Fluorescence lifetime (FLT) of fluorophores is sensitive to the changes in their surrounding microenvironment, and hence it can quantitatively reveal the physiological characterization of the tissue under investigation. Fluorescence lifetime imaging microscopy (FLIM) provides not only morphological but also functional information of the tissue by producing spatially resolved image of fluorophore lifetime, which can be used as a signature of disorder and/or malignancy in diseased tissues. In this paper, we begin by introducing the basic principle and common detection methods of FLIM. Then the recent advances in the FLIM-based diagnosis of three different skin cancers, including basal cell carcinoma (BCC), squamous cell carcinoma (SCC) and malignant melanoma (MM) are reviewed. Furthermore, the potential advantages of FLIM in skin cancer diagnosis and the challenges that may be faced in the future are prospected.

本文提出了一种新型的全光学光声/OCT双模态成像系统。该系统利用同一个低相干迈克尔逊干涉仪即可实现非接触式光声成像和OCT于一体,系统装置结构简单,可同时获取生物组织的吸收与散射结构信息。通过模拟实验证明了该双模态成像系统的可行性及成像能力,并对活体小鼠耳朵同时进行光声/OCT成像测试,实验结果表明非接触式光声/OCT双模态成像系统可以实现生物组织内的微血管及散射结构的高分辨率成像。进一步地,我们将光声/OCT双模态成像系统应用于基底细胞癌的检测中,获得了初步的研究结果,表明了该系统在皮肤肿瘤诊断中的具有潜在的应用价值。

理论模拟与分析了皮肤基底细胞癌症组织的自体荧光光谱特征.在实验分析基底细胞癌症组织显微荧光图像特征基础上, 建立相应的八层组织光学模型.采用蒙特卡罗模拟方法, 分析基底细胞癌症组织在可见光波段的漫反射特征, 并对光学模型进行完善.同时, 基于光与组织的相互作用机理与蒙特卡罗方法, 模拟分析皮肤组织结构对其自体荧光光子的吸收和散射作用, 讨论自体荧光在组织内部的传输机制, 并最终重构在体基底细胞癌症组织的荧光光谱.结果表明, 理论重构的荧光光谱与在体实验结果基本一致.本研究工作为分析研究癌症病变组织内的光谱特性, 阐述生物组织内部自体荧光产生与传播机制, 提供了一种理论研究方法.

目的: 探求一种简单,安全,效果好的基底细胞癌的治疗方法.方法: 对14例基底细胞癌患者在局麻下用CO2激光行基底细胞癌切除术或切除+气化术.结果: 患者术中、术后出血少,伤口恢复快,愈合良好,疤痕表浅,随访未见复发.结论: CO₂激光用于治疗基底细胞癌效果良好,无明显副作用,操作简单值得推广.