review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1016/S0967-5868(03)00004-3 |
P698 | PubMed publication ID | 12948453 |
P50 | author | David Howells | Q45279396 |
P2093 | author name string | Peter E Batchelor | |
P2860 | cites work | Regeneration of adult axons in white matter tracts of the central nervous system | Q28257832 |
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Recovery from spinal cord injury mediated by antibodies to neurite growth inhibitors | Q28283982 | ||
GAP-43: an intrinsic determinant of neuronal development and plasticity | Q28303146 | ||
Embryonic stem cells develop into functional dopaminergic neurons after transplantation in a Parkinson rat model | Q28344741 | ||
Bcl-2 promotes regeneration of severed axons in mammalian CNS | Q28504892 | ||
Chondroitinase ABC promotes functional recovery after spinal cord injury | Q29615017 | ||
Transplantation of embryonic dopamine neurons for severe Parkinson's disease | Q29617304 | ||
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Lesioned corticospinal tract axons regenerate in myelin-free rat spinal cord | Q33606266 | ||
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Cell replacement therapies for central nervous system disorders. | Q33921503 | ||
Xenotransplantation for CNS repair: immunological barriers and strategies to overcome them | Q33976248 | ||
Intrinsic changes in developing retinal neurons result in regenerative failure of their axons | Q34043258 | ||
Simultaneous intrastriatal and intranigral fetal dopaminergic grafts in patients with Parkinson disease: a pilot study. Report of three cases | Q34117421 | ||
Plasticity of motor systems after incomplete spinal cord injury | Q34205594 | ||
Nogo domains and a Nogo receptor: implications for axon regeneration | Q34245267 | ||
Restoration of function by replacement of spinal cord segments in the rat. | Q48190443 | ||
Adrenal medulla grafts enhance recovery of striatal dopaminergic fibers | Q48219303 | ||
Regrowth of axons into the distal spinal cord through a Schwann-cell-seeded mini-channel implanted into hemisected adult rat spinal cord. | Q48228432 | ||
Neurite growth inhibitors restrict plasticity and functional recovery following corticospinal tract lesions | Q48242887 | ||
Growth of ascending spinal axons in CNS scar tissue | Q48245350 | ||
Degradation of chondroitin sulfate proteoglycan enhances the neurite-promoting potential of spinal cord tissue | Q48313494 | ||
Regeneration of brainstem-spinal axons after lesion and immunological disruption of myelin in adult rat. | Q48316154 | ||
Afferent and efferent connections of striatal grafts implanted into the ibotenic acid lesioned neostriatum in adult rats. | Q48423326 | ||
Olfactory ensheathing glia: properties and function | Q48429219 | ||
Functional recovery and enhanced corticofugal plasticity after unilateral pyramidal tract lesion and blockade of myelin-associated neurite growth inhibitors in adult rats. | Q48454419 | ||
Central neuron-glial and glial-glial interactions following axon injury | Q48461899 | ||
Specialized neuroglial arrangement may explain the capacity of vomeronasal axons to reinnervate central neurons | Q48555998 | ||
BDNF and NT-4/5 prevent atrophy of rat rubrospinal neurons after cervical axotomy, stimulate GAP-43 and Talpha1-tubulin mRNA expression, and promote axonal regeneration | Q48567818 | ||
Repair of adult rat corticospinal tract by transplants of olfactory ensheathing cells | Q48626271 | ||
Adenoviral vector-mediated expression of B-50/GAP-43 induces alterations in the membrane organization of olfactory axon terminals in vivo. | Q48633464 | ||
Intrahippocampal septal grafts ameliorate learning impairments in aged rats | Q48635415 | ||
Glia are a unique substrate for the in vitro growth of central nervous system neurons | Q48647755 | ||
Short- and long-term survival and function of unilateral intrastriatal dopaminergic grafts in Parkinson's disease | Q48671006 | ||
Long-term improvement in patients with severe Parkinson's disease after implantation of fetal ventral mesencephalic tissue in a cavity of the caudate nucleus: 5-year follow up in 10 patients. Clinica Puerta de Hierro Neural Transplantation Group | Q48701183 | ||
Injury-induced neuronotrophic activity in adult rat brain: correlation with survival of delayed implants in the wound cavity | Q48718977 | ||
Induced acetylcholinesterase-rich layer in rat dentate gyrus following entorhinal lesions | Q48741060 | ||
