In vivo detection of experimental ulcerative colitis in rats using fiberoptic confocal imaging (FOCI).

Abstract

Fiberoptic confocal imaging (FOCI) is a noninvasive microscopic technique that enables subsurface imaging of living tissue in vivo. The aim of the present study was to assess the suitability of FOCI for the in vivo detection of early subsurface changes in the mucosal architecture of the colon in a rat model of ulcerative colitis. Mild colitis was induced in Sprague-Dawley rats (180-250 g) by the oral ingestion of 5% (w/v) dextran sulfate sodium (DSS; Mr 40,000 Da) in drinking water. Control animals were provided with water ad libitum. After three, five or seven days of oral consumption of DSS, the mucosal surface of the colon of anesthetised rats was surgically exposed. Morphological changes in the mucosa were examined (Optiscan F900e personal confocal system with rigid endomicroscope attachment; excitation 488 nm argon ion laser, detection above 515 nm) following the topical application of a fluorescent dye (fluorescein, eosin, or acridine orange). Confocal images were correlated with conventional histology and clinical parameters including occult blood and stool consistency. Histological evaluation of colon sections demonstrated that DSS-induced colitis was characterized by focal loss of mucous crypts, loss of epithelial cells, and neutrophilic infiltration into the mucosa. The extent of mucosal damage was positively correlated with the time of ingestion of DSS. Morphological changes associated with disease activity could be detected microscopically in vivo using FOCI but were not evident by visual inspection of the colon surface. Acridine orange enabled imaging of the colonic crypts at the surface of the mucosa. Morphological changes associated with colitis, including inflammatory cell infiltrate, crypt loss, and crypt distortion, could be detected using this fluorophore. Application of fluorescein and eosin enabled subsurface imaging of the lamina propria surrounding the crypts; however, no change in structure was detected in association with colitic disease activity. This study has shown that the topical application of acridine orange enables in vivo imaging of early colitis in a rat model. FOCI may be suitable for the diagnosis and monitoring of human inflammatory bowel disease.