Pd. Adelson et al., DEVELOPMENT OF A CROSSED CORTICOTECTAL PATHWAY FOLLOWING CEREBRAL HEMISPHERECTOMY IN CATS - A QUANTITATIVE STUDY OF THE PROJECTING NEURONS, Developmental brain research, 86(1-2), 1995, pp. 81-93
A hypothetical mechanism for the partial sparing of visual function in
the contralateral visual field following cerebral hemispherectomy ear
ly in life is the formation of a new corticotectal pathway arising fro
m the remaining primary visual cortex (areas 17 and 18) that projects
to the contralateral superior colliculus. To test this hypothesis, the
left superior colliculus of intact adult and neonatal (5-15 days old)
cats and of adult cats with a left cerebral hemispherectomy sustained
neonatally (7-9 days old) or in adulthood, was injected with WGA-HRP
and the brains were processed for combined TMB/DAB histochemistry. The
primary visual cortex was examined, labelled neurons were counted and
the cross sectional area of their somata was measured. The left prima
ry visual cortex of intact adult animals exhibited a mean of 959.68 la
belled cells +/- 406.5 (S.E.), with a mean soma size of 366.7 mu m(2)
+/- 131.2. For the neonatal intact cats, there was a mean of 75.31 +/-
21.08 cells within the left primary visual cortex which exhibited a m
ean soma size of 249.56 mu m(2) +/- 68.18. The peak cell size distribu
tion for both intact groups was similar at 300 mu m(2). Virtually no l
abelled neurons were detected in the right primary visual cortex of in
tact animals (neonatal or adult). For neonatal-hemispherectomized cats
, the remaining right primary visual cortex exhibited a mean cell coun
t of 351.09 +/- 126.3 cells, with a mean soma size of 436.1 mu m(2) +/
- 131.5, and a peak cell size distribution of 400 mu m(2). Finally, fo
r adult-hemispherectomized animals, the contralateral primary visual c
ortex exhibited 68.27 +/- 20.13 neurons having a mean soma size of 486
.6 mu m(2) +/- 143.2 with a peak cell size distribution of 500 mu m(2)
. These results indicate that reorganization of the corticotectal path
way occurs in both adult- and neonatal-hemispherectomized cats but is
more pronounced in neonatal-lesioned animals. In addition, the cells o
f origin of this reorganized pathway tended to be larger, perhaps in r
esponse to a greater axonal arborization.