Behavior References

REFERENCES

1. Sarnat, H.B. 1987. Disturbances of late neuronal migration in the perinatal period. AJDC 141:969–980.

2. Meencke, H.J. 1983. The density of dystopic neurons in the white matter of the gyrus frontalis inferior in epilepsies. J Neurol 230:171–81.

3. Brodtkorb, E., Nilsen, G., Smevik, O., and Rinck, P.A. 1992. Epilepsy and anomalies of neuronal migration: MRI and clinical aspects. Acta Neurol. Scand. 86:24–32.

4. Kuzniecky, R.I. 1994. Magnetic resonance imaging in developmental disorders of the cerebral cortex. Epilepsia 35:S44–S56.

5. Galaburda, A.M., and Kemper, T.L. 1979. Cytoarchitectonic abnormalities in developmental dyslexia; a case study. Ann. Neurol. 6:94–100.

6. 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.

7. Humphreys, P., Kaufmann, W.E., and Galaburda, A.M. 1990. Developmental dyslexia in women: Neuropathological findings in three cases. Ann. Neurol. 28:727–738.

8. Billette de Villemeur, T., Chiron, C., and Robain, O. 1992. Unlayered polymicrogyria and agenesis of the corpus callosum: A relevant association? J. Neurosci. 83:265–70.

9. 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.

10. Dekaban, A. 1965. Large defects in cerebral hemispheres associated with cortical dysgenesis. J. Neuropathol. Exp. Neurol. 24:512–530.

11. Ferrer, I. 1984. A Golgi analysis of unlayered polymicrogyria. Acta Neuropathol (Berl) 65:69–76.

12. 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.

13. Levine, D.N., Fisher, M.A., and Caviness, V.S. 1974. Porencephaly with microgyria: A pathologic study. Acta Neuropathol (Berl) 29:99–113.

14. Norman, M.G. 1980. Bilateral encephaloclastic lesions in a 26 week gestation fetus: Effect on neuroblast migration. J. Can. Sci. Neurol. 7:191–194.

15. Schmahl, W., Knoedlseder, M., Favor, J., and Davidson, D. 1993. Defects of neuronal migration and the pathogenesis of cortical malformations are associated with small eye (Sey) in the mouse, a point mutation at the pax-6-locus. Acta Neuropathol. 86:126–135.

16. Sekiguchi, M., Abe, H., Shimai, K., Huang, G., Inoue, T., and Nowakowski, R.S. 1994. Disruption of neuronal migration in the neocortex of the dreher mutant mouse. Brain Res. Dev. Brain Res. 77:37–43.

17. Sherman, G.F., Galaburda, A.M., and Geschwind, N. 1985. Cortical anomalies in brains of New Zealand mice: A neuropathologic model of dyslexia? Proc. Natl. Acad. Sci. (USA) 82:8072–8074.

18. Sherman, G.F., Morrison, L., Rosen, G.D., Behan, P.O., and Galaburda, A.M. 1990. Brain abnormalities in immune defective mice. Brain Res. 532:25–33.

19. 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.

20. Sherman, G.F., Stone, J.S., Press, D.M., Rosen, G.D., and Galaburda, A.M. 1990. Abnormal architecture and connections disclosed by neurofilament staining in the cerebral cortex of autoimmune mice. Brain Res. 529:202–207.

21. Sherman, G.F., Stone, J.S., Rosen, G.D., and Galaburda, A.M. 1990. Neocortical VIP neurons are increased in the hemisphere containing focal cerebrocortical microdysgenesis in New Zealand Black Mice. Brain Res. 532:232–236.

22. Sherman, G.F., Stone, L.V., Denenberg, V.H., and Beier, D.R. 1994. A genetic analysis of neocortical ectopias in New Zealand Black mice. Neuroreport 5:721–724.

