Modelo experimettal de hipoperfusión cerebral poduce déficit de la memoria y aaprendizaje y modificaciones en la expresión de genes / Experimental Model of Cerebral Hypoperfusion Produced Memory-learning Deficits, and Modifications in Gene Expression

A escala mundial, la isquemia cerebral constituye una de las principales causas de muerte, por lo que los modelos animales de isquemia cerebral son extensamente usados tanto en el estudio de la pato-fisiología del fenómeno isquémico; como en la evaluación de agentes terapéuticos con posible efecto protector o regenerador. Los objetivos de este estudio fueron examinar la presencia de daño neuronal en diferentes áreas cerebrales como consecuencia del evento isquémico; así como evaluar consecuencias de este proceder sobre los procesos de memoria-aprendizaje. Los grupos de estudios incluyeron un grupo experimental de animales isquémicos, 30 ratas a las que se les ocluyó ambas arterias carótidas comunes, y un grupo control. Fue evaluada la expresión de genes isquémicos e inflamatorios por técnicas de qPCR 24 horas post lesión, la morfología del tejido cerebral en áreas de corteza, estriado e hipocampo, siete días post lesión y los procesos de memoria y aprendizaje, 12 días post lesión. Los estudios morfológicos evidenciaron que el proceder induce la muerte de poblaciones celulares en corteza, estriado e hipocampo; la isquemia modificó la expresión los genes gfap, ho-1, il-6, il-17 e ifn-γ, lo cual puede ser utilizado como un marcador de proceso isquémico temprano. Adicionalmente, el daño isquémico causó un deterioro en la memoria espacial. Esta caracterización nos permite contar con un modelo experimental donde desarrollar futuros estudios sobre la patofisiología de los eventos isquémicos y la evaluación de estrategias terapéuticas.

Cerebral ischemia is a major cause of death, for this reason animal models of cerebral ischemia are widely used to study both the pathophysiology of ischemic phenomenon and the evaluation of possible therapeutic agents with protective or regenerative properties. The objectives of this study were to examine the presence of neuronal damage in different brain areas following the ischemic event, and assess consequences of such activities on the processes of memory and learning. The study group included an experimental group ischemic animals (30 rats with permanent bilateral occlusion of the carotids), and a control group. Was evaluated gene expression and inflammatory ischemic by qPCR techniques 24h post injury, brain tissue morphology in areas of cortex, striatum and hippocampus seven days post injury and processes of memory and learning, 12 days post injury. The morphological studies showed that the procedure induces death of cell populations in cortex, striatum and hippocampus, ischemia modified gfap gene expression and ho, il-6, il-17 and ifn-γ, which can be used as a marker of early ischemic process. Additionally, the ischemic injury caused spatial memory decline. This characterization gives us an experimental model to develop future studies on the pathophysiology of ischemic events and assessing therapeutic strategies.

Zolpidem induces paradoxical metabolic and vascular changes in a patient with PVS.

INTRODUCTION: Zolpidem is a non-benzodiazepine drug used for the therapy of insomnia, which has selectivity for stimulating the effect of GABA-A receptors. Recently, a paradoxical arousing effect of zolpidem in patients with severe brain damage has been repeatedly reported. METHODS: A placebo-controlled magnetic resonance study was conducted to evaluate its effect on BOLD and metabolites spectral signals in a patient with severe brain injuries and an age-matched healthy volunteer. A multi-modal analysis was used to assess aspects in the pharmacologically-induced changes in the resting-state brain metabolism. RESULTS: A significantly increased BOLD signal was transiently localized in the left frontal cortices, bilateral anterior cingulated areas, left thalamus and right head of the caudate nucleus. The healthy subject showed a deactivation of the frontal, parietal and temporal cortices. BOLD signal changes were found to significantly correlate with concentrations of extravascular metabolites in the left frontal cortex. It is discussed that, when zolpidem attaches to modified GABA receptors of neurodormant brain cells, brain activation is induced. This might explain the significant correlations of BOLD signal changes and proton-MRS metabolites in this patient after zolpidem. CONCLUSION: It was concluded that proton-MRS and BOLD signal assessment could be used to study zolpidem-induced metabolic modulation in a resting state.

Hippocampal neurotrophins after stimulation of the basolateral amygdala, and memory improvement in lesioned rats.

