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

Nine cats were spinalized at the thoraco-lumbar junction (T12-L7) and the subsequent behaviour of the bladder and urethral striated sphincter was observed during periods of up to 27 days after spinalization by means of bladder manometry and of urethral electromyography. On the day following operation, the urethral sphincter responds to stimulation of its intact motor nerve, the pudic nerve by reflex (R) and direct (M) responses analogous to those of the intact animal anaesthetized with chloralose. The ratio R/M lies between 1 and 0.6 in the chronic spinal cat whereas it is generally less than 0.5 in the intact chloralose-anaesthetized cat. The tonic activity of the sphincter is weak or not present. The continence, however, is well maintained. The bladder activity appears only 4 to 8 days after spinalization. The bladder can thus void urine during brief contractions. These micturitions are always incomplete. The urethral reflex activity, either spontaneous or triggered by stimulation of the pudic nerve, may be inhibited, i: to a moderate degree by passive bladder distension; ii: almost completely by activation of vesicomotor neurones which provoke the bladder contraction. The first inhibition is seen the day after spinalization and is probably a protective reflex against vesical hypertension. The second inhibition develops progressively and in parallel to the functional recovery of vesical preganglionic neurones. It takes place on a background of antagnostic equilibrium of bladder and of urethral sphincter activities during micturition.
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PMID:Behaviour of the urethral striated sphincter and of the bladder in the chronic spinal cat. Implications at the Central Nervous System Level. 116 31

Having previously studied a static load model of cord injury in rats, we report here an evaluation of a dynamic (weight drop) technique. Under general anesthesia, Sprague-Dawley rats were subjected to a laminectomy at T12, after which a 10-g weight was dropped onto a force transducer and impounder resting on the spinal cord; the weight drop distances varied in different groups from 0 (control) in increments of 2.5 cm to a maximal height of 17.5 cm. A strain gauge attached to the force transducer yielded an oscilloscopic wave form from which force of impact (peak force and impulse) was calculated. Eighty-six animals were used in this parametric study. The animals were observed for 4 weeks postinjury with two tests of motor recovery (Tarlov score for locomotion and the inclined plane test). After sacrifice at 4 weeks, the spinal cords were removed and, with the use of preset criteria, qualitative histopathological scoring of the extent of tissue damage was carried out. We found that the variable height of weight drop was capable of producing a graded injury that correlated with the force of injury (as measured by the force transducer) and with the outcome parameters of functional recovery and degree of morphological damage in the spinal cord. Histopathologically, there was a tendency to central cavitation of the cord. Both the static load and the dynamic load techniques seem to be valid models of spinal cord injury. Pathologically, however, the tissue damage after static load injury involved primarily the dorsal half of the cord. By contrast, the dynamic load technique produced central cavitation comparable to that observed in human spinal cord injury. In this respect, the dynamic model seems to be superior and its use is therefore recommended for studies of therapeutic intervention for spinal cord injury.
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PMID:Models of spinal cord injury: Part 3. Dynamic load technique. 334 87

Intraspinally implanting a nerve autograft (NAG) to promote axonal regeneration toward periphery was investigated as a surgical treatment for spinal cord injury in adult rats. Fifteen animals underwent a left hemisection of the spinal cord at T12 level and an intradural section of all ipsilateral lumbar ventral roots. In repaired animals (n = 9), the electrophysiologically selected left L3 and L4 lumbar ventral roots supplying the quadriceps muscle were anastomosed to a NAG. The NAG was taken from the right peroneal nerve and then ventrolaterally implanted into the cord at a level 7 mm rostral to the hemisection. In the control group (n = 6), sectioned lumbar ventral roots were left unrepaired. Nine months later, the animals were assessed with clinical, electrophysiological, and histological examinations. Muscle action potential and motor evoked potential were obtained from the denervated/reinnervated quadriceps in all repaired animals, with a mean amplitude of 918.3+/-328.9 microV and 215.8+/-39.7 microV, respectively. Horseradish peroxidase retrograde labeling from the denervated/repaired lumbar ventral roots, performed in five repaired animals, showed that the mean of labeled neurons, ipsilaterally located in the thoracic ventral horn near the implantation site, was 145.8+/-111.7. Histological analysis showed numerous myelinated axons in the NAG and denervated/repaired lumbar ventral roots of all repaired animals. The study of neuromuscular junctions furthermore confirmed numerous newly formed endplates appearing in the denervated/reinnervated quadriceps. These changes were absent in the control animals. These data indicate that the rostral thoracic spinal motoneurons can innervate the caudal denervated/repaired lumbar ventral roots and the target quadriceps via an implanted NAG, thereby inducing some functional recovery in adult rats after lower thoracic spinal cord injury.
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PMID:Reinnervation of denervated lumbar ventral roots and their target muscle by thoracic spinal motoneurons via an implanted nerve autograft in adult rats after spinal cord injury. 1036 17

