Immunization with neural-derived peptides increases neurogenesis in rats with chronic spinal cord injury.

AIMS: Immunization with neural-derived peptides (INDP) has demonstrated to be a promising therapy to achieve a regenerative effect in the chronic phase of the spinal cord injury (SCI). Nevertheless, INDP-induced neurogenic effects in the chronic stage of SCI have not been explored. METHODS AND RESULTS: In this study, we analyzed the effect of INDP on both motor and sensitive function recovery; afterward, we assessed neurogenesis and determined the production of cytokines (IL-4, IL-10, and TNF alpha) and neurotrophic factors (BDNF and GAP-43). During the chronic stage of SCI, rats subjected to INDP showed a significant increase in both motor and sensitive recovery when compared to the control group. Moreover, we found a significant increase in neurogenesis, mainly at the central canal and at both the dorsal and ventral horns of INDP-treated animals. Finally, INDP induced significant production of antiinflammatory and regeneration-associated proteins in the chronic stages of SCI. CONCLUSIONS: These findings suggest that INDP has a neurogenic effect that could improve motor and sensitive recovery in the chronic stage of SCI. Moreover, our results also envision the use of INDP as a possible therapeutic strategy for other trauma-related disorders like traumatic brain injury.

Single vs. Combined Therapeutic Approaches in Rats With Chronic Spinal Cord Injury.

The regenerative capability of the central nervous system is limited after traumatic spinal cord injury (SCI) due to intrinsic and extrinsic factors that inhibit spinal cord regeneration, resulting in deficient functional recovery. It has been shown that strategies, such as pre-degenerated peripheral nerve (PPN) grafts or the use of bone marrow stromal cells (BMSCs) or exogenous molecules, such as chondroitinase ABC (ChABC) promote axonal growth and remyelination, resulting in an improvement in locomotor function. These treatments have been primarily assessed in acute injury models. The aim of the present study is to evaluate the ability of several single and combined treatments in order to modify the course of chronic complete SCI in rats. A complete cord transection was performed at the T9 level. One month later, animals were divided into five groups: original injury only (control group), and original injury plus spinal cord re-transection to create a gap to accommodate BMSCs, PPN, PPN + BMSCs, and PPN + BMSCs + ChABC. In comparison with control and single-treatment groups (PPN and BMSCs), combined treatment groups (PPN + BMSCs and PPN + BMSCs + ChABC) showed significative axonal regrowth, as revealed by an increase in GAP-43 and MAP-1B expression in axonal fibers, which correlated with an improvement in locomotor function. In conclusion, the combined therapies tested here improve locomotor function by enhancing axonal regeneration in rats with chronic SCI. Further studies are warranted to refine this promising line of research for clinical purposes.

Creation of an intramedullary cavity by hemorrhagic necrosis removal 24 h after spinal cord contusion in rats for eventual intralesional implantation of restorative materials.

Intramedullary hemorrhagic necrosis occurs early after spinal cord injury at the site of injury and adjacent segments. It is considered harmful because of its potential to aggravate secondary injury, and to interfere with axonal regeneration; it might also lead to an unfavorable environment for intralesional implants. Removal of hemorrhagic necrosis has been attempted before with variable results. The invasive nature of these procedures carries the risk of exacerbating damage to the injured cord. The overall objective for this study was to test several strategies for non-damaging removal of hemorrhagic necrosis and characterize the resulting cavity looking for a space for future intralesional therapeutic implants in rats with acute cord injury. Rats were subjected to graded cord contusion, and hemorrhagic necrosis was removed after 24h. Three grades of myelotomy (extensive, medium sized, and small) were tested. Using the small surgical approach to debridement, early and late effects of the intervention were determined by histology and by analytical and behavioral analysis. Appearance and capacity of the resulting cavity were characterized. Satisfactory removal of hemorrhagic necrosis was achieved with all three surgical approaches to debridement. However, bleeding in spared cord tissue was excessive after medium sized and extensive myelotomies but similar to control injured rats after small cord surgery. Small surgical approach to debridement produced no swelling nor acute inflammation changes, nor did it affect long-term spontaneous locomotor recovery, but resulted in modest improvement of myelination in rats subjected to both moderate and severe injuries. Cavity created after intervention was filled with 10 to 15 µL of hydrogel. In conclusion, by small surgical approach to debridement, removal of hemorrhagic necrosis was achieved after acute cord contusion thereby creating intramedullary spaces without further damaging the injured spinal cord. Resulting cavities appear suitable for future intralesional placement of pro-reparative cells or other regenerative biomaterials in a clinically relevant model of spinal cord injury.

