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Abstract
Many investigators now use thin hand-sliced, tissue chopper, or Vibratome sections of fresh tissue in various procedures. In our experience brain and nerve sections varying in thickness from less than 40 to more than 300 μm, with or without prior embedding in agar, have a tendency to roll up or curl during aldehyde fixation and buffer washes. Once osmicated, such curled sections cannot be flattened. When the entire cut face of such thin slices is to be studied, sufficiently flat embedding so that some regions are not completely sectioned before others are even sampled is critical. This report describes fixation and flat embedding procedures, developed for light and electron microscopic autoradiographic studies of plastic embedded brain slices about 200 μm thick (Schwartz 1981), which can be applied to any comparable thin slice of nervous tissue (or potentially of many other tissues) to achieve maximally flat tissue faces. Since osmicated tissue slices are usually too thick to be transilluminated for direct examination with the light microscope, the methods described simplify preparation of the semithin sections required for this purpose.