Department of Biomedical Engineering, Cornell University, Ithaca, NY, USA.
Transl Oncol. 2010 Jun 1;3(3):181-94. doi: 10.1593/tlo.09310.
Ovarian cancer remains the most frequently lethal of the gynecologic cancers owing to the late detection of this disease. Here, by using human specimens and three mouse models of ovarian cancer, we tested the feasibility of nonlinear imaging approaches, the multiphoton microscopy (MPM) and second harmonic generation (SHG) to serve as complementary tools for ovarian cancer diagnosis. We demonstrate that MPM/SHG of intrinsic tissue emissions allows visualization of unfixed, unsectioned, and unstained tissues at a resolution comparable to that of routinely processed histologic sections. In addition to permitting discrimination between normal and neoplastic tissues according to pathological criteria, the method facilitates morphometric assessment of specimens and detection of very early cellular changes in the ovarian surface epithelium. A red shift in cellular intrinsic fluorescence and collagen structural alterations have been identified as additional cancer-associated changes that are indiscernible by conventional pathologic techniques. Importantly, the feasibility of in vivo laparoscopic MPM/SHG is demonstrated by using a "stick" objective lens. Intravital detection of neoplastic lesions has been further facilitated by low-magnification identification of an indicator for cathepsin activity followed by MPM laparoscopic imaging. Taken together, these results demonstrate that MPM may be translatable to clinical settings as an endoscopic approach suitable for high-resolution optical biopsies as well as a pathology tool for rapid initial assessment of ovarian cancer samples.
由于这种疾病的晚期发现,卵巢癌仍然是妇科癌症中最常见的致命疾病。在这里,我们使用人体标本和三种卵巢癌小鼠模型,测试了非线性成像方法、多光子显微镜 (MPM) 和二次谐波产生 (SHG) 作为卵巢癌诊断的补充工具的可行性。我们证明,固有组织发射的 MPM/SHG 允许在与常规处理的组织学切片相当的分辨率下对未经固定、未经切片和未经染色的组织进行可视化。除了根据病理标准区分正常组织和肿瘤组织外,该方法还便于对标本进行形态计量评估,并检测卵巢表面上皮的早期细胞变化。已经确定细胞内固有荧光的红移和胶原结构的改变是另外一些与癌症相关的变化,这些变化是常规病理技术无法识别的。重要的是,通过使用“棒”物镜证明了体内腹腔镜 MPM/SHG 的可行性。通过低倍放大识别组织蛋白酶活性的指示剂,然后进行 MPM 腹腔镜成像,进一步促进了肿瘤病变的活体检测。总之,这些结果表明,MPM 可以转化为临床环境,作为一种适合高分辨率光学活检的内窥镜方法,以及一种用于快速初步评估卵巢癌样本的病理工具。