1. Dvorák, K., and Feit, J. 1977. Migration of neuroblasts through partial necrosis of the cerebral cortex in newborn rats contribution to the problems of morphological development and developmental period of cerebral microgyria. Acta Neuropathol. (Berl.) 38:203212.
2. Dvorák, K., Feit, J., and Juránková, Z. 1978. Experimentally induced focal microgyria and status verrucosus deformis in rats -- Pathogenesis and interrelation histological and autoradiographical study. Acta Neuropathol. (Berl.) 44:121-129.
3. Suzuki, M., and Choi, B.H. 1991. Repair and reconstruction of the cortical plate following closed cryogenic injury to the neonatal rat cerebrum. Acta Neuropathol. (Berl) 82:93101.
4. Rosen, G.D., Press, D.M., Sherman, G.F., and Galaburda, A.M. 1992. The development of induced cerebrocortical microgyria in the rat. J. Neuropath. Exp. Neurol. 51:601611.
5. Humphreys, P., Rosen, G.D., Press, D.M., Sherman, G.F., and Galaburda, A.M. 1991. Freezing lesions of the newborn rat brain: A model for cerebrocortical microgyria. J. Neuropath. Exp. Neurol. 50:145160.
6. Ferrer, I. 1993. Experimentally induced cortical malformations in rats. Child Nerv. Syst. 9:403407.
7. Kolb, B., and Gibb, R. 1991. Sparing of function after neonatal frontal lesions correlates with increased cortical dendritic branching: A possible mechanism for the Kennard effect. Behav. Brain Res. 43:5156.
8. Kolb, B., and Gibb, R. 1993. Possible anatomical basis of recovery of function after neonatal frontal lesions in rats. Behav. Neurosci. 107:799811.
9. Kolb, B., Gibb, R., and van der Kooy, D. 1994. Neonatal frontal cortical lesions in rats alter cortical structure and connectivity. Brain Res. 645:8597.
10. Kolb, B. 1987. Recovery from early cortical damage in rats. I. Differential behavioral and anatomical effects of frontal lesions at different ages of neural maturation. Behav. Brain Res. 25:205220.
11. Kolb, B., Gibb, R., Gorny, G., Debrabander, H., and Whishaw, I.Q. 1995. Cerebral regrowth after cortical lesions in rats. Soc. Neurosci. Abstr. 21:311.
12. Rosen, G.D., Sherman, G.F., and Galaburda, A.M. 1994. Radial glia in the neocortex of adult rats: effects of neonatal brain injury. Brain Res. Dev. Brain Res. 82:127135.
13. Rosen, G.D., Sherman, G.F., and Galaburda, A.M. 1991. Ontogenesis of neocortical asymmetry: A [3H]thymidine study. Neuroscience 41:779790.
14. Miller, M.W., and Nowakowski, R.S. 1988. Use of bromodeoxyuridine-immunohistochemistry to examine the proliferation, migration and time of origin of cells in the central nervous system. Brain Res. 457:4452.
15. Rosen, G.D., Sherman, G.F., and Galaburda, A.M. 1993. Neuronal subtypes and anatomic asymmetry: Changes in neuronal number and cell-packing density. Neuroscience 56:833839.
16. Choi, B.H. 1994. Role of the basement membrane in neurogenesis and repair of injury in the central nervous system. Microsc. Res. Technique 28:193203.
17. Bayer, S.A., Altman, J., Russo, R.J., Dai, X.F., and Simmons, J.A. 1991. Cell migration in the rat embryonic neocortex. J. Comp. Neurol. 307:499516.
18. Kolb, B., Holmes, C., and Whishaw, I.Q. 1987. Recovery from early cortical lesions in rats. III. Neonatal removal of posterior parietal cortex has greater behavioral and anatomical effects than similar removals in adulthood. Behav. Brain Res. 26:119137.