Development of a three-channel automatic climbing training system for rat rehabilitation after ischemic stroke

This paper reports the development of a three-channel automatic speed-matching climbing training system that could train three rats at the same time for rehabilitation after an ischemic stroke. An infrared (IR) remote sensor was installed at the end of each channel to monitor the real-time position of a climbing rat. This research was carried out in five stages: i) system design; ii) hardware circuit; iii) running speed control; iv) functional testing; and v) verification using an animal model of cerebral stroke. The rehabilitated group significantly outperformed the middle cerebral artery occlusion (MCAo) sedentary group in the rota-rod and inclined plate tests 21 days after a stroke. The rehabilitated group also had a cerebral infarction volume of 28.34±19.4%, far below 56.81±18.12% of the MCAo group 28 days after the stroke, validating the effectiveness of this training platform for stroke rehabilitation. The running speed of the climbing rehabilitation training platform was designed to adapt to the physical conditions of subjects, and overtraining injuries can be completely prevented accordingly.

Neuropharmacological effects of the ethanolic extract of Sida acuta

ABSTRACT Sida acuta Burm. f., Malvaceae, is regarded as astringent, tonic and useful in treating urinary diseases and blood disorders, bile, liver and as treatment for nervous diseases. Different methods were developed: sodium pentobarbital-induced sleeping time, anxiolytic activity, test for muscle-effects, pentylenetetrazole (PTZ)-induced seizures, effect on normal body temperature. All experiments were performed in an isolated room with 12/12 h light/dark cycles at 22 ± 1 ºC. The effects described in this work for Sida acuta are according to what is known in traditional medicine, where is used as sedative agent. At the higher doses used in this work (500 and 1000 mg/kg), the Sida acuta extract reduced the latency time (T1) and increased the sleeping time (T2) induced by pentobarbital, indicating a sedative and hypnotic effect of the plant's extract. The extract of Sida acuta shows an increase in open arm exploration (anxiolytic activity). Results obtained in the rota-rod test showed that only the elevated dose (750 mg/kg) of Sida acuta extract, acutely administered, promotes significant changes, at 60 and 120 min post-administration, in the time of permanence in the rod. The ethanolic extract from the leaves and stems of Sida acuta, causes effects on the central nervous system in experimental animals.

Behavioral effects and neural changes induced by continuous and not continuous treadmill training, post bilateral cerebral ischemia in gerbils.

This study aims to investigate the effects of treadmill training and the possible influences of the start, regularity, and duration after experimental ischemic stroke. We performed bilateral occlusion of both the carotid arteries for 5 min in Mongolian gerbils. The training groups were: continuous training for 5 consecutive days or not continuous training for 3 non-consecutive days. The groups remained in the treadmill for 15 min, and the training started 12 or 24h after the stroke. In the activity cage (AC), behaviors of crossing and distance traveled were registered. The forced motor behavior was analyzed by a Rota Rod test. After the experiments, the brains were perfused, and coronal sections of the striatum, motor cortex M1, and CA1 area of the hippocampus were cut and stained with hematoxylin and eosin. Behavioral and morphological data analysis was performed by an ANOVA and MANCOVA. Results showed an increased density of neurons in the CA1 area of the hippocampus, motor cortex M1, and the striatum in ischemic training groups compared to the not training ischemic groups. Animals subjected to continuous training that started 24h after ischemia showed a satisfactory behavior in the AC and a higher number of striatal neurons when compared to ischemic animals. The animals in the not continuous training started 12h after the stroke showed an unsatisfactory performance in the AC and Rota Rod. These findings suggest that early training and not continuous training are inadequate for motor behavior improvement after stroke.

Anxiolytic-like effect of the extract from Bowdichia virgilioides in mice

Current therapeutic for the treatment of anxiety is associated with a wild variety of side effects. The traditional use of plant extract to health care can indicate an important source of new pharmaceuticals. Bowdichia virgilioides Kunth, Fabaceae, is a plant commonly employed in the Brazilian folk medicine to treat inflammatory conditions. Nevertheless, despite its popular use there are no studies related to its possible neuropharmacological effect. Here, we investigated the possible anxiolytic effect of the extract of B. virgilioides after acute and sub-chronic treatment in mice. The aqueous extract from the stem barks of B. virgilioides (20, 200 or 400 mg/kg) was orally administered, and its anxiolytic effect was evaluated in the elevated plus maze, open-field and rota-rod tests. Diazepam was employed as standard drug. The aqueous extract treatment was effective in inducing anxiolytic effects with single acute treatment, a phenomenon that remained after chronic treatment. However, no changes in spontaneous locomotor activity or myorelaxant effect after aqueous extract treatment. The extract was either safe with no deaths in mice treated orally with 1000 mg/kg. These findings suggest that the aqueous extract from the stem barks of Bowdichia virgilioides has an acute and sub-chronic anxiolytic-like effect without compromising motor activity, demonstrating an advantage regarding to antidepressant drugs.

Potential of Pandanus odoratissimus as a CNS depressant in Swiss albino mice / Potencial de Pandanus odoratissimus como um depressor do sistema nervoso central em camundongos Swiss albinos

In this study, several neuropharmacological effects of methanolic leaf extract of Pandanus odoratissimus (PO) (family; Pandanaceae) were studied in albino mice using various experimental models. The effect of PO on the CNS was studied by using different neuropharmacological paradigms including spontaneous motor activity, rota-rod performance and potentiation of Pentobarbital sodium sleeping time in albino mice. Preliminary phytochemical evaluation and acute toxicity studies were also carried out where LD50 >2000 mg/kg was considered non-toxic through acute exposure in rats by the oral route. The methanolic leaf extract (50,100 and 200 mg/kg i. p.) produced a reduction in spontaneous motor activity, motor coordination and prolonged Pentobarbital sodium sleeping time. Preliminary qualitative chemical studies indicated the presence of steroids, saponins, terpinoids, glycosides, tannins, flavonoids and phenolics in the extract. These observations suggest that the leaf of Pandanus odoratissimus contains some active principles which possess potential CNS-depressant action.

