Preservation of structure and immunoreactivity at the vitreoretinal interface of the rabbit eye

Abstract

The vitreous body is implicated in the etiology and pathology of a variety of retinal conditions. Many such conditions are treated surgically to remove the posterior vitreous from the inner limiting lamina (ILL) of the retina, and there is current interest in the adjunct use of enzymes for this purpose. To evaluate the efficacy of these agents in future preclinical studies, improved preservation and assessment methods were developed to establish a baseline histological profile of the vitreous and retina of the rabbit, to identify and distinguish artifactual vitreoretinal separation from authentic posterior vitreous detachment, and to preserve structural integrity while maintaining antigenicity for immunohistochemical analysis. Two pigmented rabbits each underwent perfusion with one of three fixatives, either: (1) 10% neutral buffered formalin + cetylpyridinium chloride (NBF/CPC), (2) acid-ethanolic formalin + CPC (AEF/CPC), or (3) formaldehyde-glutaraldehyde + CPC (FG/CPC). An eye fixed in NBF/CPC by immersion, from an additional rabbit, was also included for comparison. Eyes were processed whole through paraffin infiltration. Treatments were assessed by immunohistochemical labeling for retinal and cortical vitreous (CV) markers. In contrast to immersion fixation, perfusion with either NBF/CPC or AEF/CPC maintained vitreous adherence to the ILL during histological processing. NBF/CPC proved best for highlighting intralaminar structure and for labeling type II collagen in the CV, particularly with antigen retrieval. AEF/CPC caused condensation of fibrillar elements in the CV. Collagen XVIII in the ILL was observed with AEF/CPC exclusively. Only retinal vessels near the optic nerve head were labeled for type IV collagen. The labeling of glia was useful for distinguishing between cellular and extracellular elements. GF/CPC hindered detection of collagen II and disrupted posterior segment structure. Expression of type II collagen extended from the ONH directly to CV affiliated with the central canal of Cloquet, a feature characteristic of rabbit eyes. Careful tissue preservation and processing techniques minimize artifactual separation of the CV from the ILL. By optimizing the tissue architecture and antigenicity of the vitreoretinal complex, CV may be distinguished from the ILL immunohistochemically. The techniques described may be used to evaluate more effectively the utility of pharmacologic vitreolysis, using experimental animal models.