DEVELOPMENT OF CORTICOSPINAL TRACT FIBERS AND THEIR PLASTICITY .2. NEONATAL UNILATERAL CORTICAL DAMAGE AND SUBSEQUENT DEVELOPMENT OF THE CORTICOSPINAL TRACT IN MICE
J. Uematsu et al., DEVELOPMENT OF CORTICOSPINAL TRACT FIBERS AND THEIR PLASTICITY .2. NEONATAL UNILATERAL CORTICAL DAMAGE AND SUBSEQUENT DEVELOPMENT OF THE CORTICOSPINAL TRACT IN MICE, Brain & development, 18(3), 1996, pp. 173-178
In this study, the right cerebral cortices of mice on postnatal day 0
(PO) were cryocoagulated with dry ice, Subsequent development of the c
orticospinal tract (CST) was studied morphologically and quantitativel
y, and was compared with that in age-matched controls, When the pyrami
dal tract was traced anterogradely by injecting HRP into the sensorimo
tor area of the left cerebral cortex of adult operated mice, the right
CST originating from the healthy left hemisphere showed remarkable hy
pertrophy, The number of axons in the CST at the C4-C6 level became ma
ximum on P14 in the control mice and rapidly decreased thereafter, In
the operated mice, the axonal number in the right CST also was maximal
on P14 and then rapidly decreased, However, the decrease in axonal nu
mber after P21 was less in the operated mice than in the controls, Mor
eover, the number of axons showed a slight increase after P56. These r
esults indicate that the physiological elimination of the parent axons
and their collaterals is much lower in the operated mice than in the
controls, and that the increase in axon collaterals from parent axons
in the hypertrophic right CST persists a long time in the operated mic
e.