PURPOSE: To investigate a possible role of neurotrophins in the memory improving effect of stimulating the basolateral amygdala. METHODS: The BDNF and NGF levels were measured in the hippocampus of fimbria-fornix lesioned male rats after four days of training in the water maze and stimulation of the basolateral amygdala. RESULTS: The behavioral results confirm that daily post-training stimulation of the amygdala improves the learning abilities of the lesioned animals. BDNF increased in lesioned and trained animals, but stimulating the basolateral amygdala induces a significantly greater increase. NGF showed a slight (but significant) increase in fimbria-fornix lesioned and trained animals, but stimulating the amygdala does not produce a further increase. In separate groups of animals we measured the levels of both neurotrophins in acute experiments, after 2 and 24 hours of stimulating the amygdala. BDNF was significantly increased at both times, while NGF showed again only slight increases (significant at 24 h). CONCLUSIONS: These results suggest that the BDNF response to amygdala stimulation might be of functional importance in the observed learning improvement. The changes in NGF are most likely due to the accumulation of this protein after removal of the septal axons.

Bone marrow stromal cells produce nerve growth factor and glial cell line-derived neurotrophic factors.

Bone marrow stromal cells (BMSC) have attracted interest through their possible use for cell therapy in neurological diseases. Recent reports demonstrated that these cells are able to migrate and have potential for neuronal differentiation after transplantation into brain parenchyma. The objective of this work was determine whether rat BMSC express NGF and GDNF, in order to study its potential application for treatment of neurodegenerative diseases. BMSC were harvested from male rats and cultured in DMEM supplemented with 20% fetal bovine serum. At passage 6 the total RNA was isolated using TriZol reactive. RT-PCRs to evaluate the expression of NGF and GDNF using specific primers were carried out. Our results indicate that rat BMSC have potential to produce NGF and GDNF. We have not found any report in favor of GDNF or NGF production from rat BMSC.

Selective posteroventral pallidotomy guided by semimicroregister in the treatment of advanced stages of idiopathic Parkinsonïs disease / Palidotomía posteroventral selectiva guiada por semimicroregistro en el tratamiento de los estadíos avanzados de la enfermedad de Parkinson idiopática

Introducción. El desarrollo tecnológico contemporáneo y una mejor comprensión de funcionamiento de los ganglios basales obtenidos en las dos últimas décadas, unido a la necesidad de buscar alternativas terapéuticas para los estadíos avanzados y complicados de la enfermedad de parkinson, han condicionado un resurgimiento de la cirugía funcional de los ganglios basales como opción terapéutica. Método. 103 pacientes con enfermedad de Parkinson avanzada fueron evaluados con la escala UPDRS y se sometieron a lesión de la porción interna del globus pallidus. Durante la cirugía, todos los pacientes fueron sometidos a técnicas de semimicrorregistro con el fin de localizar y definir el área sensorimotora del globus pallidus, utilizando un recurso tecnológico propio. Resultados. Más del 93

de los pacientes se benefició con la cirugía, con promedios de mejoría del 40

para la condición motora. En el 95

de los pacientes se abolió la disquinesia y la morbimortalidad fue menor del 10

. Se concluye que la palidotomía posteroventral selectiva es un tratamiento exitoso y relativamente seguro para el tratamiento de las complicaciones motoras evolutivas de la enfermedad de Parkinson avanzada(AU)ç

Immunological study in Parkinson's disease patients with intracerebral allografts

Immunological response was characterized in 15 patients with Parkinso's disease intracerebrally transplanted: seven in unilateral and eight in bilateral hemisphere with fetal mesencephalic cells by stereotactical technique. The phenotypic distribution of mononuclear cells in CSF and PB was investigated using monoclonal antibodies. The total protein, albumin and IgG in CSF and albumin, IgA, IgM and IgG Concentration in serum were also analyzed, before and after evolution. A general decrease in CD2+ cells was found in patients with unilateral neurotransplantation during the first semester following trasplant. A small increase in the proportion of CSF CD8+ cells was observed in the first month and in the fourth month in PB. In patients with bilateral intracerebral allografts a decrease in CD2+ and CD4+ cells was found during the first and fourth month. The intrathecal synthesis of IgG during the fourth month was observed in both patients. Results are discussed taking into account the immunosupressor treatment(AU)