Mielopatía cervical secundaria al consumo recreativo de óxido nitroso una afección emergente / Cervical myelopathy secondary to recreational nitrous oxide use: an emergent pathology

Resumen Se describe el caso de una paciente de 27 años que se presentó al servicio de urgencias por hipoestesia y parestesia de dos meses de evolución. El cuadro se inició en ambos pies, progresó en pocos días hasta las rodillas sin trastornos de la marcha y se acompañó de distonías en pulgar e índice de ambas manos. La analítica sanguínea incluyendo tóxicos fue negativa. La resonancia magnética medular mostró una imagen sugestiva de mielopatía o mielitis (C3-C5) sin otras anomalías sugestivas de enfermedad sistémica. El análisis bioquímico y el bacteriológico del líquido cefalorraquídeo fueron normales. Ante estos elementos se re-interrogó a la paciente en busca de consumo de tóxicos inusuales con la confirmación de consumo de óxido nitroso. La paciente fue internada para la realización de otros estudios que confirmaron la hipótesis diagnóstica del servicio de urgencias.

Abstract We describe the case of a 27-year-old female patient who presented to the emergency ward with hypoesthesia and paresthesia developing over the last two months, initially in both feet and progressing to the knees in a few days without associated gait disorders. Dystonia in the thumb and index finger of both hands was noted. Blood tests including toxic drugs were negative. The spinal magnetic resonance imaging was consistent with (C3-C5) myelopathy or myelitis without other abnormalities suggestive of systemic diseases. The biochemi cal and bacteriological analysis of the cerebrospinal fluid was normal. Because of these findings, the patient was re-interviewed to determine the consumption of unusual drugs, and nitrous oxide consumption was referred. The patient was admitted for further studies, which confirmed the diagnosis.

Efectos del tratamiento con vitamina E en el tubo neural y médula espinal en embriones y fetos de ratones Mus musculus expuestos al uso de ácido valproico / Effects of treatment with vitamin E in the neural tube and spinal cord Mus musculus mouse embryos exposed to the use of valproic acid

El ácido valproico (VPA) es el principal anticonvulsivante utilizado contra la epilepsia durante la gestación. Sin embargo, en etapas iniciales del embarazo actúa como teratógeno y ocasiona malformaciones como fisura labio-palatina, alteraciones en el desarrollo genital y espina bífida, siendo esta última la más frecuente. Esto se produce debido al aumento de especies reactivas de oxígeno, pudiendo contrarrestarse administrando vitamina E. El objetivo fue determinar si la vitamina E disminuye el daño en tubo neural y médula espinal de embriones y fetos de ratonas expuestas a VPA. Se conformaron 8 grupos de animales. A los 8 días post-fecundación se les administró a los grupos 1 y 5 suero fisiológico 0,3 mL; grupos 2 y 6 VPA 600 mg/Kg; grupos 3 y 7 VPA 600 mg/Kg y vitamina E 200 UI/Kg; grupos 4 y 8 vitamina E 200 UI/kg. A los 12 días post-fecundación, se sacrificaron los grupos 1, 2, 3 y 4, y a los 17 días los restantes grupos. Los embriones fueron procesados y teñidos con cresil violeta, observándose cortes histológicos a nivel cervical, torácico y lumbar. Los grupos tratados con vitamina E presentaron menor cantidad de neuroblastos y motoneuronas, pero de tamaño mayor en comparación al grupo tratado con VPA (p<0,05), siendo similares a los grupos controles. Al comparar el tubo neural y médula espinal en los distintos niveles (cervical, torácico y lumbar), no hubo diferencias estadísticamente significativas. La administración prenatal de vitamina E disminuye los defectos en tubo neural y médula espinal de embriones de 12 y 17 días de gestación sometidos a VPA.

Valproic Acid (VPA) is the main anticonvulsant used for epilepsy throughout the gestation period. However, when used at early stages of pregnancy, it acts as a tetarogenic agent, causing congenital malformations such as cleft-lip and/or cleft palate, abnormal genital development and spina bifida, being the latter the most frequent. This is the result of the increase of reactive oxygen species, which can be countered with the supplementation of vitamin E. The aim was determine if vitamin E minimizes the damage to the neural tube and spinal cord of mice embryos and fetuses previously exposed to VPA. Eight groups of mice were constituted. Eight days post fertilization, groups 1 and 5 were administered 0,3 ml of saline solution; groups 2 and 6 600mg/Kg of VPA, groups 3 and 7 600mg/Kg of VPA and 200UI/Kg of Vitamin E; groups 4 and 8 200 UI/Kg of Vitamin E. 12 days after fertilization, groups 1, 2, 3 and 4 were euthanized, whereas in the case of the remaining groups, the same process was performed 17 days after fertilization. The embryos were stained with cresyl violet, thus enabling the observation of histological sections at cervical, thoracic and lumbar levels. Groups supplied with vitamin E presented a lower amount of neuroblasts and motoneurons. However, these elements were bigger in size compared to the group treated with VPA (p<0,05), being these results similar to those obtained with the control groups. When comparing the neural tube and spinal cord at different levels (cervical, thoracic and lumbar), no statistically significant differences were found. It was determined that prenatal administration of vitamin E lessens the damage to the neural tube and spinal cord of mice embryos of 12 and 17 days of gestation previously exposed to VPA.

Glutamine Synthetase Induced Spinal Seizures in Rats

Glutamine synthetase (GS) is a key enzyme in the regulation of glutamate neurotransmission in the central nervous system. It is responsible for converting glutamate to glutamine, consuming one ATP and NH3 in the process. Glutamate is neurotoxic when it accumulates in extracellular fluids. We investigated the effects of GS in both a spinal cord injury (SCI) model and normal rats. 0.1-ml of low (2-microM) and high (55-microM) concentrations of GS were applied, intrathecally, to the spinal cord of rats under pentobarbital anesthesia. Immediately after an intrathecal injection into the L1-L3 space, the rats developed convulsive movements. These movements initially consisted of myoclonic twitches of the paravertebral muscles close to the injection site, repeated tonic and clonic contractions and extensions of the hind limbs (hind limb seizures) that spread to the fore limbs, and finally rotational axial movements of the body. An EMG of the paravertebral muscles, fore and hind limbs, showed the extent of the muscle activities. GS (2-microM) caused spinal seizures in the rats after the SCI, and GS (6-microM) produced seizures in the uninjured anesthetized rats. Denatured GS (70 degrees C, 1 hour) also produced spinal seizures, although higher concentrations were required. We suggest that GS may be directly blocking the release of GABA, or the receptors, in the spinal cord.