Anterior thoracoscopic interbody stabilization and fusion was performed in 163 patients. Lesions treated were located between T4 and L3, most frequently occurring at T12/ L2. Operative time decreased dramatically as experience was gained with the procedure. 2 patients early in the series successfully were converted to an open procedure. One positioning related pressure harm on the thoracodorsal nerve and one irritation of the L1 root at the entrance site were both transitory. Postoperative control by X-ray and CTscan showed correct positioning of the bone graft, as well as the fixation device in all patients. Our experience with this minimally invasive procedure demonstrated the feasibility of the method. Major advantages compared to the open procedure are reduced morbidity of the approach, postoperative pain reduction, early recovery of function and shortened hospital stay.
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PMID:[Thoracoscopy-guided management of the "anterior column". Methods and results]. 1050 75

In spinal cord research, current approaches to behavioural assessment often fail in defining the exact nature of motor deficits or in evaluating the return of motor behaviour from lost functions following spinal cord injury. In addition to the assessment of gross motor behaviour, it is often appropriate to use complex tests for locomotion to evaluate the masked deficits in the evaluation of functional recovery after spinal cord injury. We designed a series of sensitive quantitative tests for reflex responses and complex locomotor behaviour in the form of a combined behavioural score (CBS) to assess the recovery of function in the Bonnet monkey (Macaca radiata). Monkeys were tested for various motor/reflex components, trained to cross different complex runways, and to walk on a treadmill bipedally. The overall performance of animal's motor behaviour and the functional status of individual limb movement during bipedal locomotion was graded and scored by the CBS. Surgical hemisection was then performed on the right side of the spinal cord at the T12-L1 level. Spinal cord hemisected animals showed a significant alteration in certain reflex responses such as grasping, extension withdrawal, and placing reflexes, which persisted through 1 year of follow-up. The spinal cord hemisected animals traversed the complex locomotor runways (Narrow beam and Grid runway) with more steps and few errors, at similar levels to control animals. These observations indicate that the various motor/reflex components and bipedal locomotor behaviour of spinal cord hemisected monkeys return to control levels gradually. These results are similar to those obtained in rat models by other investigators. These results demonstrate that the basic motor strategy and the spinal pattern generator for locomotion (SPGL) in adult monkeys for the accomplishment of complex motor tasks is similar, but not identical, to that in adult rats. This suggests that the mechanisms underlying recovery are probably similar in rats and monkeys, but that primates may take a longer duration to achieve the same functional end point.
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PMID:Behavioural assessment of functional recovery after spinal cord hemisection in the bonnet monkey (Macaca radiata). 1101 6

