1. 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.
2. 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) 38:203–212.
3. Ferrer, I. 1993. Experimentally induced cortical malformations in rats. Child Nerv. Syst. 9:403-407.
4. Humphreys, P., Rosen, G.D., Sherman, G.F., and Galaburda, A.M. 1989. Freezing lesions of the newborn rat brain: A model for cerebrocortical microdysgenesis. Soc. Neurosci. Abstr. 15:1120.
5. Marret, S., Mukendi, R., Gadisseux, J., Gressens, P., and Evrard, P. 1995. Effect of ibotenate on brain development: An excitotoxic mouse model of microgyria and postthypoxic-like lesions. J. Neuropathol. Exp. Neurol. 54:358–370.
6. Rosen, G.D., Press, D.M., Sherman, G.F., and Galaburda, A.M. 1992. The development of induced cerebrocortical microgyria in the rat. J. Neuropathol. Exp. Neurol. 51:601–611.
7. 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) 82:93–101.
8. Barth, P.G., and van der Harten, J.J. 1985. Parabiotic twin syndrome with topical isocortical disruption and gastroschisis. Acta Neuropathol (Berl) 67:345–349.
9. Dekaban, A. 1965. Large defects in cerebral hemispheres associated with cortical dysgenesis. J. Neuropathol. Exp. Neurol. 24:512–530.
10. Ferrer, I. 1984. A Golgi analysis of unlayered polymicrogyria. Acta Neuropathol (Berl) 65:69–76.
11. Galaburda, A.M., and Kemper, T.L. 1979. Cytoarchitectonic abnormalities in developmental dyslexia; a case study. Ann. Neurol. 6:94–100.
12. Galaburda, A.M., Sherman, G.F., Rosen, G.D., Aboitiz, F., and Geschwind, N. 1985. Developmental dyslexia: Four consecutive cases with cortical anomalies. Ann. Neurol. 18:222–233.
13. Ho, K.L., Chang, C.H., Yang, S.S., and Chason, J.L. 1984. Neuropathologic findings in thanatophoric dysplasia. Acta Neuropathol (Berl) 63:218–228.
14. Levine, D.N., Fisher, M.A., and Caviness, V.S. 1974. Porencephaly with microgyria: A pathologic study. Acta Neuropathol (Berl) 29:99–113.
15. Norman, M.G. 1980. Bilateral encephaloclastic lesions in a 26 week gestation fetus: Effect on neuroblast migration. J. Can. Sci. Neurol. 7:191–194.
16. Fitch, R.H., Tallal, P., Brown, C., Galaburda, A.M., and Rosen, G.D. 1994. Induced microgyria and auditory temporal processing in rats: A model for language impairment? Cereb. Cortex 4:260–270.
17. Tallal, P., and Piercy, M. 1973. Defects of non-verbal auditory perception in children with developmental aphasia. Nature 241:468–469.
18. Tallal, P., Miller, S., and Fitch, R.H. 1993. Neurobiological basis of speech: a case for the preeminence of temporal processing. Pages 27–47 in Tallal, P., Galaburda, A.M., Llinas, R., and von Euler, C., Ed., Temporal Information Processing in the Nervous System, with Special Reference to Dyslexia and Dysphasia. New York Academy of Sciences, New York.
19. Tallal, P., Miller, S.L., Bedi, G., Byma, G., Wang, X.Q., Nagarajan, S.S., Schreiner, C., Jenkins, W.M., and Merzenich, M.M. 1996. Language comprehension in language-learning impaired children improved with acoustically modified speech. Science 271:81–84.
20. Galaburda, A.M., Menard, M.T., and Rosen, G.D. 1994. Evidence for aberrant auditory anatomy in developmental dyslexia. Proc. Natl. Acad. Sci. USA. 91:8010–8013.
21. Rosen, G.D., Sigel, E.A., Sherman, G.F., and Galaburda, A.M. 1995. The neuroprotective effects of MK-801 on the induction of microgyria by freezing injury to the newborn rat neocortex. Neuroscience 69:107–114.
22. Raz, S., Lauterbach, M.D., Hopkins, T.L., Porter, C.L., Riggs, W., and Sander, J. 1995. Severity of perinatal cerebral injury and developmental outcome: a dose-response relationship. Neuropsychology 9:91–101.
