Quantitative analyses of thalamic and cortical origins of neurons projecting to the rostral and caudal forelimb motor areas in the cerebral cortex of rats.

On the basis of studies using intracortical microstimulation, the existence of rostrocaudally separate two forelimb representation areas has been inferred in the motor cortex of rats. They are termed caudal and rostral forelimb areas (CFA and RFA). In this study, it was confirmed first that RFA and CFA are located in cytoarchitectonically distinct areas (medial and lateral parts of agranular cortex, respectively). In the second part of this study, the distribution of thalamic and cortical neurons projecting to RFA and CFA was quantitatively compared by injections of small and relatively constant amounts of retrograde fluorescent dyes (diamidino yellow and fast blue) into these areas. It was observed that (1) main inputs to RFA originated from AGl, namely CFA (2) CFA received dominant inputs from AGm including RFA and caudally adjacent granular cortex and (3) wider cortical areas and larger number of neurons projected to CFA than to RFA. As for the thalamocortical projections, both RFA and CFA received inputs from various thalamic nuclei, such as VL, VM, Po, PC, PF, CL, but cells projecting to RFA and CFA were differentially located in each nucleus. It was found that labeled cell number and/or density in VM, PC, CL, CM and MD after RFA injections were significantly larger than those after CFA injections. On the other hand, labeled cell number and/or density in VPL and VL were significantly higher after CFA injections than after RFA injections. In comparison with findings in primates, the results suggest that the cortical motor areas of rats may be specialized for different aspects of motor control. Copyright 1998 Elsevier Science B.V.