Temporal changes of spinal subarachnoid space patency after graded spinal cord injury in rats.

INTRODUCTION: Disturbances in spinal subarachnoid space (SSAS) patency after SCI have been reported as an incidental finding, but there is a lack of information on its in vivo extent and time course. For substances and cells carried in the cerebrospinal fluid (CSF) to reach damaged neural tissue and promote reparative processes, CSF must be able to flow freely in SASS. OBJECTIVE: To characterise the extent and time course of SSAS patency disruption in vivo in a rat model after graded SCI. MATERIALS AND METHODS: Anaesthetised rats were subjected to mild or severe cord contusion at T9. Estimation of SSAS patency was carried out at 1h and 1, 3, 7, 15, 30 and 90 days postinjury, as well as in naïve rats, by quantifying the passage of superparamagnetic beads injected into the CSF at the cisterna magna and recovered at spinal level L2. CSF volume recovery was measured simultaneously. Data were analysed by the two-way ANOVA test. RESULTS: Estimation of SSAS patency revealed nearly complete blockage early after contusion that was unevenly restored entering the chronic stages. Volume of CSF recovered was also significantly decreased early after injury compared to naïve rats, but was fully restored by 1 month postinjury. Overall, although modestly different from each other, changes in both parameters were more pronounced after severe rather than mild injuries for each time point examined. CONCLUSIONS: SCI alters SSAS patency. Its extent is a function primarily of time elapsed after lesion and secondly of injury severity. It is reasonable to expect that disturbances in SASS patency might alter CSF dynamics and impair self-reparative mechanisms and intrathecal therapeutics, making SSAS patency blockage a key target for SCI management.

Spatial and temporal morphological changes in the subarachnoid space after graded spinal cord contusion in the rat.

Spontaneous repair or treatment-induced recovery after spinal cord injury (SCI) is very limited and might be related to extramedullary alterations that have only briefly been documented. Here we report on the morphological changes of the spinal subarachnoid space (SAS) in a clinically relevant model of SCI. Anesthetized rats were subjected either to mild or severe spinal cord contusion at T9. Spine blocks from the site of injury and adjacent segments were harvested at acute (1 h and 1 day [d]), subacute (3 and 7 d), and chronic (1 and 3 months) stages post-injury. Histopathology and morphometry at each decalcified vertebral level were assessed. At acute and subacute stages, reduction of SAS lumen was observed after both mild and severe injuries. Acutely, after severe injuries, SAS occlusion was associated mainly with cord swelling and subarachnoid hematomas; a trend for dural sac constriction was observed for mild injuries. At 7 d, cord swelling diminished in both instances, but dural sac constriction increased for severe injuries. At early stages, in the epicenter and vicinity, histopathology revealed compression of neurovascular elements within the SAS, which was more intense in severe than in mild injuries. In the chronic stage, SAS lumen increased notably, mostly from cord atrophy, despite dural sac constriction. Myelograms complemented observations made on SAS lumen permeability. Post-traumatic arachnoiditis occurred mainly in animals with severe injury. In conclusion, early extramedullary SAS changes described here might be expected to produce alterations in cerebrospinal fluid (CSF) dynamics and cord blood perfusion, thereby contributing to the pathophysiology of SCI and becoming novel targets for treatment.

New approach for graded compression spinal cord injuries in Rhesus macaque: method feasibility and preliminary observations.