Estudaram-se alguns efeitos neurofarmacológicos do extrato metanólico de Pandanus odoratissimus (PO) (família Pandanaceae) em camundongos albinos, usando vários modelos experimentais. O efeito do PO no SNC foi estudado por meio de diferentes paradigmas neurofarmacológicos, como atividade motora espontânea, desempenho na haste rotatória e a potenciação do tempo de sono em camundongos albinos pelo pentobarbital sódico. A avaliação fitoquímica preliminar e os estudos de toxicidade aguda foram realizados e a DL50 >2000 mg/kg é considerada não tóxica, por meio da exposição aguda, por via oral, em ratos. O extrato metanólico de folha (50,100 e 200 mg/kg i. p.) produziu redução da atividade motora espontânea, da coordenação motora e tempo prolongado de sono pelo pentobarbital sódico. Estudos químicos qualitativos preliminares indicaram a presença de esteróide, saponinas, terpenóides, glicosídios, taninos, flavonóides e fenólicos no extrato. As observações sugerem que a folha de Pandanus odoratissimus contém alguns princípios ativos com atividade potencial como depressores do SNC.

Efeitos da hipóxia-isquemia perinatal sobre o comportamento motor, distribuição da Tirosina Hidroxilase na substância negra e da NADPH diaforase no hipocampo durante o desenvolvimento em ratos / Effects of hypoxia-ischemia under motor behavior, tyrosine hydroxylase distribution in the nigra substantia and the diaphorase NADPH in hippocampus in rats

A hipóxia isquemia (HI) pré-natal é uma das principais causas de mortalidade e doenças neurológicas crônicas em neonatos, que podem apresentar déficits remanentes como: retardamento, paralisia cerebral, dificuldade de aprendizado ou epilepsia. Estes prejuízos, provavelmente, estão relacionados com o atraso no desenvolvimento neural, astrogliose e com a perda de neurônios e oligodendrócitos. Déficits funcionais e cognitivos estão associados à degeneração de vias dopaminérgicas e de estruturas hipocampais. A enzima tirosina hidroxilase (TH) é a enzima limitante na síntese de dopamina e seus níveis são alterados em eventos de HI. O óxido nítrico (NO) é um gás difusível que atua modulando diferentes sistemas, participando de eventos como plasticidade sináptica e neuromodulação no sistema nervoso central e é produzido em grandes quantidades em eventos de injúria e inflamação, como é o caso da HI. O presente estudo teve por objetivos avaliar, utilizando o modelo criado por Robinson e colaboradores em 2005, os efeitos da HI sobre o comportamento motor e avaliar o desenvolvimento de estruturas encefálicas relacionadas a este comportamento como a substância negra (SN) e o complexo hipocampal. A HI foi induzida a partir do clampeamento das artérias uterinas da rata grávida, por 45 minutos no décimo oitavo dia de gestação (grupo HI). Em um grupo de fêmeas a cirurgia foi realizada, mas não houve clampeamento das artérias (grupo SHAM). A avaliação do comportamento motor foi realizada com os testes ROTAROD e de campo aberto em animais de 45 dias. Os encéfalos foram processados histologicamente nas idades de P9, P16, P23 e P90, sendo então realizada imunohistoquímica para TH e histoquímica para NADPH diaforase (NADPH-d), para avaliação do NO. Nossos resultados demonstraram redução da imunorreatividade para a TH em corpos celulares na SN aos 16 dias no grupo HI e aumento na imunorreatividade das fibras na parte reticulada aos 23 dias, com a presença de corpos celulares...

Perinatal hypoxia-ischemia (HI) is one of the major causes of mortality and chronic neurological diseases in newborns that can show permanent effects such as mental retardation, cerebral palsy, learning difficulty and epilepsy. It is probable that these impairs may be related to a delay in the neural development, astrogliosis and to the death of neurons and oligodendrocytes. Cognitive and functional deficits are related to degeneration of dopaminergic pathways and hippocampus. The enzyme tyrosine hydroxylase (TH) is a limiting step in the dopamine synthesis and its levels are impaired in HI insults. Nitric oxide (NO) is a diffusible gas that acts by modulating different systems and participates in several phenomena such as synaptic plasticity and neuromodulation in the central nervous system and is produced in higher levels in events of injury and inflamation as in the case of HI. This study aimed to evaluate the effects of HI on the motor behavior and to evaluate the development of brain structures related to this behavior as the substantia nigra (SN) and the hippocampal complex, using the model developed by Robinson and colleagues in 2005. HI was induced by clamping the uterine arteries of pregnant rats, for 45 minutes, on the eighteenth day of gestation (group HI). In a group of females, the surgery was performed, but no clamping of the arteries (group SHAM) was made. Assessment of motor behavior was performed with the ROTAROD test and open field test in animals of 45 days (P45) of age. The brains were processed histologically at ages P9, P16, P23 and P90, and then submitted to immunohistochemistry for TH and NADPH diaphorase (NADPH-d) histochemistry for evaluation of NOS. Our results demonstrated an apparent decrease in TH immunoreactivity in cell bodies in the SN at P16 in the HI group and an increase in immunoreactivity of the fibers in the SN pars reticulata at P23 with the presence of TH immunoreactive cell bodies at this same region in the HI group...