We investigated whether administration of neurotrophin-3 (NT-3) and NMDA-2D-expressing units, found previously to enhance transmission in neonatal rat spinal cord, strengthens synaptic connections in the injured neonatal cord. We employed electrophysiological methods to evaluate the strength of synaptic transmission to individual motoneurons in the contusion and staggered double hemisection spinal cord injury (SCI) models. SCI at caudal thoracic levels (T11-T12) was carried out at postnatal day 2 (P2). Plugs containing NT-3- secreting fibroblasts and NR2D-expressing HSV-1 amplicons (HSVnr2d) were implanted above the lesion. Control animals were treated with an amplicon-expressing beta-galactosidase (HSVlac). After 8-10 days of treatment, the rats were sacrificed and spinal cords were removed for intracellular recording. Untreated contused cords preserved a fraction of white matter and weak monosynaptic responses were observed through the injury region. However, no synaptic connections were observed in control cords receiving double hemisection injury. Combined treatment with NT-3 and HSVnr2d strengthened monosynaptic connections in contused cords and induced the appearance of weak but functional multisynaptic connections in double hemisected cords. In contrast, treatment with either NT-3 or HSVnr2d alone failed to induce appearance of synaptic responses through the hemisected region. These results suggest that chronic treatment with NT-3 secreting fibroblasts combined with facilitated function of NMDA receptors by HSVnr2d treatment strengthens connections that survive incomplete SCI and therefore that such combined treatment might facilitate recovery of function following SCI.
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PMID:Combined delivery of neurotrophin-3 and NMDA receptors 2D subunit strengthens synaptic transmission in contused and staggered double hemisected spinal cord of neonatal rat. 1628 70

We explored functional recovery in two spinal cord injury models following a novel combination treatment (NT-3 + LSD). One group of rats received a staggered double hemisection (DH) at postnatal day 2 (P2) of the left hemicord at T11 and the right hemicord at T12. Another group received complete transection (CT) at T11 on P2. A third group was sham operated. Each of these groups was also treated with the drug combination. Drugs were administered intrathecally above the lesion during surgery, and again s.c. at P4, P6, P8, and P10. Intracellular recording in an in vitro spinal cord preparation at P10-P12 in DH rats revealed weak polysynaptic connections to lumbar motoneurons through the injury region, but only in those receiving NT-3 + LSD; NT-3 or LSD alone had no effect. In behavioral experiments, the frequency of rearing in an open field and hindlimb kicks during swimming was assessed every 3-4 days from P9 to P58. Both CT and DH injury severely impaired rearing and hindlimb kicking during swimming. DH rats treated with NT-3 + LSD showed significantly more kicks during swimming than untreated DH or CT rats and treated CT rats beginning as early as P9 and lasting through the duration of testing. Rearing behavior was also improved by treatment but beginning only in the 3rd postnatal week, the time at which it normally develops. Rearing frequency reached sham control levels by P40. Our results suggest this combination treatment may be a promising new strategy for facilitating recovery from moderate spinal cord injury.
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PMID:Combined treatment with neurotrophin-3 and LSD facilitates behavioral recovery from double-hemisection spinal injury in neonatal rats. 1643 Mar 73

This study characterized the Infinite Horizon (IH) Impactor for use in mouse models of contusion spinal cord injury (SCI), and investigated the feasibility and reliability of using magnetic resonance imaging (MRI) as a method to accurately measure lesion volume after mouse contusion SCI. Eight-week-old female C57Bl/6 mice received a mild (30 kilodyne), moderate (50 kilodyne), or severe (70 kilodyne) contusion injury at the T9 vertebral level. Uninjured control mice received a T9 laminectomy only. Functional recovery was assessed using the Basso, Beattie, Bresnahan (BBB) and Basso Mouse Scale (BMS) open-field locomotor rating scales. Next, 4% paraformaldehyde-perfused spinal cords were collected between the T6 and T12 spinal roots, and stored in phosphate-buffered saline (PBS) at 4 degrees C until MRI analysis. MRI lesion volumes were determined using T1-weighted images on a 7-Tesla MRI. Histology was performed on 20-microm polyester wax-embedded sections processed from the same spinal cords for stereological determination of fibronectin lesion volume and myelin basic protein spared white matter volume. Area of spared white matter at the epicenter was also analyzed. The results demonstrated that the IH Impactor produced precise, graded contusion SCI in mice. Lesion volumes were positively correlated with force of impact, and negatively correlated with spared white matter and functional recovery. Additionally, similar lesion volumes were detected using fibronectin staining and MRI analysis, although MRI may be more sensitive for milder injuries. These results give researchers more options in how to analyze spinal cord injuries in animal models.
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PMID:Behavioral, histological, and ex vivo magnetic resonance imaging assessment of graded contusion spinal cord injury in mice. 1743 50