BACKGROUND: Current models of spinal cord injury (SCI) have been ineffective for translational research. Primate blunt SCI, which more closely resembles human injury, could be a promising model to fill this gap. METHODS: Graded compression SCI was produced by inflating at T9 an epidural balloon as a function of spinal canal dimensions in a non-uniform group of monkeys. RESULTS: Sham injury and cord compression by canal invasion of 50-75% produced minimal morpho-functional alterations, if at all. Canal invasion of 90-100% resulted in proportional functional deficits. Unexpectedly, these animals showed spontaneous gradual recovery over a 12-week period achieving quadruped walking, although with persistent absence of foot grasping reflex. Histopathology revealed predominance of central cord damage that correlated with functional status. CONCLUSIONS: Our preliminary results suggest that this model could potentially be a useful addition to translational work, but requires further validation by including animals with permanent injuries and expansion of replicates.

Early administration of L-arginine in experimental acute spinal cord injury impairs long-term motor function recovery.

BACKGROUND: Recently, we reported that L-arginine, a nitric oxide precursor, reverses altered drug disposition induced by acute spinal cord injury (SCI) by increasing hepatic blood flow, without affecting mean arterial pressure and heart rate, whereas others have shown that it produces neuroprotection in several models of acute neurologic damage. Its use as a therapeutic agent for microcirculatory alterations associated with spinal shock seems promising. Therefore, here we have tested its influence on long-term morphofunctional neurologic outcome. METHODS: Intravenous L-arginine (300 mg/kg per dose) was administered to adult rats after SCI of moderate intensity according to the following schemes (n=6): (1) single dose at 1 hour, (2) single dose at 24 hour, and (3) repeated doses first at 24 hour and then daily for 7 days. Control injured rats received the vehicle (saline solution). RESULTS: Contrary to our expectations, locomotor function, assessed using the Basso-Beattie-Bresnahan scale for 8 weeks, was significantly worse in the L-arginine treated groups compared with the control group. Areas of both spared white matter and myelin stain at the epicenter seemed reduced in rats that received L-arginine as a single dose at 1 hour after injury but were not significantly different from the control group. CONCLUSIONS: L-arginine as used here interfered with the functional outcome of rats subjected to SCI, suggesting that L-arginine or its metabolic products may be neurotoxic. Because of its potential utility for acute SCI suggested in the past, strategies should be designed to block its apparent neurotoxicity.

High doses of 4-aminopyridine improve functionality in chronic complete spinal cord injury patients with MRI evidence of cord continuity.

BACKGROUND AND AIMS: Many patients with complete spinal cord injury (SCI) exhibit demyelinated and poorly myelinated nerve fibers traversing the lesion site. Conventional doses of 4-aminopyridine (4-AP, 30 mg/day) have shown to provide no or minor functional improvement in these patients. We undertook this study to test the functional effect of high doses of 4-AP on patients with chronic complete SCI with cord continuity at the site of injury demonstrated by magnetic resonance imaging. METHODS: Fourteen patients were included in a double-blind, randomized, placebo-controlled trial followed by an open label long-term follow-up. Initially, patients received 4-AP or placebo orally, with 4-AP being increased gradually (5 mg/week) to reach 30 mg/day. For long-term treatment, 4-AP was increased 10 mg periodically according to negative electroencephalogram and blood test abnormalities and minor adverse reactions. Pre-treatment, 12 and 24 weeks of the controlled trial, and 6 and 12 months of open trial evaluations, or with the highest doses reached were obtained. RESULTS: Three of 12 patients were able to walk with the assistance of orthopedic devices, 1/12 became incomplete (AIS B), 7/12 improved their somatosensory evoked potentials, 5/12 had sensation and control of bladder and anal sphincters, and 4/9 male patients had psychogenic erection. CONCLUSIONS: Positive changes were seen mainly in patients with cyst (4/5) or atrophy (3/5) of the injury site. Two patients withdrew from the study: one had seizures and one had intolerant adverse reactions. We conclude that high doses of 4-AP in the studied population produced several functional benefits not observed using lower doses.

Thalidomide fails to be therapeutic following contusive spinal cord injury in rats.

