACKGROUND AND OBJECTIVE: The complex morphological structure of tissue and associated variations in the indices of refraction of components therein, provides a highly scattering medium for visible and near-infrared wavelengths of light. Tissue optical clearing permits delivery of light deeper into tissue, potentially improving the capabilities of various light-based therapeutic techniques, such as adipose tissue removal or reshaping.

STUDY DESIGN/MATERIALS AND METHODS: We report results of a study to evaluate effectiveness of novel mechanical tissue optical clearing devices (TOCD) using white light photography and infrared imaging radiometry (IIR). The TOCD consists of a pin array and vacuum pressure source applied directly to the skin surface. IIR images recorded light absorption and temperature increase of ex vivo porcine skin and adipose during laser irradiation (980 and 1,210 nm) before and after TOCD application.

RESULTS: White light photographic images of in vivo human skin demonstrated localized compression and altered visual appearance, indicative of water and blood movement in skin. White light photographic images also showed increased visible light transport through regions of ex vivo porcine skin compressed by TOCD pins. Rate of heating in sub-dermal adipose regions beneath TOCD pins was twofold higher following TOCD application.

CONCLUSIONS: Results of our study suggest that mechanical optical clearing may provide a means to deliver increased light fluence to dermal and adipose tissues.