Summary
Following neonatal lesion in the sensorimotor and adjacent cortex (SMC) in the albino rats, a corresponding region in the contralateral intact cortex gave rise to a bilateral corticofugal projection to the pretectal area, superior colliculus, pons, gracile and cuneate nuclei, the nucleus of Bischoff, caudal medullary reticular formation and the spinal cord. The anomalous growth response was greatest when the initial lesion was made within the first three days after birth, but became much reduced as the initial lesion was made at a progressively older age. A significant amount of anomalous projection could, however, still be demonstrated in the pons even in animals first lesioned as late as 20 days postnatal. The sprouting phenomenon was precise and ordered and in the various regions studied, the pattern of anomalous projection mirrored that of the normal projection. The anomalous fibres reached their specific target cells either by deflecting ipsilaterally at the pyramidal decussation to reach the spinal cord and the caudal medulla or by running across the mid-line to the contralateral pons, superior colliculus, pretectal area and the thalamic ventrobasal complex. In contradistinction to the findings of Hicks and D'Amato (1975) no anomalous fibres could be traced to the trigeminal complex and the rostral reticular formation in the medulla. A mechanism of competitive occupation of vacant synaptic sites was proposed to explain the sprouting phenomenon.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Barron, D.H.: The results of unilateral pyramidal section in the rat. J. comp. Neurol. 60, 45–56 (1934)
Bernstein, J.J.: Relationship of corticospinal tract growth to age and body weight in the rat. J. comp. Neurol. 127, 207–218 (1966)
Brown, L.T., Jr.: Projections and terminations of the corticospinal tract in rodents. Exp. Brain Res. 13, 332–350 (1971)
Cunningham, T.J.: Sprouting of optic projections after cortical lesions. Anat. Rec. 172, 298 (1972)
Dunkerley, G.B., Duncan, D.: A light and electron microscopic study of the normal and the degenerating corticospinal tract in the rat. J. comp. Neurol. 137, 143–154 (1969)
Fink, R.P., Heimer, L.: Two methods for selective silver impregnation of degenerating axons and their synaptic endings in the central nervous system. Brain Res. 4, 369–374 (1969)
Gaze, R.M.: Regeneration of the optic nerve in Xenopus laevis. Quart. J. exp. Physiol. 44, 290–309 (1959)
Goodman, D.C., Horel, J.A.: Sprouting of optic tract projections in the brain stem of the rat. J. comp. Neurol. 127, 71–81 (1966)
Gottlieb, D., Cowan, W.M.: Evidence for a temporal factor in the occupation of available synaptic sites during development of the dentate gyrus. Brain Res. 41, 452–456 (1972)
Hall, R.D., Lindholm, E.P.: Organization of motor and somatosensory neocortex in the albino rat. Brain Res. 66, 23–38 (1974)
Guillery, W.: Experiments to determine whether retinogeniculate axons can form translaminar collateral sprouts in the dorsal lateral geniculate nucleus of the cat. J. comp. Neurol. 146, 407–420 (1972)
Guillery, R.W., Kaas, J.H.: The effects of monocular lid suture upon the development of the lateral geniculate nucleus in squirrels, (Sciureus carolinensis). J. comp. Neurol. 154, 433–442 (1974)
Hibbard, E.: Visual recovery following regeneration of the optic nerve through the oculomotor nerve root in xenopus. Exp. Neurol. 19, 350–356 (1967)
Hicks, S.P., Brown, B.L., D'Amato, C.J.: Regeneration and malformation in the nervous system, eye, and mesenchyme of the mammalian embryo after radiation injury. Amer. J. Path. 33, 459–481 (1957)
Hicks, S.P., D'Amato, C.J.: Motor sensory and visual behaviour after hemispherectomy in newborn and mature rats. Exp. Neurol. 29, 416–438 (1970)
Hicks, S.P., D'Amato, C.J.: Motor sensory cortex — corticospinal system and developing locomotion and placing in rats. Amer. J. Anat. 143, 1–42 (1975)
Kerr, F.W.L.: A study of potential sprouting of primary cervical afferents into the chronically denervated trigeminal nuclei. Anat. Rec. 169, 355 (1971)
Krieg, W.J.S.: Connections of the cerebral cortex. Topography of the cortical areas. J. comp. Neurol. 84, 221–275 (1946)
Leong, S.K.: A qualitative electron microscopic investigation of the anomalous corticofugal projections following neonatal lesions in the albino rats. Brain Res. 107, 1–8 (1976)
Leong, S.K., Lund, R.: Anomalous bilateral corticofugal pathways in albino rats after neonatal lesions. Brain Res. 62, 218–221 (1973)
Lim, K.W., Leong, S.K.: Aberrant bilateral projections from the dentate and interposed nuclei in albino rats after neonatal lesions. Brain Res. 96, 306–309 (1975)
Liu, C.N., Chambers, W.W.: Intraspinal sprouting of dorsal root axons. Arch. Neurol. Psychiat. (Chic.) 78, 46–61 (1958)
Lund, R.D., Lund, J.S.: Anatomic studies on the superior colliculus. Invest. Ophthal. II, 434–440 (1972)
Lund, R.D., Lund, J.S.: Reorganization of the retinotectal pathway in rats after neonatal retinal lesions. Exp. Neurol. 40, 377–390 (1973)
Maeda, T., Tohyama, M., Schimizu, N.: Modification of postnatal development of neocortex in rat brain with experimental deprivation of locus coeruleus. Brain Res. 70, 515–520 (1974)
Nauta, W.J.H., Bucher, V.M.: Efferent connections of the striate cortex in the albino rat. J. comp. Neurol. 100, 257–285 (1954)
Raisman, G.: Neuronal plasticity in the septal nuclei of the adult rat. Brain Res. 14, 25–48 (1969)
Schneider, G.E.: Early lesions of superior colliculus: factors affecting the formation of abnormal retinal projections. Brain Behav. Evol. 8, 73–109 (1973)
Schneider, G.E., Nauta, W.J.H.: Formation of anomalous retinal projections after removal of the optic tectum in the neonate hamster. Anat. Rec. 163, 258 (1969)
Steward, O., Cotman, C.W., Lynch, G.S.: Re-establishment of electrophysiologically functional entorhinal cortical input to the dentate gyrus deafferented by ipsilateral entrohinal lesions: Innervation by the contralateral entorhinal cortex. Exp. Brain Res. 18, 396–414 (1973)
Wall, P.D., Egger, M.D.: Formation of new connections in adult rat brains after partial deafferentation. Nature (Lond.) 232, 542–545 (1971)
Zimmerman, E.A., Chambers, W.W., Liu, C.N.: An experimental study of the anatomical organization of the corticobulbar system in the albino rat. J. comp. Neurol. 123, 301–323 (1964)
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Leong, S.K. An experimental study of the corticofugal system following cerebral lesions in the albino rats. Exp Brain Res 26, 235–247 (1976). https://doi.org/10.1007/BF00234929
Received:
Issue Date:
DOI: https://doi.org/10.1007/BF00234929