Mechanical damage to the spinal cord (SC) generates self-destructive processes that contribute to post-traumatic neurodegeneration. Because thalidomide apparently counteracts these effects its use clinically has been proposed enthusiastically. Nonetheless, we tested its action as a neuroprotectant in a clinically relevant model of SC injury in rats. We administered thalidomide intraperitoneally to rats subjected to thoracic SC contusion as single or repeated doses within the first 24 h after injury. Edema, neutrophil infiltration, and cord tissue preservation/destruction were assessed in the SC 24 h after injury and motor function for 7 weeks. Rats treated with thalidomide showed significant increase in SC water compared with naive rats, but not vehicle-treated rats; their neutrophil infiltration and amount of spared/destroyed cord tissue was not different from vehicle-treated rats; and in no case was motor performance improved after thalidomide. In conclusion, thalidomide failed here to be therapeutic, discouraging its use clinically for SC trauma.

Stereolithography in spine pathology: a 2-case report.

BACKGROUND: Solid plastic replicas of anatomical structures obtained by stereolithography from computed tomographic images and magnetic resonance imaging are being used as complementary tools for diagnostic purposes and therapy planning for diverse pathologies. CASE DESCRIPTIONS: Case 1--The spine mold of a 62-year-old man with neurologic compromise secondary to degenerative cervical disease was used to study the pathologic features of his spine and to plan and simulate the approach to remove osteophytes before surgery. Also, by examining the replica of his spine, the unconvinced patient was able to understand the nature of his pathology and realize that his neurologic symptoms would disappear only through surgery, as they did. Case 2--A 27-year-old woman had uncontrolled back and leg pain possibly related to anxiety and depression. She had undergone one unsuccessful lumbo-sacral surgery and was now obsessed with the thought that her second surgery, performed by us, likewise had failed, even though her magnetic resonance images proved otherwise. It was not until she held a replica of her repaired spine in her hands that she was able to understand that her pain was unfounded. Once she was able to relax, her chronic pain and anxiety disappeared within a month, using the same antidepressive treatment that formerly had been ineffective. CONCLUSIONS: Spine replicas are useful devices for diagnosis, planning, and simulating surgery, and they enable patients to understand the nature of their pathologies and the surgical procedures at hand.

Cyclosporin-A enhances non-functional axonal growing after complete spinal cord transection.

Therapeutic approaches that promote both neuroprotection and neuroregeneration would be valuable for spinal cord (SC) injury therapies. Cyclosporin-A (CsA) is an immunosuppressant that, due to its mechanism of action, could both protect and regenerate the neural tissue after injury. Previous studies have already demonstrated that intraperitoneal administration of CsA at a dose of 2.5 mg/kg/12 h during the first 2 days after SC contusion, followed by 5 mg/kg/12 h orally, diminishes tissue damage and improves motor recovery. In order to evaluate the effect of this CsA dosing regimen on axonal growth, we assessed motor recovery, presence of axons establishing functional connections and expression of GAP-43 in rats subjected to a complete SC transection. The Basso-Beattie-Bresnahan rating scale did not show difference in motor recovery of CsA or vehicle-treated rats. Moreover, somato-sensorial evoked potentials demonstrated no functional connections in the SC of these animals. Nevertheless, histological studies showed that: i) a significant number of CsA-treated rats presented growing axons, although they deviated perpendicularly at the edge of the stumps, surrounding them, ii) the expression of GAP-43 in animals treated with CsA was higher than that observed in the control group. Finally, anterograde tracing of the corticospinal tract of rats subjected to an incomplete SC transection showed no axonal fibers reaching the caudal stump. In summary, CsA administered at the dosing-regimen that promotes neuroprotection in SC contused rats induces both GAP-43 expression and axonal growth; however, it failed to generate functional connections in SC transected animals.

Spontaneous and induced aberrant sprouting at the site of injury is irrelevant to motor function outcome in rats with spinal cord injury.