The nigrostriatal dopaminergic system in MPTP-treated mice shows more prominent recovery by syngeneic adrenal medullary graft than by allogeneic or xenogeneic graft | Q48741286 | ||
Putative chromaffin cell survival and enhanced host-derived TH-Fiber innervation following a functional adrenal medulla autograft for Parkinson's disease | Q48762940 | ||
Histological evidence of fetal pig neural cell survival after transplantation into a patient with Parkinson's disease | Q48792188 | ||
Fetal nondopaminergic neural implants in parkinsonian primates. Histochemical and behavioral studies | Q48827414 | ||
Long-term evaluation of hemiparkinsonian monkeys after adrenal autografting or cavitation alone | Q48846757 | ||
Evidence for regenerative axon sprouting of central catecholamine neurons in the rat mesencephalon following electrolytic lesions | Q48846869 | ||
Parkinson's disease: interpretations of transplantation study are erroneous. | Q48872040 | ||
Function recovery following neural transplantation of embryonic septal nuclei in adult rats with septohippocampal lesions | Q48872256 | ||
Septal transplants restore maze learning in rats with fornix-fimbria lesions | Q48872370 | ||
Reformation of long axon pathways in adult rat central nervous system by human forebrain neuroblasts | Q48879905 | ||
Brain injury causes a time-dependent increase in neuronotrophic activity at the lesion site | Q48909503 | ||
Does adrenal graft enhance recovery of dopaminergic neurons in Parkinson's disease? | Q48956588 | ||
Loss of striatal DA innervation increases striatal trophic activity directed at DA neurons in culture | Q48959657 | ||
Dopaminergic responses to striatal damage | Q48974792 | ||
Neuronal plasticity in the septal nuclei of the adult rat | Q49021050 | ||
Transplantation of nasal olfactory tissue promotes partial recovery in paraplegic adult rats | Q49046706 | ||
Development and growth of axonal sprouts from noradrenaline and 5-hydroxytryptamine neurones in the rat spinal cord. | Q51123050 | ||
Multicenter study of autologous adrenal medullary transplantation to the corpus striatum in patients with advanced Parkinson's disease. | Q51180323 | ||
Regeneration of dorsal column fibers into and beyond the lesion site following adult spinal cord injury. | Q51451500 | ||
Restoration of cognitive abilities by cholinergic grafts in cortex of monkeys with lesions of the basal nucleus of Meynert. | Q52212516 | ||
GAP-43 in the axons of mammalian CNS neurons regenerating into peripheral nerve grafts. | Q52238815 | ||
Open microsurgical autograft of adrenal medulla to the right caudate nucleus in two patients with intractable Parkinson's disease. | Q54137161 | ||
Obliteration of a posttraumatic spinal cord cyst with solid human embryonic spinal cord grafts: first clinical attempt. | Q54298802 | ||
Recovery of function after spinal cord injury: mechanisms underlying transplant-mediated recovery of function differ after spinal cord injury in newborn and adult rats. | Q54494334 | ||
Implantation of stimulated homologous macrophages results in partial recovery of paraplegic rats. | Q55067631 | ||
Surgical damage stimulates proliferation of dopamine uptake sites in normal mouse brain | Q57564156 | ||
Functional Recovery of Paraplegic Rats and Motor Axon Regeneration in Their Spinal Cords by Olfactory Ensheathing Glia | Q58028333 | ||
Axons from CNS neurones regenerate into PNS grafts | Q59054929 | ||
Connectivity of striatal grafts implanted into the ibotenic acid-lesioned striatum—III. Efferent projecting graft neurons and their relation to host afferents within the grafts | Q59575288 | ||
Transplanted dopaminergic neurons: more or less? | Q43592474 | ||
Treatment of stroke in rat with intracarotid administration of marrow stromal cells | Q43653449 | ||
Axonal regeneration in the rat spinal cord produced by an antibody against myelin-associated neurite growth inhibitors | Q43654834 | ||
Degeneration and sprouting of identified descending supraspinal axons after contusive spinal cord injury in the rat. | Q43718116 | ||
Axonal regeneration and functional recovery after complete spinal cord transection in rats by delayed treatment with transplants and neurotrophins. | Q43805370 | ||
Olfactory ensheathing cells promote locomotor recovery after delayed transplantation into transected spinal cord | Q43880608 | ||
Periwound dopaminergic sprouting is dependent on numbers of wound macrophages | Q43925260 | ||