23. McGlone, J. 1980. Sex differences in human brain asymmetry: A critical survey. Behav. Brain Sci. 3:215–263.
24. Roof, R.L., Zhang, Q., Glasier, M.M., and Stein, D.G. 1993. Gender-specific impairment on Morris water maze task after entorhinal cortex lesion. Behav Brain Res 57:47–51.
25. Gualtieri, T., and Hicks, R.E. 1985. An immunoreactive theory of selective male affliction. Behav. Brain Sci. 8:427–441.
26. Finucci, J.M., Isaacs, S.D., Whitehouse, C.C., and Childs, B. 1983. Classification of spelling errors and their relationship to reading ability, sex, grade placement, and intelligence. Brain Lang. 20:340–345.
27. Geschwind, N., and Galaburda, A.M. 1987. Cerebral Lateralization. Biological Mechanisms, Associations, and Pathology. Pages 283, MIT Press/Bradford Books, Cambridge, Massachusetts.
28. Liederman, J., and Flannery, K.A. 1995. The sex ratios of families with a neurodevelopmentally disordered child. J Child Psychol Psychiatry 36:511–7. 29. Neils, J.R., and Aram, D.M. 1986. Handedness and sex of children with developmental language disorders. Brain Lang. 28:53–65.
30. Sherman, G.F., Galaburda, A.M., Behan, P.O., and Rosen, G.D. 1987. Neuroanatomical anomalies in autoimmune mice. Acta Neuropathol. (Berlin) 74:239–242.
31. Rosen, G.D., and Harry, J.D. 1990. Brain volume estimation from serial section measurements: A comparison of methodologies. J. Neurosci. Meth. 35:115–124.
32. Zilles, K. 1985. The Cortex of the Rat: A Stereotaxic Atlas. Pages 121, Springer-Verlag, Berlin.
33. Fitch, R.H., Brown, C.P., O’Connor, K., and Tallal, P. 1993. Functional lateralization for auditory temporal processing in male and female rats. Behav. Neurosci. 107:844–850.
34. Humphreys, P., Kaufmann, W.E., and Galaburda, A.M. 1990. Developmental dyslexia in women: Neuropathological findings in three cases. Ann. Neurol. 28:727–738.
35. Shaywitz, S., Shaywitz, B., Fletcher, J., and Escobar, M. 1990. Prevalence of reading disability in boys and girls. JAMA 264:998–1002.
36. Galaburda, A.M. 1993. Neurology of developmental dyslexia: an update. Current Opinion in Neurobiology 3:237–242.
37. Herman, A.E., Galaburda, A.M., Fitch, H.R., Carter, A.R., and Rosen, G.D. 1997. Cerebral microgyria, thalamic cell size and auditory temporal processing in male and female rats. Cereb. Cort. 7:453–464.
38. Bachevalier, J., and Hagger, C. 1991. Sex differences in the development of learning abilities in primates. Psychoneuroendocrinology 16:177–188.
39. Maccoby, E.E., and Jacklin, C.N. 1974. The Psychology of Sex Differences. Pages Stanford University Press, Palo Alto, CA.
40. Stewart, J., Kuhnemann, S., and Rajabi, H. 1991. Neonatal exposure to gonadal hormones affects the development of monoamine systems in rat cortex. Journal of Neuroendocrinology 3:85–93.
41. Taylor, D.C. 1969. Differential rates of cerebral maturation between sexes and between hemispheres. evidence from epilepsy. Lancet 0:140–142.
42. Halpern, D.F., and Coren, S. 1991. Handedness and life span. New. Engl. J. Med. 324:998.
43. Kimura, D. 1983. Sex differences in cerebral organization for speech and praxic functions. Can J Psych 37:19–35.
44. Kimura, D., and Harshman, R.A. 1984. Sex differences in brain organization for verbal and non-verbal functions. Prog. Brain Res. 61:423–441.
45. Kulynych, J.J., Vladar, K., Jones, D.W., and Weinberger, D.R. 1994. Gender differences in the normal lateralization of the supratemporal cortex: MRI surface-rendering morphometry of heschls gyrus and the planum temporale. Cereb. Cortex. 4:107–118.