In the absence of effective regeneration following spinal cord (SC) injury, sprouting from undamaged axons has been regarded as an underlying factor for functional improvement after incomplete SC injury. The influence of spontaneous and induced axonal sprouting at the injury site on motor function was tested using rats subjected to moderate SC contusion at T9 level, using megadoses of methylprednisolone (MP) and intralesion implantation of cells from sciatic nerve (PNI). Groups using MP and PNI combined, implant vehicle, and injury with no treatment were also included. Amount of sprouting at the injury sites was significantly different depending on treatment. It was abundant in PNI-treated rats, moderate in rats treated with vehicle or nontreated, and limited in rats given MP with or without PNI (chi2, p=0.0084). This sprouting showed an aberrant course and was located in proliferating tissue at the site of injury, characterized by the presence of ependymal cells, macrophages, and myelinating and nonmyelinating Schwann cells. Functional scores and amount of spared white matter were not significantly different among groups. Correlation of the amount of sprouting vs. functional outcome or vs. amount of spared tissue was not significant, while correlation of functional outcome vs. amount of spared tissue was significant (p<0.0001). In conclusion, PNI increase aberrant sprouting at the injury site, while MP limits such sprouting, in either case without impact on motor function outcome. Missing guiding channels for sprouting axons could explain the absence of any functional improvement.

Effects of cyclosporin-A on immune response, tissue protection and motor function of rats subjected to spinal cord injury.

The aim of this work was to test the effect of cyclosporin-A (CsA) on some immunological, morphological and functional aspects developed after spinal cord injury. The specific cellular immune response against spinal cord constituents, the amount of spared tissue and myelination at the site of injury, and the motor function outcome were assessed in a first series of experiments. Rats were subjected to spinal cord compression and treated with cyclosporin-A before lesion and during the entire study. A specific lymphocyte response against spinal cord antigens was found in untreated spinal cord injured rats but not in cyclosporine-A treated injured rats. A significantly better myelination index was also found in injured cyclosporin-A-treated rats, as compared to untreated animals. The amount of spared spinal cord tissue at the epicenter was not significantly different comparing CsA-treated with vehicle-treated rats. Looking for a potential therapeutic use of CsA, in a second series of experiments, rats were subjected to spinal cord contusion and treated with cyclosporin-A from 1 to 72 h after lesion. Motor recovery and red nuclei neurons survival, were evaluated, and found to be significantly better in spinal cord injured rats treated with cyclosporin-A than in injured-untreated rats. This work confirms the existence of an autoimmune cellular reaction after injury that can be inhibited by cyclosporin-A treatment. Furthermore, cyclosporin-A promotes neuroprotection by diminishing both demyelination and neuronal cell death, resulting in a better motor outcome after spinal cord injury.

Cisticercosis humana / Human cysticercosis

Estudio realizado sobre la cisticercosis humana con el propósito de mejorar y contribuir a la lucha por prevenirla y erradicarla, dadas las lesiones que ocasiona en el cerebro humano. Se incluye un análisis de la bibliografía existente sobre la cisticercosis durante 30 años de su estudio, de 1965 a 1995. Contiene: 1. Antecedentes 2. Parásitos y ciclo de vida 3. Diagnóstico 4. Aspectos clínicos y patológicos 5. Tratamiento 6. Casos clínicos prototipo de diagnóstico y tratamiento 7. Inmunología 8. Epidemiología y control 9. Referencias 10. Análisis de la bibliografía 1965-1995

Hallazgos neurorradiológicos en aminoaciduria glutárica tipo I: informe de dos casos / Neuroradiologic findings in glutaric aminoaciduria type I

Se informan los hallazgos neurradiológicos de dos pacientes pediátricos con aminoaciduria glutárica tipo I (AG-I), a quienes se les realizó tomografía de cabeza y, sólo a uno, estudio de imagen de resonancia magnética. El diagnóstico bioquímico se llevo a cabo mediante la medición de ácido glutártico libre en orina, así como por cromatografía de gas para determinar la actividad enzimática del glutaril Co-A deshidrogenasa en los leucocitos. El retardo en la mielinización, con su consecuente disminución generalizada de la sustancia blanca, es característico de varias enfermedades metabólicas; las evidencias de las alteraciones de disgénesis cerebral se obtienen básicamente mediante estudios de neuroimagen. Se debe sospechar una probable enfermedad hereditaria del metabolismo como AG-I cuando se tenga un paciente pediátrico con retraso psicomotor, alteraciones motoras extrapiramidales o macrocrania, en el cual se obtengan los siguientes hallazgos neurorradiológicos: atrofia bilateral de la fosa temporal asociada con áreas hipodensas difusas en la sustancia blanca, ligera atrofia o pérdida del volumen de los ganglios basales, hipoplasia del vermis del cerebelo y ocasionalmente colección subdural de líquido.