23. Schrott, L.M., Denenberg, V.H., Sherman, G.F., Waters, N.S., Rosen, G.D., and Galaburda, A.M. 1992. Environmental enrichment, neocortical ectopias, and behavior in the autoimmune NZB mouse. Dev. Brain Res. 67:85–93.

24. Denenberg, V.H., Sherman, G.F., Schrott, L.M., Rosen, G.D., and Galaburda, A.M. 1991. Spatial learning, discrimination learning, paw preference and neocortical ectopias in two autoimmune strains of mice. Brain Res. 562:98–104.

25. Nandy, K., Lal, H., Bennet, M., and Bennett, D. 1983. Correlation between a learning disorder and elevated brain-reactive antibodies in aged C57BL/6 and young NZB mice. Life Sci. 33:1499–1503.

26. Spencer, D.G., Humphries, K., Mathis, D., and Lal, H. 1986. Behavioral impairments related to cognitive dysfunction in the autoimmune New Zealand Black mouse. Behav. Neurosci. 100:353–358.

27. Denenberg, V.H., Mobraaten, L.E., Sherman, G.F., Morrison, L., Schrott, L.M., Waters, N.S., Rosen, G.D., Behan, P.O., and Galaburda, A.M. 1991. Effects of the autoimmune uterine/maternal environment upon cortical ectopias, behavior and autoimmunity. Brain Res. 563:114–122.

28. Denenberg, V.H., Sherman, G.F., Morrison, L., Schrott, L.M., Waters, N.S., Rosen, G.D., Behan, P.O., and Galaburda, A.M. 1992. Behavior, ectopias and immunity in BD/DB reciprocal crosses. Brain Res. 571:323–329.

29. Schrott, L.M., Waters, N.S., Boehm, G.W., Sherman, G.F., Morrison, L., Rosen, G.D., Behan, P.O., Galaburda, A.M., and Denenberg, V.H. 1993. Behavior, cortical ectopias, and autoimmunity in BXSB-Yaa and BXSB-Yaa+ mice. Brain Behav. Immun. 7:205–223.

30. Schrott, L.M., Morrison, L., Wimer, R., Wimer, C., Behan, P.O., and Denenberg, V.H. 1994. Autoimmunity and avoidance learning in NXRF recombinant inbred strains. Brain Behav. Immun. 8:100–110.

31. Sherman, G.F., Rosen, G.D., Stone, L.V., Press, D.M., and Galaburda, A.M. 1992. The organization of radial glial fibers in spontaneous neocortical ectopias of newborn New-Zealand black mice. Dev. Brain Res. 67:279–283.

32. Rosen, G.D., Sherman, G.F., Richman, J.M., Stone, L.V., and Galaburda, A.M. 1992. Induction of molecular layer ectopias by puncture wounds in newborn rats and mice. Dev. Brain Res. 67:285–291.

33. 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.

34. 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. Neuropathol. Exp. Neurol. 50:145–160.

35. Dvor‡k, K., Feit, J., and Jur‡nkov‡, Z. 1978. Experimentally induced focal microgyria and status verrucosus deformis in ratsÑPathogenesis and interrelation histological and autoradiographical study. Acta Neuropathol (Berl) 44:121–129.

36. Dvor‡k, K., and Feit, J. 1977. Migration of neuroblasts through partial necrosis of the cerebral cortex in newborn ratsÑcontribution to the problems of morphological development and developmental period of cerebral microgyria. Acta Neuropathol (Berl) 38:203–212.

37. 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.

38. Ferrer, I., Alc‡ntara, S., Catala, I., and Zujar, M.J. 1993. Experimentally induced laminar necrosis, status verrucosus, focal cortical dysplasia reminiscent of microgyria, and porencephaly in the rat. Exp. Brain Res. 94:261–269.

39. Collins, R.L. 1968. On the inheritance of handedness. I. Laterality in inbred mice. J. Hered. 59:9–12.

40. Collins, R.L. 1985. On the inheritance of direction and degree of asymmetry. Pages 41–71 in Glick, S.D., Ed., Cerebral lateralization in nonhuman species. Academic Press, New York.