46. Shaywitz, B.A., Shaywitz, S.E., Pugh, K.R., Constable, R.T., Skudlarski, P., Fulbright, R.K., Bronen, R.A., Fletcher, J.M., Shankweiler, D.P., Katz, L., and Gore, J.C. 1995. Sex differences in the functional organization of the brain for language. Nature 373:607–609.
47. Witelson, S.F. 1991. Neural sexual mosaicism: Sexual differentiation of the human temporo-parietal region for functional asymmetry. Psychoneuroendocrinology 16:131–153.
48. Wood, F.B., Flowers, D.L., and Naylor, C.E. 1991. Cerebral laterality in functional neuroimaging. Pages 103–116 in Kitterle, F.L., Ed., Cerebral Laterality: Theory and Research. Lawrence Erlbaum Associates., Hillsdale, New Jersey.
49. Bachevalier, J., Hagger, C., and Bercu, B.B. 1989. Gender differences in visual habit formation in 30 month-old rhesus monkeys. Developmental Psychobiology 22:585–599.
50. Bachevalier, J., Brickson, M., Hagger, C., and Mishkin, M. 1990. Age and sex differences in the effects of selective temporal lobe lesions on the formation of visual discrimination habits in rhesus monkeys (Macaca mulatta). Behav. Neurosci. 6:885–899.
51. Clark, A.S., and Goldman-Rakic, P.S. 1989. Gonadal hormones influence the emergence of cortical function in nonhuman primates. Behav. Neurosci. 103:1287–1295.
52. Diamond, M.C., Dowling, G.A., and Johnson, R.E. 1981. Morphological cerebral cortical asymmetry in male and female rats. Exp. Neurol. 71:261–268.
53. Goldman, P.S., Crawford, H.T., Stokes, L.P., Galkin, T.W., and Rosvold, H.E. 1974. Sex-dependent behavioral effects of cerebral cortical lesions in the developing rhesus monkey. Science 186:540–2.
54. Stewart, J., and Kolb, B. 1988. The effects of neonatal gonadectomy and prenatal stress on cortical thickness and asymmetry in rats. Behav. Neural Biol. 49:344–360.
55. Breedlove, S.M. 1992. Sexual dimorphism in the vertebrate nervous system. J. Neurosci. 12:4133–4142.
56. Tobet, S.A., and Fox, T.O. 1992. Sex differences in neuronal morphology influenced hormonally throughout life. Pages 7–24 in Gerall, A.A., Moltz, H., and Ward, I.L., Ed., Handbook of Behavioral Neurobiology, vol. 11: Sexual Differentiation. Plenum Press, New York.
57. Hall, E.D., Pazara, K.E., and Linseman, K.L. 1991. Sex differences in postischemic neuronal necrosis in gerbils. J. Cereb. Blood Flow Metab. 11:292–298.
58. Kolb, B., and Stewart, J. 1995. Changes in the neonatal gonadal hormonal environment prevent behavioral sparing and alter cortical morphogenesis after early frontal cortex lesions in male and female rats. Behav. Neurosci. 109:285–294.
59. Loy, R., and Milner, T.A. 1980. Sexual dimorphism in extent of axonal sprouting in rat hippocampus. Science 208:1282–4.
60. Roof, R.L., Duvdevani, R., and Stein, D.G. 1993. Gender influences outcome of brain injury: Progesterone plays a protective role. Brain Res. 607:333–336.
61. Roof, R.L., Duvdevani, R., Braswell, L., and Stein, D.G. 1994. Progesterone facilitates cognitive recovery and reduces secondary neuronal loss caused by cortical contusion injury in male rats. Exp Neurol 129:64–9.
62. Funkenstein, B., Nimrod, A., and Lindner, H.R. 1980. The development of steroidogenic capability and responsiveness to gonadotropins in cultured neonatal rat ovaries. Endocrinology 106:98–106.
63. Sokka, T.A., and Huhtaniemi, I.T. 1995. Functional maturation of the pituitary-gonadal axis in the neonatal female rat. Biol Reprod 52:1404–9.
64. Weniger, J.P., Zeis, A., and Chouraqui, J. 1993. Estrogen production by fetal and infantile rat ovaries. Reprod Nutr Dev 33:129–36.