Restoration of learning ability in fornix-transected monkeys after fetal basal forebrain but not fetal hippocampal tissue transplantation | Q43930423 | ||
Patterns of Nogo mRNA and protein expression in the developing and adult rat and after CNS lesions. | Q43972746 | ||
Cholinergic neural transplants into hippocampus restore learning ability in monkeys with fornix transections | Q44360774 | ||
Reformation of the severed septohippocampal cholinergic pathway in the adult rat by transplanted septal neurons | Q44536901 | ||
Intracerebral grafting of cultured autologous skin fibroblasts into the rat striatum: an assessment of graft size and ultrastructure | Q44625503 | ||
Bulbospinal and intraspinal connections in normal and regenerated salamander spinal cord | Q45215414 | ||
Porcine xenografts in Parkinson's disease and Huntington's disease patients: preliminary results | Q45300364 | ||
Adrenal to caudate transplantation--postmortem study. | Q45960945 | ||
Nerve growth factor delivery by gene transfer induces differential outgrowth of sensory, motor, and noradrenergic neurites after adult spinal cord injury | Q46096843 | ||
Sprouting adult CNS cholinergic axons express NILE and associate with astrocytic surfaces expressing neural cell adhesion molecule | Q46138917 | ||
Cellular delivery of neurotrophin-3 promotes corticospinal axonal growth and partial functional recovery after spinal cord injury. | Q46187210 | ||
Functional characterization of NGF-secreting cell grafts to the acutely injured spinal cord | Q46242173 | ||
Morphological response of axotomized septal neurons to nerve growth factor | Q46247799 | ||
Effects of silica on the outcome from experimental spinal cord injury: implication of macrophages in secondary tissue damage | Q46779870 | ||
A quantifiable model of axonal regeneration in the demyelinated adult rat spinal cord | Q47968569 | ||
Sprouting of dopaminergic axons after striatal injury: confirmation by markers not dependent on dopamine metabolism. | Q48100859 | ||
Decorin attenuates gliotic scar formation in the rat cerebral hemisphere | Q48100902 | ||
Antibody against myelin-associated inhibitor of neurite growth neutralizes nonpermissive substrate properties of CNS white matter | Q48105976 | ||
Four-year follow-up of adrenal-to-brain transplants in Parkinson's disease | Q48108676 | ||
Cellular and molecular mechanisms of glial scarring and progressive cavitation: in vivo and in vitro analysis of inflammation-induced secondary injury after CNS trauma. | Q48109065 | ||
Transient behavioral recovery in hemiparkinsonian primates after adrenal medullary allografts | Q48141218 | ||
Long interfascicular axon growth from embryonic neurons transplanted into adult myelinated tracts | Q48163523 | ||
Regrowth of dorsal root axons into a radiation-induced glial-deficient environment in the spinal cord | Q48190356 | ||
Retraining the injured spinal cord | Q34249895 | ||
The astrocyte/meningeal cell interface--a barrier to successful nerve regeneration? | Q34361841 | ||
Spinal cord repair in adult paraplegic rats: partial restoration of hind limb function | Q34384227 | ||
Spinal cord regeneration: from gene to transplants | Q34503144 | ||
Channeling of developing rat corticospinal tract axons by myelin-associated neurite growth inhibitors | Q34571987 | ||
Spontaneous corticospinal axonal plasticity and functional recovery after adult central nervous system injury | Q34745372 | ||
Intrinsic neuronal determinants of regeneration | Q35318056 | ||
Preferential outgrowth of central nervous system neurites on astrocytes and Schwann cells as compared with nonglial cells in vitro | Q36211676 | ||
Two membrane protein fractions from rat central myelin with inhibitory properties for neurite growth and fibroblast spreading | Q36218407 | ||
B-50 (GAP-43) immunoreactivity is rarely detected within intact catecholaminergic and serotonergic axons innervating the brain and spinal cord of the adult rat, but is associated with these axons following lesion | Q36679398 | ||
Axonal regeneration and limited functional recovery following hippocampal deafferentation | Q36824491 | ||
Schwann cells genetically modified to secrete human BDNF promote enhanced axonal regrowth across transected adult rat spinal cord | Q36898625 | ||
Enhanced expression of the developmentally regulated extracellular matrix molecule tenascin following adult brain injury | Q36913140 | ||
Boundaries and wounds, glia and glycoconjugates. Cellular and molecular analyses of developmental partitions and adult brain lesions | Q36951467 | ||