41. Waters, N.S., and Denenberg, V.H. 1991. A measure of lateral paw preference in the mouse. Physiol. Behav. 50:853–856.

42. Denenberg, V.H., Talgo, N.W., Waters, N.S., and Kenner, G.H. 1990. A computer-aided procedure for measuring swim rotation. Physiol. Behav. 47:1023–1025.

43. Wimer, R., and Weller, S. 1965. Evaluation of a visual discrimination task for the analysis of the genetics of mouse behavior. Perc. Mot. Skills 20:203–208.

44. Denenberg, V., Talgo, N., Schrott, L., and Kenner, G. 1990. A computer-aided procedure for measuring discrimination learning. Physiol. Behav. 47:1031–1034.

45. Morris, R.G.M., Schenk, F., Tweedie, F., and Jarrad, L.E. 1990. Ibotenate lesions of hippocampus and/or subiculum: Dissociating components of allocentric spatial learning. Eur. J. Neurosci. 1016–1038.

46. Waters, N.S., Sherman, G.F., Galaburda, A.M., and Denenberg, V.H. 1997. Effects of cortical ectopias on spatial delayed-matching-to-sample performance in BXSB mice. Behav Brain Res 84:23–9.

47. 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.

48. Zilles, K. 1985. The Cortex of the Rat: A Stereotaxic Atlas. Pages 121, Springer-Verlag, Berlin.

49. Schrott, L.M., Denenberg, V.H., Sherman, G.F., Rosen, G.D., and Galaburda, A.M. 1992. Lashley maze learning deficits in NZB mice. Physiol Behav 52:1085–9.

50. Goldman, P.S., and Galkin, T.W. 1978. Prenatal removal of frontal association cortex in the fetal rhesus monkey: anatomical and functional consequences in postnatal life. Brain Res. 152:451–485.

51. Goldman-Rakic, P.S., and Rakic, P. 1984. Experimentally modified convolutional patterns in nonhuman primates: Possible relevance of connections to cerebral dominance in humans. Pages 179–192 in Geschwind, N., and Galaburda, A.M., Ed., Biological Foundations of Cerebral Dominance. Harvard University Press, Cambridge, Massachusetts.

52. Schneider, G.E. 1981. Early lesions and abnormal neuronal connections. Trends Neurosci. 4:187–192.

53. Finlay, B.L., Wilson, K.G., and Schneider, G.E. 1979. Anomalous ipsilateral retinotectal projections in Syrian hamsters with early lesions: topography and functional capacity. J. Comp. Neurol. 183:721–740.

54. Kolb, B., and Elliott, W. 1987. Recovery from early cortical damage in rats. II. Effects of experience on anatomy and behavior following frontal lesions at 1 or 5 days of age. Behav. Brain Res. 26:47–56.

55. 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. 26:119–137.

56. Rosen, G.D., Galaburda, A.M., and Sherman, G.F. 1989. Cerebrocortical microdysgenesis with anomalous callosal connections: A case study in the rat. Int. J. Neurosci. 47:237–247.

57. Innocenti, G.M., and Berbel, P. 1991. Analysis of an experimental cortical network: i) Architectonics of visual areas 17 and 18 after neonatal injections of ibotenic acid; similarities with human microgyria. J. Neur. Transplant. 2:1–28.

58. Innocenti, G.M., and Berbel, P. 1991. Analysis of an experimental cortical network: ii) Connections of visual areas 17 and 18 after neonatal injections of ibotenic acid. J. Neur. Transplant. 2:29–54.

59. Miller, B., Nagy, D., Finlay, B.L., Chance, B., Kobayashi, A., and Nioka, S. 1993. Consequences of reduced cerebral blood flow in brain development. I. Gross morphology, histology, and callosal connectivity. Exp. Neurol. 124:326–42.

60. 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.