荧光比率检测的解析表达式与多光谱次表面成像中的深度相关。
Analytic expression of fluorescence ratio detection correlates with depth in multi-spectral sub-surface imaging.
机构信息
Thayer School of Engineering, Dartmouth College, 8000 Cummings Hall, Hanover, NH 03755, USA.
出版信息
Phys Med Biol. 2011 Nov 7;56(21):6823-37. doi: 10.1088/0031-9155/56/21/005. Epub 2011 Oct 5.
Abstract
Here we derived analytical solutions to diffuse light transport in biological tissue based on spectral deformation of diffused near-infrared measurements. These solutions provide a closed-form mathematical expression which predicts that the depth of a fluorescent molecule distribution is linearly related to the logarithm of the ratio of fluorescence at two different wavelengths. The slope and intercept values of the equation depend on the intrinsic values of absorption and reduced scattering of tissue. This linear behavior occurs if the following two conditions are satisfied: the depth is beyond a few millimeters and the tissue is relatively homogeneous. We present experimental measurements acquired with a broad-beam non-contact multi-spectral fluorescence imaging system using a hemoglobin-containing diffusive phantom. Preliminary results confirm that a significant correlation exists between the predicted depth of a distribution of protoporphyrin IX molecules and the measured ratio of fluorescence at two different wavelengths. These results suggest that depth assessment of fluorescence contrast can be achieved in fluorescence-guided surgery to allow improved intra-operative delineation of tumor margins.
摘要
在这里,我们基于漫射近红外测量的光谱变形,推导出了生物组织中漫射光传输的解析解。这些解提供了一个封闭形式的数学表达式,预测荧光分子分布的深度与两个不同波长处荧光强度比的对数呈线性关系。该方程的斜率和截距值取决于组织的固有吸收和散射值。如果满足以下两个条件,则会出现这种线性行为:深度超过几毫米,并且组织相对均匀。我们使用含有血红蛋白的漫射体扩散体,通过宽光束非接触式多光谱荧光成像系统采集了实验测量结果。初步结果证实,原卟啉 IX 分子分布的预测深度与在两个不同波长处测量的荧光强度比之间存在显著相关性。这些结果表明,可以在荧光引导手术中实现荧光对比度的深度评估,以允许改进肿瘤边界的术中描绘。
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