Cytological Staining Procedures Applicable to Methacrylate-Embedded Tissues

Abstract

Experiments indicate that osmic-fixed, plastic-embedded sections are suitable for examination in the light microscope. Nuclei, mitochondia, cellular membranes and cytoplasmic granules are readily demonstrable by phase microscopy. Connective tissue stains permit the identification of elastic and collagenous fibers. Glycogen and other carbohydrate-containing structures are demonstrable by the periodic acid-Schiff and the ammoniacal silver nitrate procedures. It is, therefore, possible to cross-check individual structures by comparing alternate thick and thin sections, examined in the light microscope and electron microscope respectively. Several other advantages pertain to plastic embedded tissues. The sections compare favorably in translucency and in their lack of distortion with material embedded in celloidin, yet the procedure is simpler and much more rapid. Sections of any desired thinness can be prepared, and alternate thick and thin sections are easily forthcoming. When examined in the phase-contrast microscope, mitochondrial preparations become routinely available without the uncertainties of most of the mitochondrial staining methods. It appears, therefore, that plastic embedding should find a useful place among the methods for light microscopy as well as in the armamentarium of the electron microscopist.