Predictive value of signs and symptoms in the diagnosis of subarachnoid hemorrhage among stroke patients

Clinical diagnosis of subarachnoid hemorrhage (SAH) is frequently misdiagnosed with intracereblar hemorrhage (ICH) or cerebral infarction (CI), which delays appropriate referrral. This study was undertaken to create a clinical index to select, among stroke patients, those with the highest probability of having a SAH. Clinical data of patients with acute stroke were evaluated with the X² and the Fisher exact test; a p value <0.05 was considered significant. Significant variables were included in a "long-lineal regression analysis" where those with and odds ratio (OR) 95 percent confidence limits not including the unit were considered to construct an index using the odds ratio coefficient (C). The results indicated that of 197 records which were included, 22 cases of SAH and 175 of ICH or CI were demonstrated. Kappa coefficients for observer variation in clinical data retrieval was 0.91. After "long-lineal regression analysis" was carried out the following variables were significant: neck stiffness (C=3, OR=21); lack of focal neurologic signs (C=2, OR=6.88); and age < or = 60 years (C=1.5, OR=4.35). A fourth variable, seixures (C=1, OR=3.25), was marginally significant (p=0.07), but added predictive value to the index. The positve predictive values of the sum of the coefficients were: 0=0 percent; 1-2=3 percent; 2.5-3.5=21 percent; 4-5=40 percent; 6.5=75 percent: 7.5=100 percent. In conclusion, when a stroke patient shows neck stiffness, or any combination of young age, lack of focal neurologic signs or seizures (a score > or = 2.5, the index has a 91 percent sentivity and 82 percent specificity), he/she must be referred to a tertiary care center

Comparison between sprague-dawley and wistar rats as an experimental model of pharmacokinetic alterations induced by spinal cord injury

Two strains of rats, Sprague-Dawley and Wistar, were assayed in order to determine which strain is the more suitable experimental model for the study of pharmacokinetic alterations inuced by spinal cord injury. Animals were submitted to spinal cord contusion at the T8-T9 level by the weight drop method. A single acetaminophen oral dose (100 mg/kg) was administered 24 h after injury and blood samples were drawn for a period of 4 h. Acetaminophen concentration in whole blood was determined by high performance liquid chromatography and pharmacokinetic parameters were estimated. For both strains, Cmax and AUC were significantly lower, whereas tmax remained uchanged, in injured animals compared to sham-injured controls. Circulating acetaminophen concentrations were higher; therefore, pharmacokinetic alterations were more easily discerned, in Sprague-Dawley than in Wistar rats. It is concluded that the Sprague-Dawley strain is a more suitable model for the study of pharmacokinetic alternations induced by spinal cord injury

Primer homotrasplante fetal homotópico de estriado para el tratamiento de la enfermedad de Huntington / First homotypic fetal homotransplant of striate in the treatment of Huntington's disease

El uso de injertos cerebrales, útiles para restaurar la función en modelos animales de efermedad de Huntington (EH), se aplicó en una mujer de 37 años de edad con EH moderada a grave, de nueve años de evolución. Se trasplantaron los dos estriados de un feto humano de 13 semanas de edad gestacional en cuatro cavidades hechas en la pared ventricular del núcleo caudado derecho. Diez meses después de la cirugía, las evaluaciones neurológicas y neuropsicológica de la paciente revelaron la estabilización de su sintomatología y de la mayor parte de sus indicadores neuropsicológicos. Hubo mejoría moderada de los movimientos coréicos, principalmente los de la cara; de la capacidad para definir y expresar ideas en forma oral y escrita; de su agilidad articulatoria, así como en sus actividades cotidianas y en su comportamiento social. Ocurrió deterioro leve de la postura y la marcha; además se deterioraron su sistema sacádico y nistagmo optocinético, así como sus funciones visoespaciales y visoperceptuales