Vital staining of the hearing organ: visualization of cellular structure with confocal microscopy.

Cells inside the intact organ of Corti were labelled with fluorescent probes reflecting various aspects of structure and function. The dyes were introduced into the perilymphatic space by perfusion of the scala tympani of the temporal bone from the guinea-pig maintained in isolation. The dyes were able to diffuse through the basilar membrane and into the organ of Corti where they were spontaneously absorbed by the sensory and supporting cells. Confocal microscopic observation was made through an opening in the apex of the cochlea. A number of different dyes were used; a carbocyanine dye which stains mitochondria; two styryl dyes which are absorbed by the cell membranes and calcein, a cytoplasmic marker that fluoresces in vital cells. Extracellular space was stained by a cell-impermeant Dextran fluorescein. The most striking finding was that the membrane dyes preferentially stained the sensory cells and neural elements whereas the staining of the supporting cells was faint. The cytoplasmic dye in general stained sensory and supporting cells to the same extent. By tilting the organ, a view could be obtained from the side like a radial section through the organ. Outer and inner hair cells with their sensory hairs, nerve fibres and nerve endings, especially under the inner hair cells, could be seen in profile. Introduction of a high molecular weight Dextran into the endolymphatic space outlined the tectorial membrane which was seen in negative contrast. The simultaneous perfusion with a membrane dye stained the hair cells and their sensory hairs. Merging of the two images gave the possibility to examine, in the living tissue, the cilia to tectorial membrane relationship. Of general interest is the finding that the membrane dyes preferentially stained the sensory and neural elements of the nervous system, represented here by the hair cells and nerve fibres of the inner ear.