Endoscopic diagnosis for gastrointestinal cancers had evolved tremendously over the past decade. With the development of novel technologies including narrow band imaging and autofluorescence imaging, the detection of early gastrointestinal neoplasm is greatly enhanced (6). Endoscopic diagnosis is evolving towards optical histopathology, molecular and immunological imaging (7,8). One of the important issues to enhance the advances
in these technologies is the effectiveness of visualizing neoplastic or cellular changes. Animal model becomes an essential tool forpreclinical investigations of these technologies before its application in human patients. Inhibitors,research,lifescience,medical Kiesslich et al observed the presence of epithelial gaps between intestinal Inhibitors,research,lifescience,medical cells in a living mouse model and correlated this finding to confocal observation of similar gaps in human ileum (9). Though these gaps were identified in living mouse small intestinal epithelium initially, these were not observed in fixed and sectioned human small intestine. This means that a living animal model is essential, otherwise important features may not be
detected even using human cadaveric model. In the current article, Anders et al reported the success of using a new experimental model to allow the use of ordinary clinical endoscopes to examine a small animal Inhibitors,research,lifescience,medical tumor model (10). The tumor model was developed through injection of cancer cell lines to 4 sites of cecal wall of rat through laparotomy. Inhibitors,research,lifescience,medical A second laparotomy was then performed 23 days after the injection, and the growth of tumor was confirmed upon opening of the cecum. Endoscopic examination of the tumor was then performed while the cecum was still perfused, hence confocal endomicroscopy could be performed after intravenous administration of 5% fluorescein. In previous
mentioned animal model examining gaps between small bowel mucosal cells, topical spray of Acriflavine was used for staining. The current model confirmed that intravenous contrast using fluoresein is feasible and safe in animal. The current model, KPT-330 mw however, cannot completely simulate Inhibitors,research,lifescience,medical Adenylyl cyclase the clinical use of endoscopy to recognize gastrointestinal cancers. Normal endoscopy is performed to differentiate neoplastic lesions from inside the lumen of the gastrointestinal tract, while the current model allows the endoscopic technologies to observe tumors when the gastrointestinal tract is surgically unbolted. Therefore, the effectiveness of screening and recognition for early gastrointestinal neoplasia using novel endoscopic technologies could not be fully simulated. Moreover, the tumor utilized for this model is derived fromrhabdomyosarcoma cell line. The feasibility of using other gastrointestinal tract related cancer cell lines necessitate further experiments. Footnotes No potential conflict of interest.
Pancreas cancer is a lethal disease with mortality closely mirroring the incidence.