A acupunctura como forma de controlo da ansiedade na performance e de resolução de patologias músculo-esqueléticas em músicos

As patologias músculo-esqueléticas apresentam um interesse particular nos tempos atuais, visto terem origem em atividades viciosas, nos movimentos repetitivos, no sedentarismo e na hipertonia muscular relacionada com o stresse no contexto profissional ou pessoal, que é tão comum nos músicos. Por outro lado, a performance musical requer alto nível de habilidade em diversos parâmetros, como coordenação motora, atenção e memória o que a torna numa atividade particularmente suscetível não só às patologias músculo-esqueléticas como também à ansiedade. É aqui que se introduz a acupunctura. É cada vez mais recorrente a procura das terapias complementares e/ou alternativas por parte dos músicos, em contraposição aos métodos utilizados pela medicina convencional. Dos diversos métodos da Medicina Tradicional Chinesa, a acupunctura, encontra-se, talvez entre o mais procurado. A acupunctura pode ser definida como um técnica terapêutica que tem como método predominante a introdução de agulhas na periferia do corpo humano. O efeito das agulhas será o de provocar alterações no sistema energético do paciente que resultarão em mudanças benéficas que ocorrem a nível físico. O que me traz à discussão do tema, para além da problemática das patologias músculo-esqueléticas nos músicos é o crescente número de músicos com problemas de ansiedade e a contribuição desta medicina como alternativa de tratamento.

Efeito da ligadura de reposicionamento do perónio em basquetebolistas adultos com instabilidade crónica da tibiotársica

Introdução: A instabilidade crónica da tibiotársica apresenta uma elevada incidência e prevalência nos basquetebolistas, pelo que é fundamental aprofundar as estratégias existentes para a redução das limitações funcionais e mecânicas decorrentes desta condição. Objetivo: comparar o efeito da ligadura de reposicionamento do perónio segundo Mulligan com o de uma ligadura placebo imediatamente após a sua aplicação e após o teste de corrida (Yo-Yo IRT). Metodologia: Estudo cruzado de amostras emparelhadas. Participantes: 16 basquetebolistas adultos (10 homens, 6 mulheres) com instabilidade crónica da tibiotársica com idade média de 21,50 ± 2,76 anos. Procedimentos de avaliação e intervenção: Avaliação do controlo postural estático (teste de apoio unipodal com os olhos fechados numa plataforma de forças durante 15 segundos), performance funcional (hop test em 8 e hop test lateral) e controlo neuromuscular (tempo de latência do músculo longo peronial durante o movimento de inversão repentina) em duas sessões: Mulligan e Placebo. Resultados: Em ambos Hop tests não houve um efeito significativo para o fator ligadura (p>0,17) mas houve para o fator tempo (p<0,03). No tempo de latência do músculo longo peronial, houve um efeito significativo para o fator tempo (p=0,042) e interação significativa entre os dois fatores (p=0,028). Em relação ao controlo postural, nas variáveis de deslocamento do CoP em x e y, área de deslocamento do CoP, velocidade de deslocamento do CoP, e comprimento total do CoP não houve nenhum efeito significativo (p≥0,10). Conclusão: Não há diferenças no controlo postural estático nem na performance funcional de basquetebolistas com instabilidade crónica da tibiotársica entre a ligadura de reposicionamento do perónio de Mulligan e uma ligadura placebo. Contudo, a ligadura de Mulligan parece reduzir o tempo de latência do longo peronial após a corrida quando comparada com uma ligadura placebo.

Comparação da estabilidade postural entre jogadores de futsal com e sem história de entorse da tibiotársica

