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Query: UMLS:C0599766 (functional recovery)
 13,441 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neural progenitor cells, including neural stem cells, are a potential expandable source of graft material for transplantation aimed at repairing the damaged CNS. Here we present the first evidence that in vitro-expanded fetus-derived neurosphere cells were able to generate neurons in vivo and improve motor function upon transplantation into an adult rat spinal-cord-contusion injury model. As the source of graft material, we used a neural stem cell-enriched population that was derived from rat embryonic spinal cord (E14.5) and expanded in vitro by neurosphere formation. Nine days after contusion injury, these neurosphere cells were transplanted into adult rat spinal cord at the injury site. Histological analysis 5 weeks after the transplantation showed that mitotic neurogenesis occurred from the transplanted donor progenitor cells within the adult rat spinal cord, a nonneurogenic region; that these donor-derived neurons extended their processes into the host tissues; and that the neurites formed synaptic structures. Furthermore, analysis of motor behavior using a skilled reaching task indicated that the treated rats showed functional recovery. These results indicate that in vitro-expanded neurosphere cells derived from the fetal spinal cord are a potential source for transplantable material for treatment of spinal cord injury.
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PMID:Transplantation of in vitro-expanded fetal neural progenitor cells results in neurogenesis and functional recovery after spinal cord contusion injury in adult rats. 1220 85

The effect of pretreating cell suspensions of embryonic rat ventral mesencephala (VM) with antioxidant combinations on the survival of dopaminergic (DA) neurons was studied in vitro and following transplantation into the unilateral 6-hydroxydopamine (6-OHDA)-lesioned rat model of Parkinson's disease. The in vitro experiments examined the effects of two thiol antioxidants, N-acetyl-L-cysteine (NAC) and reduced glutathione (GSH), and a member of the lazaroid family of 21-aminosteroids, U-83836E, singly and in combination, on survival of DA neurons derived from dissociated E14 rat VM tissue. For in vivo studies, cell suspensions were pretreated with combinations of NAC, GSH, and U-83836E prior to transplanting into 6-OHDA-lesioned rats to investigate whether DA neuron survival could be further improved. NAC, GSH, and U-83836E individually increased DA neuron survival in vitro and a combination of all three resulted in the greatest survival. In vivo, pretreatment with U-83836E alone resulted in a significantly greater reduction in amphetamine-induced rotation 6 weeks postgrafting compared with a control group receiving nontreated graft tissue. This functional effect correlated with a significant improvement in DA neuron survival 6 weeks postgrafting. The thiol combination pretreatment of NAC and GSH, and the triple combination of NAC, GSH, and U-83836E, however, failed to improve both functional recovery and DA neuron survival when compared with the nontreated control grafts.
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PMID:Effects of antioxidant pretreatment on the survival of embryonic dopaminergic neurons in vitro and following grafting in an animal model of Parkinson's disease. 1251 92

The ability of implanted embryonic neural stem cells (NSCs) to improve survival, migration, and functional recovery following a compression spinal cord injury (SCI) was tested in adult rats. NSCs were isolated from E14-16 rat cerebral cortex and SCI was produced by using an aneurysm clip applicator applied to the 8th thoracic spinal cord according to method of Dolan and Tator. Two weeks after the injury, NSCs (4 microl of 1 x 10(4) cells/microl) were injected into the lesion site. The grafted NSCs were noted to survive and integrate with the host spinal cord 1 month after transplantation, which was demonstrated by the presence of Hoechst 33342 (a nuclear dye) pre-labeled NSCs within and surrounding the lesion site. Some of these cells remained undifferentiated and were stained with nestin, a marker for NSCs. Transplanted NSCs migrated for at least 3 mm from the injury epicenter towards both the rostral and caudal directions. Significant reduction in the lesion area (P<0.05) and improvement in inclined plane (P<0.05) and BBB locomotor rating scale (P<0.05) were found in the cases that received implantation of NSCs, as compared with those that received vehicle injection. More importantly, when glial cell line-derived neurotrophic factor (GDNF; 1.5 microg/microl) was added to the transplants, further reduction in lesion area (P<0.01) and improvement in the function were observed in the combined treatment group as compared with the vehicle infused group. Our results suggest that intraspinal treatment with NSCs and GDNF synergistically reduced lesion size and improved functional outcome after a compressive SCI in adult rats.
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PMID:[Effects of embryonic neural stem cells and glial cell line-derived neurotrophic factor in the repair of spinal cord injury]. 1281 5