Experimental studies concerning the analysis of locomotor behavior in spinal cord injury research are widely performed in rodent models. The purpose of this study was to quantitatively evaluate the degree of functional recovery in reflex components and bipedal locomotor behavior of bonnet macaques (Macaca radiata) after spinal contusive injury. Six monkeys were tested for various reflex components (grasping, righting, hopping, extension withdrawal) and were trained preoperatively to walk in bipedal fashion on the simple and complex locomotor runways (narrow beam, grid, inclined plane, treadmill) of this investigation. The overall performance of the animals'motor behavior and the functional status of limb movements during bipedal locomotion were graded by the Combined Behavioral Score (CBS) system. Using the simple Allen weight-drop technique, a contusive injury was produced by dropping a 13-g weight from a height of 30 cm to the exposed spinal cord at the T12-L1 vertebral level of the trained monkeys. All the monkeys showed significant impairments in every reflex activity and in walking behavior during the early part of the postoperative period. In subsequent periods, the animals displayed mild alterations in certain reflex responses, such as grasping, extension withdrawal, and placing reflexes, which persisted through a 1-year follow-up. The contused animals traversed locomotor runways--narrow beam, incline plane, and grid runways--with more steps and few errors, as evaluated with the CBS system. Eventually, the behavioral performance of all spinal-contused monkeys recovered to near-preoperative level by the fifth postoperative month. The findings of this study reveal the recovery time course of various reflex components and bipedal locomotor behavior of spinal-contused macaques on runways for a postoperative period of up to 1 year. Our spinal cord research in primates is advantageous in understanding the characteristics of hind limb functions only, which possibly mimic the human motor behavior. This study may be also useful in detecting the beneficial effect of various donor tissue-neuroprotective drugs on the repair of impaired functions in a bipedal primate model of spinal injury.
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PMID:Bipedal locomotion of bonnet macaques after spinal cord injury. 1804 64

Analysis of the recovery of gait after spinal cord injury has been widely demonstrated in rat and cat models using different behavioral tests and scoring systems. The present investigation was aimed to quantitatively analyze the degree of functional recovery in bipedal locomotion of bonnet macaques after inflicting spinal cord hemisection lesion. To measure the degree of locomotor recovery, we recorded four gait variables, viz., tip of opposite foot (TOF), print length (PL), toe spread (TS), and intermediary toes (IT) using a footprint analyzing technique. Monkeys were trained preoperatively to perform the monopedal hop or bipedal locomotion on runways. Footprints of trained monkeys were recorded using the nontoxic ink and white paper before and after surgery. Surgical hemisection was induced unilaterally in the right side of spinal cord at T12-L1 level of trained monkeys. In hemiplegic monkeys, initially there was a substantial decrease in TOF and PL variables of the paretic limb, which then gradually increased for longer duration and reached the near presurgical values by the 7th and 5th postoperative month, respectively. In contrast to TOF and PL, the recovery of TS and IT variables was quicker, which dramatically increased at first and then slowly recovered to levels not significantly different from the corresponding preoperative values by the 4th postoperative month. The nonparetic limb has also showed mild alterations in all footprint variables but reached the normal values much faster compared to the paretic limb. The alterations in footprint variables of hemiplegic monkeys were examined for a postoperative period of up to 1 year. The findings of this study suggest that the mechanisms underlying locomotor recovery of lesioned macaques may be correlated to the mature function of spinal pattern generator for locomotion under the impact of residual descending and afferent connections. Further, this study also indicates the functional contribution of progressive strengthening of undamaged nerve fibers through a collateral sprouts/synaptic plasticity formed in partially lesioned cord of macaques.
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PMID:Recovery of bipedal locomotion in bonnet macaques after spinal cord injury: footprint analysis. 1836 40


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