Abstract
While colonoscopy is the gold standard for diagnosis and classification of colorectal cancer (CRC), its sensitivity and specificity are operator-dependent and are especially poor for small and flat lesions. Contemporary imaging modalities, such as optical coherence tomography (OCT) and near-infrared (NIR) fluorescence, have been investigated to visualize microvasculature and morphological changes for detecting early stage CRC in the gastrointestinal (GI) tract. In our study, we developed a multimodal endoscopic system with simultaneous co-registered OCT and NIR fluorescence imaging. By introducing a contrast agent into the vascular network, NIR fluorescence is able to highlight the cancer-suspected area based on significant change of tumor vascular density and morphology caused by angiogenesis. With the addition of co-registered OCT images to reveal subsurface tissue layer architecture, the suspected regions can be further investigated by the altered light scattering resulting from the morphological abnormality. Using this multimodal imaging system, an in vivo animal study was performed using a F344-ApcPircUwm rat, in which the layered architecture and microvasculature of the colorectal wall at different time points were demonstrated. The co-registered OCT and NIR fluorescence images allowed the identification and differentiation of normal colon, hyperplastic polyp, adenomatous polyp, and adenocarcinoma. This multimodal imaging strategy using a single imaging probe has demonstrated the enhanced capability of identification and classification of CRC compared to using any of these technologies alone, thus has the potential to provide a new clinical tool to advance gastroenterology practice.
Highlights
Colorectal cancer (CRC) is the third most common type of cancer, consisting of about 10% of all cancer cases globally [1]
3.1 Dual modality imaging Using our multimodal imaging system, the disease progression of CRC can be visualized by NIR fluorescence with co-registered optical coherence tomography (OCT) images
While OCT and NIR fluorescence imaging each can individually provide clinically valuable information to supplement conventional white-light colonoscopy, combining these two imaging modalities further enhances the practicality of this dual-modality system
Summary
Colorectal cancer (CRC) is the third most common type of cancer, consisting of about 10% of all cancer cases globally [1]. Colonoscopy (i.e., white light endoscopy) is the gold standard for CRC diagnostics as it provides visualization of abnormal tissue growth on the mucous membrane in the colon or rectum, known as colorectal polyps. In addition to CRC screening, physicians utilize colonoscopy to excise small polyps, and biopsy larger polyps or tumors for further diagnosis, in a minimally invasive manner. While being the standard imaging technique, colonoscopy provides only surface morphology of the rectal wall and cannot resolve the abnormal layer architecture and subsurface microvasculature which are highly associated with CRC. The size of the polyp affects the accuracy of CRC diagnostics. An imaging system that provides a high sensitivity and specificity for differentiating all kinds of polyps is necessary
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