Neural stem cell transplantation is a promising new treatment of ischemic or traumatic brain injury. We have now investigated the involvement of the peroxynitrite - poly(ADP-ribose) polymerase (ONOO- - PARP) activation cascade in brain trauma and neural stem cell transplantation. The forelimb motor cortex of adult male rats was exposed to cold lesion (-60 degrees C) and motor function was monitored. Neural stem cells isolated from E14 rat embryos were labeled with brome deoxyuridine (BrDU) and injected into the injured cortex 6 days after the lesion. After another 6 days, the survival and differentiation of the grafted cells were investigated with immunohistochemistry. Increased production of ONOO- revealed by tyrosine nitration was seen in the lesion 2 days after transplantation. Animals treated with the ONOO- decomposition catalyst FP15 or the PARP inhibitor PJ34 had a significantly improved motor score, when compared to vehicle-treated controls. The neurological score further improved following stem cell grafting in the PJ34 treated, but not in the control animals. Six days after transplantation, differentiated BrDU positive cells were found in the cortical penumbra. The majority of these differentiated cells expressed an astrocyte marker and some of the cells expressed oligodendrocyte or neuronal markers. The number of surviving transplanted cells was significantly higher in the PJ34 treated group. Inhibition of the ONOO- - PARP activation cascade significantly improves the effectiveness of neural stem cell transplantation and promotes rapid functional recovery.
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PMID:PARP inhibition improves the effectiveness of neural stem cell transplantation in experimental brain trauma. 1285 10

Transplantation of stem and neural progenitor cells hold great promise in the repair of neuronal tissue lost due to injury or disease. However, survival following transplantation to the adult CNS has been poor, likely due to a lack of neurotrophic factors, such as basic fibroblast growth factor (FGF-2), that are used to maintain and expand these cells in culture. Chromaffin cells produce several neurotrophic agents, including FGF-2, which may aid in both neuroprotection following injury and progenitor cell proliferation and survival. In addition, increased CNS catecholamines have been shown to improve functional recovery following insult. Thus, cotransplants of neural progenitor cells and chromaffin cells may be a useful clinical strategy. To address this, the survival of rat cortical progenitors transplanted to the adult rat striatum with and without bovine chromaffin cell cografts was assessed. Progenitors obtained from E14 embryos were prelabeled with bromodeoxyuridine (BrdU) before transplantation to enable later identification. Transplants were made both unilaterally and bilaterally, where animals received a monograft (progenitor cells alone) on one side and a cograft (progenitors + chromaffin cells) on the other. Histological results after 7, 17, and 30 days posttransplant revealed greatly improved survival of BrdU-labeled cells in the cografts and also less infiltration of presumptive immune cells. In addition, perivascular cuffing was seen in the monografts. In vitro progenitor cohorts stained positive for nestin, GFAP, and beta-tubulin III, but in vivo very few cells were found that were double labeled with BrdU and one of these markers. Thus, in contrast to in vitro findings, chromaffin cells did not enhance differentiation of progenitors in vivo during the 30 days posttransplantation. The results of these studies suggest that chromaffin cells may provide neurotrophic support to enhance survival, but not differentiation, of cortical progenitor grafts in the adult CNS.
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PMID:Improved neural progenitor cell survival when cografted with chromaffin cells in the rat striatum. 1469 24

