Rylander Christopher G, Milner Thomas E, Baranov Stepan A, Nelson J Stuart
Mechanical Engineering, Biomedical Engineering and Sciences, Virginia Tech, Blacksburg, Virginia 24061, USA.
Lasers Surg Med. 2008 Dec;40(10):688-94. doi: 10.1002/lsm.20718.
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.
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.
Results of our study suggest that mechanical optical clearing may provide a means to deliver increased light fluence to dermal and adipose tissues.
组织复杂的形态结构以及其中各成分折射率的相关变化,为可见光和近红外光波长提供了一种高度散射的介质。组织光学透明化能使光更深地穿透组织,有可能提高各种基于光的治疗技术的能力,如去除或重塑脂肪组织。
研究设计/材料与方法:我们报告了一项研究结果,该研究使用白光摄影和红外成像辐射测量法(IIR)评估新型机械组织光学透明化装置(TOCD)的有效性。TOCD由一个针阵列和直接施加于皮肤表面的真空压力源组成。IIR图像记录了在应用TOCD前后,离体猪皮肤和脂肪在激光照射(980和1210纳米)期间的光吸收和温度升高情况。
体内人体皮肤的白光摄影图像显示出局部压缩和视觉外观改变,这表明皮肤中有水和血液流动。白光摄影图像还显示,通过TOCD针压缩的离体猪皮肤区域的可见光传输增加。应用TOCD后,TOCD针下方皮下脂肪区域的加热速率提高了两倍。
我们的研究结果表明,机械光学透明化可能提供一种向真皮和脂肪组织输送更高光通量的方法。