Fourteen adult and immature rabbits were used for the study of laminar scheme of the gray matter in the spinal cord. The spinal sections were cut transversally or sagitally into 80 ?m, 60 ?m, 15?m, and 2?m-thick sections. The sections were stained with toluidine blue or crecyl fast violet for cell body and with Luxol fast blue for myelin sheath. 2?m-thick sections were only stained with pphenylenediamine. In addition, the spinal sections from 2 cases of the animals were treated histochemically for demonstrating AChE activity. According to the Rexed's principle lamination for the cat, we have found that the cytoarchitectonic organization of the rabbit spinal cord was found to be basically similar to that of the cat except for some differences about the extension and structures of the laminae.

0.05), while the average size of nucleolus at the cervical enlargement was relatively larger than that at the thoracic segments (P

Following injection of HRP into the cerebellum of the rat, the retrogradely labeled′spinal border cells′ in L_1-L_3 of the spinal cord were examined electron microscopically for understanding the synaptology. Six types of terminal boutons (S, F, Cf, T, G and P types) which terminated on the surface of cell bodies or dendrites of the spinal border cells were recognized. The S- and F-boutons contain spherical and elliptical vesicles respectively. These two types of boutons had relatively broad area contacting with the surface of either cell bodies or dendrites. They could be derided into two sub-types respectively. One was the elonagted giant bouton and the other was the round. Cf-type contain flattened vesicles and it make membraneous′contact′ lacking in specialized pre-and postsynaptic membrane thickenings. T-type contain spherical and large granular vesicles, and dense body was seen beneath the post synaptic membrane. G-type boutons contain large granular vesicles in area of presynaptic. P-type boutons form synapses upon the large S-type boutons and contain pleomorphic vesicles. The postsynaptic membrane of S-, T- and G-types is apparently thicker than the presynaptic membrane and showed to be asymmetrical. Further study is necessary with regard to the sources of different terminal boutons contacting with different portions of the spinal border cells.