Dopaminergic (DA) grafts in rat models of Parkinson's disease (PD) have previously been derived from embryonic day (E) 14 grafts. Because there is an increasing interest in the restorative capacity of DA stem and progenitor cells, in the present study we examined the survival and early and late functional behavioral effects of DA progenitor cells derived from E12, E13, E14, and E15 grafts transplanted into rats with unilateral 6-hydroxydopamin lesions. DA transplant-induced functional recovery was already observed in postural balancing reactions after 10 days and in stepping behavior after 13 days, that is, in spontaneous complex behaviors, and later, after 16 days, in the amphetamine-induced rotation test. Three distinct patterns of functional recovery could be observed at 6-9 weeks posttransplantation. First, behavioral improvements in drug-induced rotational asymmetry, stepping, and skilled forelimb behavior were directly related to DA neuron survival and TH-positive fiber reinnervation. Second, recovery in postural balancing reactions was closely related to a specific developmental time window of donor age, for example, only seen in E13 and E14 grafts. Finally, no functional graft effects were seen in the table lift test. Interestingly, DA neuron graft survival, TH-positive fiber outgrowth, and graft volume were significantly influenced by the developmental time window in which the DA progenitor cells were dissected from the ventral mesencephalon, that is, from E12, E13, E14, or E15 rat embryos. These data highlight the complexity of graft-host interactions and provide novel insights into the dynamics of DA progenitor graft-mediated functional recovery in animal models of Parkinson's disease.
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PMID:Survival and early functional integration of dopaminergic progenitor cells following transplantation in a rat model of Parkinson's disease. 1923 89

The functional restorative capacity of fetal dopaminergic (DA) transplants is governed by a number of critical parameters including graft location, survival of DA neurons, and transplantation technique. In addition, there is an ongoing controversy whether "too much" or "too little" survival of DA neurons is responsible for the incomplete functional recovery observed in some transplanted Parkinson's disease (PD) patients. Here we investigated two implantation sites, the nucleus accumbens (NAc) and the caudate-putamen unit (CPU), and two different graft distributions within the CPU, i.e., two 0.75 microL deposits (CPU-2) versus six 0.25 microL deposits (CPU-6) in a rat model of PD. Grafts were derived from E14 rat ventral mesencephalon and the long-term functional outcome was evaluated with a wide range of complex-sensorimotor behavioral tests. The data show that forelimb stepping, balancing behavior, and skilled forelimb reaching behavior was more restored in CPU-6-grafted animals as compared to CPU-2 animals, although the number surviving dopaminergic neurons and dopamine release were similar in the two groups. Furthermore, a correlation analysis revealed a number of inverse relationships between the rate of DA neuron survival and sensorimotor performances, e.g., for skilled forelimb use. DA grafts placed into the NAc induced a partial recovery in drug-induced rotation tests but failed to restore any of the other sensorimotor behaviors tested. Taken together, these data have important implications both for a better understanding of the complex functional graft-host interactions as well as for the further optimization of clinical neural transplantation strategies in neurodegenerative diseases.
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PMID:Pattern of long-term sensorimotor recovery following intrastriatal and--accumbens DA micrografts in a rat model of Parkinson's disease. 1939 92

Using tissue engineering, a complex of neural stem cells (NSCs) and collagen type I was transplanted for the therapy of cerebral ischemic injury. NSCs from E14 d rats were dissociated and cultured by neurosphere formation in serum-free medium in the presence of basic fibroblast growth factor (bFGF), then seeded onto collagen to measure cell adhesive ability. BrdU was added to the culture medium to label the NSCs. Wistar rats (n=100) were subjected to 2-hour middle cerebral artery occlusion. After 24 hours of reperfusion, rats were assigned randomly to five groups: NSCs-collagen repair group, NSCs repair group, unseeded collagen repair group, MCAO medium group, and sham group. Neurological, immunohistological and electronic microscope assessments were performed to examine the effects of these treatments. Scanning electronic microscopy showed that NSCs assemble in the pores of collagen. At 3, 7, 15, and 30 d after transplantation of the NSC-collagen complex, some of the engrafted NSCs survive, differentiate and form synapses in the brains of rats subjected to cerebral ischemia. Six d after transplantation of the NSC-collagen complex into the brains of ischemic rats, the collagen began to degrade; 30 d after transplantation, the collagen had degraded completely. The implantation of NSCs and type I collagen facilitated the structural and functional recovery of neural tissue following ischemic injury.
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PMID:Combinated transplantation of neural stem cells and collagen type I promote functional recovery after cerebral ischemia in rats. 2019 18