Intraspinal transplants | Q37685736 | ||
Relationship between sprouting axons, proteoglycans and glial cells following unilateral nigrostriatal axotomy in the adult rat. | Q38523590 | ||
Regeneration of CNS axons back to their target following treatment of adult rat brain with chondroitinase ABC. | Q38524950 | ||
Neuropathological evidence of graft survival and striatal reinnervation after the transplantation of fetal mesencephalic tissue in a patient with Parkinson's disease | Q39111166 | ||
Fetal nigral grafts survive and mediate clinical benefit in a patient with Parkinson's disease | Q39116027 | ||
Long-term evaluation of bilateral fetal nigral transplantation in Parkinson disease | Q39116966 | ||
Regeneration of monoaminergic and cholinergic neurons in the mammalian central nervous system | Q39794558 | ||
Neural injury repair: hope for the future as barriers to effective CNS regeneration become clearer | Q40404596 | ||
Fibroblast growth factors in the nervous system | Q40590939 | ||
Pathological CNS autoimmune disease triggered by traumatic spinal cord injury: implications for autoimmune vaccine therapy. | Q40649831 | ||
Inhibition of brain-derived neurotrophic factor and glial cell line-derived neurotrophic factor expression reduces dopaminergic sprouting in the injured striatum. | Q40849460 | ||
Neuronal cell transplantation for Parkinson's and Huntington's diseases | Q40909110 | ||
Degeneration and regeneration of axons in the lesioned spinal cord | Q40980911 | ||
Mechanisms of functional recovery and regeneration after spinal cord transection in larval sea lamprey | Q41039876 | ||
Regeneration of immature mammalian spinal cord after injury. | Q41077554 | ||
Expression of glial cell line-derived neurotrophic factor (GDNF) mRNA following mechanical injury to mouse striatum | Q41087517 | ||
Adrenal medullary autografts into the basal ganglia of Cebus monkeys: injury-induced regeneration. | Q41347673 | ||
Fetal nigral transplantation as a therapy for Parkinson's disease | Q41367101 | ||
Dopaminergic transplants in patients with Parkinson's disease: neuroanatomical correlates of clinical recovery | Q41450648 | ||
Observations on the astrocyte response to a cerebral stab wound in adult rats | Q41496986 | ||
Neural transplantation studies reveal the brain's capacity for continuous reconstruction. | Q41623996 | ||
Elimination of basal lamina and the collagen "scar" after spinal cord injury fails to augment corticospinal tract regeneration | Q41713434 | ||
Axon sprouting into segments of rat spinal cord adjacent to the site of a previous transection | Q41752632 | ||
The role of mononuclear phagocytes in wound healing after traumatic injury to adult mammalian brain | Q41945091 | ||
Expression of brain-derived neurotrophic factor and TrkB neurotrophin receptors after striatal injury in the mouse | Q42448123 | ||
Basal membrane-depleted scar in lesioned CNS: characteristics and relationships with regenerating axons | Q42475672 | ||
Axon-glial relations during regeneration of axons in the adult rat anterior medullary velum | Q42483199 | ||
Autopsy findings in a patient who had an adrenal-to-brain transplant for Parkinson's disease | Q42505132 | ||
Peripheral nerve explants grafted into the vitreous body of the eye promote the regeneration of retinal ganglion cell axons severed in the optic nerve | Q42519727 | ||
Induction of a neurite-promoting factor in rat brain following injury or deafferentation | Q42525546 | ||
Depletion of hematogenous macrophages promotes partial hindlimb recovery and neuroanatomical repair after experimental spinal cord injury | Q42606175 | ||
Oligodendrocytes and CNS myelin are nonpermissive substrates for neurite growth and fibroblast spreading in vitro. | Q42803404 | ||
Lack of evidence that myelin-associated glycoprotein is a major inhibitor of axonal regeneration in the CNS. | Q42819573 | ||
Effects of spinal cord X-irradiation on the recovery of paraplegic rats | Q43550148 | ||
Regenerating descending axons preferentially reroute to the gray matter in the presence of a general macrophage/microglial reaction caudal to a spinal transection in adult zebrafish | Q64468042 | ||
Recollections of research in spinal cord regeneration | Q67255771 | ||
Relationship between residual hindlimb-assisted locomotion and surviving axons after incomplete spinal cord injuries | Q67599644 | ||
Reduction of neurite outgrowth in a model of glial scarring following CNS injury is correlated with the expression of inhibitory molecules on reactive astrocytes | Q67703308 | ||
