Use of Multiphoton Microscopy to Diagnose Liver Cancer and Lung Metastasis in an Orthotopic Rat Model

Abstract

Liver or lung biopsy for suspicious lesions has several disadvantages such as bleeding, bile leak or pneumothorax, needle track seeding, and time-consuming histopathological procedure. The ability to directly observe cellular and subcellular details and then perform "optical biopsy" is a major goal in the development of new interventional techniques. Multiphoton microscopy (MPM) enables real-time noninvasive visualization of tissue architecture and cell morphology in live tissue. We performed a study to evaluate whether MPMcan make real-time optical diagnosis for liver cancer and lung metastasis using an orthotopic rat model with Morris hepatoma. We found that real-time high-resolution MPMimaging could clearly show tissue architecture and cell morphology. In the normal liver tissue, MPMimaging clearly revealed the blood-filled sinusoids and cords of hepatocytes. In the cancerous tissue, MPMimaging clearly illustrated that cancer cells displayed marked cellular and nuclear pleomorphism. MPMimages were comparable to golden standard hematoxylin-eosin staining images. Moreover, MPMimaging had deep penetration with the capability of optical sectioning. In short, MPMcan make real-time optical diagnosis for liver cancer and lung metastasis. This study provides the groundwork for further using multiphoton endoscopy to perform real-time noninvasive "optical biopsy" for liver cancer and lung metastasis in the near future.