The Staircase test measures lateralised deficits in skilled paw reaching in rodents, and there is a long-standing discrepancy in the literature on whether the paradigm is sensitive to graft-mediated functional recovery in the rodent model of Parkinson's disease. The aim of the current study was to evaluate the critical influence of test conditions like pellet density on dopamine-dependent graft-mediated functional recovery. Rats were pre-trained on the Staircase test with a configuration of 8 pellets in each of the 6 wells bilaterally prior to receiving unilateral 6-OHDA lesions of the medial forebrain bundle. Later, the lesioned animals received E14 VM grafts into the striatum, and were tested on the Staircase test under one of two test configurations: bilaterally, either with 10 (HIGH) or with 2 (LOW) pellets per well. Subsequent sessions included unilateral forced-choice testing under the same pellet configuration, and second bilateral and forced-choice sessions with the pellet density configurations switched around between the groups (Cross-over). Animals were also tested on the Corridor and the Cylinder test, and subjected to drug-induced rotation. Graft-mediated functional recovery was observed in the pellets taken criteria only under the HIGH pellet configuration during the bilateral and the forced choice condition. When tested under the LOW configuration, the graft provided no measurable benefit. The presence of VM grafts reduced lateralised motor deficits in the Cylinder test, the adjacent version of the Corridor test, and drug-induced rotation. Our results confirm that VM transplants can partially restore skilled forelimb sensorimotor deficits under specific testing configuration.
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PMID:Graft-mediated functional recovery on a skilled forelimb use paradigm in a rodent model of Parkinson's disease is dependent on reward contingency. 2039 82

The purpose of this study was to determine the developmental stage of the chick embryo when descending spinal tracts lose the capacity for anatomical and functional repair after complete transection of the thoracic spinal cord. Previous studies have demonstrated that the first reticulospinal projections descend to the lumbar cord by embryonic day (E) 5. A comparison of the distribution and density of retrogradely labelled brainstem-spinal neurons in embryos versus hatchling chicks suggests that the descent of all brainstem-spinal projections is essentially complete to lumbar levels between E10 and El2. Transections and control sham operations were performed on different embryos from E3 through E14 of development. After a recovery period of 5-18 days, the extent of anatomical repair was assessed by injecting a small volume of a retrograde tract-tracing chemical into the upper lumbar spinal cord, caudal to the transection site. The brainstem nuclei were then examined for the number and distribution of retrogradely labelled brainstem-spinal neurons. In comparison to control animals, anatomical recovery appeared to be complete for embryos transected as late as E12, whereas thoracic cord transections conducted on E13-E14 resulted in reduced labelling of most brainstem-spinal nuclei. In addition, a number of E3-E6 transected embryos were allowed to hatch and with some assistance a few E7-E14 transected embryos also hatched. Functional recovery was assessed by behavioral observations and by focal electrical stimulation of brainstem locomotor regions (known to have direct projections to the lumbar spinal cord). Brainstem stimulation experiments were undertaken on transected and control embryos, either in ovo on E18-E20 or after hatching. Leg and wing muscle electromyographic recordings were used to monitor any brainstem evoked motor activity. Voluntary open-field locomotion (hatchling chicks) or brainstem evoked locomotion (embryonic or hatchling) in animals transected on or before E12 was indistinguishable from that observed in control (i.e. sham-operated or unoperated) chicks, indicating that complete functional recovery had occurred. In contrast, chicks transected on or after El3 showed reduced functional recovery. Since a previous study has shown that neurogenesis in chick brainstem-spinal neurons is complete prior to E5, the possible intrinsic neuronal mechanisms underlying the repair of descending supraspinal pathways are: (1) subsequent projections from later developing (undamaged) neurons, or (2) regrowth of previously axotomized projections (regeneration). For the E5-E12 chick embryos examined in this study, significant descending supraspinal fibers are present within the thoracic cord at the time of transection. Even if the transection is made at E12, when descending projections have completed their development to the lumbar cord, there is still a similar number and distribution of brainstem-spinal neurons labelled afterward (when compared to controls). This suggests that regeneration of previously axotomized projections may account for some of the observed anatomical and functional repair of brainstem-spinal pathways.
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PMID:Functional repair of transected spinal cord in embryonic chick. 2155 94


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