Effects of immobilization and remobilization on the ankle joint in Wistar rats

A sprained ankle is a common musculoskeletal sports injury and it is often treated by immobilization of the joint. Despite the beneficial effects of this therapeutic measure, the high prevalence of residual symptoms affects the quality of life, and remobilization of the joint can reverse this situation. The aim of this study was to analyze the effects of immobilization and remobilization on the ankle joint of Wistar rats. Eighteen male rats had their right hindlimb immobilized for 15 days, and were divided into the following groups: G1, immobilized; G2, remobilized freely for 14 days; and G3, remobilized by swimming and jumping in water for 14 days, performed on alternate days, with progression of time and a series of exercises. The contralateral limb was the control. After the experimental period, the ankle joints were processed for microscopic analysis. Histomorphometry did not show any significant differences between the control and immobilized/remobilized groups and members, in terms of number of chondrocytes and thickness of the articular cartilage of the tibia and talus. Morphological analysis of animals from G1 showed significant degenerative lesions in the talus, such as exposure of the subchondral bone, flocculation, and cracks between the anterior and mid-regions of the articular cartilage and the synovial membrane. Remobilization by therapeutic exercise in water led to recovery in the articular cartilage and synovial membrane of the ankle joint when compared with free remobilization, and it was shown to be an effective therapeutic measure in the recovery of the ankle joint.

Screening of Filamentous Fungi for Xylanases and Cellulases Not Inhibited by Xylose and Glucose.

Aims: Screening different filamentous fungi for thermostable xylanases and cellulases that would not be inhibited by xylose and glucose, respectively. Methodology: Samples of fungi collected in the Atlantic forest region, Minas Gerais, Brazil, and some fungi from our Culture Collection were used in this screening. All fungi were grown in liquid media containing 1% sugar cane bagasse (SCB). After that, an aliquot of the crude broth was incubated at different temperatures (from 4 to 60 °C) in carboxymethyl cellulose (CMC) or xylan-media plates, for 12 hours. After this period, the plates were stained with Congo Red. Fungi that presented the best results (larger halos) were tested for the effect of adding xylose and glucose in the xylanase and cellulases activities, respectively. Crude extracts obtained from fungi grown in SCB were used for laccase and lichenase assay. Results: The screening on agar plates with CMC/xylan presented halos of different sizes. From all tested fungi, the best cellulase producer was Malbranchea pulchella, which also presented the most thermostable xylanase. Penicillium griseofulvum presented bigger halos at all temperatures tested, but the xylanase lost almost 14% of its stability in higher temperatures. The effect of xylose and glucose on the enzymatic activities recorded dosedependent. It was observed that 20% activation of the enzymes produced by M. pulchella with 30 mM glucose or 20 mM xylose to cellulase and xylanase, respectively. It was observed a loss of less than 20% for P. griseofulvum xylolytic activity using 50 mM xylose. Lichenase was detected in some fungi prospected but laccase was not detected. Conclusion: Malbranchea pulchella was a good producer of xylanase and cellulase tolerant to xylose and glucose, respectively. Other studies must be performed with this fungus so that it can be used in the future for biotechnological purposes.

Virucidal evaluation of sodium dichloroisocyanurate formulation against nucleopolyhedroviruses of silkworm / Avaliação antiviral do formulado de sódio dicloroisocianurato contra o nucleopoliedrovírus do bicho-da-seda

This study evaluated the effectiveness of a disinfectant with low corrosive action and which is not toxic to the environment, the sodium dichloroisocyanurate formulation, on the Bombyx mori nucleopolyhedrovirus (BmNPV). For this, 5th-instar B. mori silkworm larvae were divided into four experimental groups of 4 replicates with 15 larvae each, totalling 60 larvae per group. The groups were fed with mulberry (Morus sp.) leaf discs containing: BmNPV treated with the disinfectant, untreated BmNPV, only the disinfectant, and water (control). The results showed that the disinfectant does not inactivate the BmNPV and also exerts a negative effect on the insect"s resistance.

O estudo avaliou a eficiência de um desinfetante que apresenta baixa ação corrosiva e que não é tóxico ao meio ambiente, o formulado de sódio dicloroisocianurato, sobre o nucleopoliedrovírus Bombyx mori (BmNPV). Para tanto, lagartas do bicho-da-seda, B. mori, de 5º instar foram divididas em quatro grupos experimentais, 4 repetições com 15 lagartas cada, totalizando 60 lagartas por grupo. Os grupos foram alimentados com discos foliares de amoreira (Morus sp.) contendo: o BmNPV tratado com o desinfetante (solução 1); o BmNPV não tratado (solução 2); apenas o desinfetante (solução 3); e água (solução 4, controle). Os resultados mostraram que o desinfetante não inativa o BmNPV e também exerce efeito negativo na resistência do inseto.

Evaluation of rats´ soleus muscle submitted to remobilization protocol with therapeutic ultrasound associated with static stretching

Despite the deleterious effects, immobilization, is still often used in the treatment of musculoskeletal disorders, even with the occurrence of muscular atrophy, its reversal is a major challenge to rehabilitation. The aim of this study was evaluate the tropism of rats soleus muscle submitted to remobilization with static stretching, preceded by ultrasound, thermal and non thermal. We used 28 rats divided into four groups: G1‑immobilized and remobilized with static stretching, G2-remobilized with stretching preceded by ultrasound 1.0 W.cm–²; G3 – ultrasound at 0.5 W.cm–² , G4 – ultrasound with 0.2 W.cm–². All animals were immobilized in plantarflexion, producing shortening of the right soleus muscle for 15 days. For the groups subjected to remobilization with ultrasound doses were used according to the group, for 3 minutes, for 10 days with an interval of 2 days after the 5th treatment. After treatment with ultrasound (or not for the G1), the animals were subjected to 3 sets of 30 seconds, with 30 seconds interval between them, of static stretching of the soleus. The soleus were dissected, weighed and processed for preparation of histological slides in cross section, and evaluated the smallest diameter of 100 fibers per muscle. There was significant reduction in weight between left and right muscles in all groups, for diameters G3 showed no difference. Conclusion: stretching with or without ultrasound, was unable to reverse the deleterious effects of immobilization on muscle weight, but in the mean dose there was protective effect on the diameter of the fibers.