Restoration of locomotion in white rats after multiple lesioning of the motor cortex and heterotopic transplantation of cortex fragments
- 21 Downloads
KeywordsMotor Cortex Cortical Tissue Contralateral Hemisphere Neuron Body Novocaine
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.
Unable to display preview. Download preview PDF.
- 3.D. N. Lenkov and N. I. Vereshchak, “Changes in locomotion parameters after partial extirpation of the motor cortex in white rats,” Zh. Vyssh. Nerv. Deyat.,39, No. 1, 118–126 (1989).Google Scholar
- 5.I. B. Ptitsyna, A. B. Vol'nova, and D. N. Lenkov, “Rearrangement of the topical organization of the motor cortex of the rat after lesions to the contralateral hemisphere,” Zh. Vyssh. Nerv. Deyat.,38, No. 3, 506–512 (1988).Google Scholar
- 6.A. J. Castro, T. P. Hogan, J. Chr. Sørensen, B. S. Klausen, E. H. Danielsen, J. Zimmer, and E. J. Neafsey, “Heterotopic neocortical transplants. An anatomical and electrophysiological analysis of host projections to occipital cortical grafts placed into sensorimotor cortical lesions made in newborn rats,” Develop. Brain. Res.,58, 231–236 (1991).CrossRefGoogle Scholar
- 7.M. H. Elsayed, T. P. Hogan, P. L. Shaw, and A. J. Castro, “Use of fetal cortical grafts in hypoxic-ischemic brain injury in neonatal rats,” J. Neurosci. Res.,137, No. 1, 127–141 (1996).Google Scholar
- 8.M. F. Gonzalez, D. M. Jacobowitz, and F. R. Sharp, “Cellular and behavioral characterization of fetal neocortical transplants,” in: Third Intern. Symp. “Neural Transplantation, Restorative Neurology, and Neuroscience,” Elsevier, Cambridge (1989).Google Scholar
- 10.E. M. Jansen, L. Solberg, S. Wilson, and W. C. Low, “Transplantation of fetal neocortical tissue in a rodent model of neonatal ischemic-hypoxia: behavioral analysis,” Am. Soc. Neural Transplant.,2, 33 (1995).Google Scholar
- 14.O. S. Vinogradova, “Some factors controlling morphofunctional integration of the transplanted embryonic brain tissues,” Zh. Vyssh. Nerv. Deyat.,44, No. 3, 414–430 (1994).Google Scholar
© Plenum Publishing Corporation 1998