Growth of adult rat retinal ganglion cell neurites on astrocytes | Q68427380 | ||
Macrophages can modify the nonpermissive nature of the adult mammalian central nervous system | Q68543538 | ||
Regrowth of lesioned dorsal root nerve fibers into the spinal cord of neonatal rats | Q68945795 | ||
Rat CNS white matter, but not gray matter, is nonpermissive for neuronal cell adhesion and fiber outgrowth | Q69059869 | ||
Clinical, biochemical, and neuropathologic findings following transplantation of adrenal medulla to the caudate nucleus for treatment of Parkinson's disease | Q69096564 | ||
Tissue sections from the mature rat brain and spinal cord as substrates for neurite outgrowth in vitro: extensive growth on gray matter but little growth on white matter | Q69963050 | ||
Deposition of scar tissue in the central nervous system | Q70925683 | ||
Histopathological reactions and axonal regeneration in the transected spinal cord of hibernating squirrels | Q71006910 | ||
Traumatized rat striatum produces neurite-promoting and neurotrophic activities in vitro | Q71130283 | ||
Transplantation of activated macrophages overcomes central nervous system regrowth failure | Q71604041 | ||
Regeneration of dorsal root axons into experimentally altered glial environments in the rat spinal cord | Q71650065 | ||
Overexpression of the neural growth-associated protein GAP-43 induces nerve sprouting in the adult nervous system of transgenic mice | Q71806446 | ||
Injury-induced proteoglycans inhibit the potential for laminin-mediated axon growth on astrocytic scars | Q71815667 | ||
Grafting of cultured microglial cells into the lesioned spinal cord of adult rats enhances neurite outgrowth | Q71939823 | ||
Sprouts from Cut Corticospinal Axons Persist in the Presence of Astrocytic Scarring in Long-Term Lesions of the Adult Rat Spinal Cord | Q72052012 | ||
Schwann cells induce sprouting in motor and sensory axons in the adult rat spinal cord | Q72052105 | ||
Paraventriculospinal tract as a model for axon injury: spinal cord | Q72556851 | ||
GAP-43 immunoreactivity and axon regeneration in retinal ganglion cells of the rat | Q72557616 | ||
Astroglial reaction in the gray matter lumbar segments after midthoracic transection of the adult rat spinal cord | Q72641223 | ||
Reversal of hemiparkinsonian syndrome in nonhuman primates by amnion implantation into caudate nucleus | Q72816680 | ||
Acute inflammatory responses to mechanical lesions in the CNS: differences between brain and spinal cord | Q73189218 | ||
Transplanted embryonic stem cells survive, differentiate and promote recovery in injured rat spinal cord | Q73226161 | ||
Stem cells. Rat spinal cord function partially restored | Q73301234 | ||
Chondroitin sulfate proteoglycan immunoreactivity increases following spinal cord injury and transplantation | Q73343119 | ||
What is a functional recovery after spinal cord injury? | Q73606422 | ||
Regeneration of severed nerve fibers in the spinal cord of the adult cat | Q73724144 | ||
Chondroitinase ABC promotes axonal regeneration of Clarke's neurons after spinal cord injury | Q73735755 | ||
Regeneration of spinal cord fibers in the cat | Q73795160 | ||
Activated macrophage/microglial cells can promote the regeneration of sensory axons into the injured spinal cord | Q74000060 | ||
Regeneration of axons in the vertebrate central nervous system | Q74267769 | ||
Regeneration in the spinal cord of the cat and dog | Q75539726 | ||
Absence of regeneration in the spinal cord of the young rat | Q75832779 | ||
Induction of type IV collagen and other basement-membrane-associated proteins after spinal cord injury of the adult rat may participate in formation of the glial scar | Q77435842 | ||
Robust regeneration of adult sensory axons in degenerating white matter of the adult rat spinal cord | Q78003481 | ||
Residual function after subtotal spinal cord transection in adult cats | Q78291298 | ||
Lack of regeneration in spinal cord of rat | Q80682223 | ||
Abortive regeneration of the transected spinal cord | Q83275346 | ||
Dorsal roots following anastomosis of the central stumps | Q83287545 | ||
P433 | issue | 5 | |
P304 | page(s) | 523-534 | |
P577 | publication date | 2003-09-01 | |
P1433 | published in | Journal of Clinical Neuroscience | Q6294963 |
P1476 | title | CNS regeneration: clinical possibility or basic science fantasy? | |
P478 | volume | 10 |
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