Introdução: A entorse da tibiotársica pode causar insuficiências no complexo articular do tornozelo, contudo o impacto de uma entorse prévia na estabilidade postural ainda é controverso. Objetivo: Comparar a estabilidade postural entre jogadores de futsal com e sem história de entorse da tibiotársica. Métodos: Foram recrutadas aleatoriamente 7 equipas seniores, amadoras, de futsal da região centro, Portugal, que participavam no campeonato distrital de Aveiro ou Coimbra na época 2013/14. Dos 83 jogadores que aceitaram participar no estudo, 12 tinham critérios para serem incluídos no grupo com entorse (GCE). Dos restantes, foram selecionados aleatoriamente 12 atletas para o grupo sem história de entorse (GSE). A estabilidade postural foi avaliada com os participantes em apoio unipodal, durante 30s, com os olhos abertos, usando uma plataforma de forças. Resultados: Não se observaram diferenças entre os grupos na idade (GSE, 25,8 ± 3,1 vs. GCE, 27,1 ± 4,3 anos, p>0,05), peso e altura. Relativamente à estabilidade postural apenas se observaram diferenças significavas entre grupos no deslocamento antero-posterior, sendo que o GCE apresentou um deslocamento superior ao GSE (4,72 ± 1,41 vs. 3,54 ± 0,23 cm, p<0,05). Não se registaram diferenças significativas no deslocamento medio-lateral, comprimento total, velocidade do deslocamento e área do centro de pressão. Conclusão: Neste estudo, os jogadores de futsal com história de entorse da tibiotársica apresentaram menor estabilidade postural, que se manifestou num maior deslocamento antero-posterior do centro de pressão.

Neuromuscular adaptations in football athletes with prior history of hamstring strain injury

Background: Hamstring strain injuries (HSI) are one of the most common injuries in a wide variety of running-sports, resulting in a considerable loss of competition and training time. One of the most problematic consequences regarding HSI is the recurrence rate and its non-decrease over the past decades, despite increasing evidence. Recent studies also found several maladaptations post-HSI probably due to neuromuscular inhibition and it has been proposed that these adaptations post-injury may contribute as risk factors for the injury-reinjury cycle and high recurrence rates. Furthermore it has been recently proposed not to disregard the inter-relationship between these adaptations and risk-factors post-injury in order to better understand the mechanisms of this complex injury. Objective: To determine, analyze and correlate neuromuscular adaptations in amateur football players with prior history of HSI per comparison to uninjured athletes in similar conditions. Methodology: Every participant was subjected to isokinetic concentric (60 and 240deg.sec) and eccentric (30 and 120deg.sec¯¹) testing, and peak torque, angle of peak torque and hamstrings to quadriceps (H:Q) conventional ratios were measured, myoelectrical activity of Bicep Femoris (BF) and Medial Hamstrings (MH) were also measured during isokinetic eccentric testing at both velocities and muscle activation percentages were calculated at 30, 50 and 100ms after onset of contraction. Furthermore active and passive knee extension, knee joint position sense (JPS) test, triple-hop distance (THD) test and core stability (flexors and extensors endurance, right and left side bridge test) were used and correlated. Results: Seventeen players have participated in this study: 10 athletes with prior history of HSI, composing the Hamstring injury group (HG) and 7 athletes without prior severe injuries as control group (CG). We found statistical significant differences between HG injured and uninjured sides in the BF myoelectrical activity at almost all times in both velocities and between HG injured and CG non-dominant sides at 100ms in eccentric 120deg.sec¯¹ velocity (p<.05). We found no differences in MH activity. Regarding proprioception we found differences between the HG injured and uninjured sides (p=.027). We found no differences in the rest of used tests. However, significant correlation between myoelectrical activation at 100ms in 120deg.sec¯¹ testing and JPS with initial position at 90º (r-.372; p=0.031) was found, as well as between isokinetic H:Q ratio at 240deg.sec and THD score (r=-.345; p=.045). Conclusion: We found significant differences that support previous research regarding neuromuscular adaptations and BF inhibition post-HSI. Moreover, to our knowledge, this was the first study that found correlation between these adaptations, and may open a door to new perspectives and future studies.

Protemic characterization of peripheral blood mononuclear cells

Peripheral blood mononuclear cells (PBMCs) play quite diverse and important roles in monitoring immune homeostasis. Thus, these subset of blood cells may provide access to potential physiological relevant biomolecules, namely proteins. For this reason, PBMCs represent a promising biological sample in scientific research, particularly as a source of potential biological markers discovery of the most diverse diseases. Prior studies of proteomic characterization of PBMCs from healthy individuals lack either the identification of a large number of proteins or its quantification in a way that is compatible with the search of potential biomarker candidates. Therefore, this study aimed to provide a comprehensive PBMCs proteome characterisation as well as to create a SWATH library. It was also evaluated if by using the BD Vacutainer® CPT™ tubes for PBMCs isolation, it would be possible to identify a larger number of immunologically relevant proteins in comparison to plasma samples. The enrichment test assay revealed that it is possible to identify more immune-related proteins from isolated PBMCs than from plasma. Moreover, the majority of the quantified proteins with an “immune system” GO term assigned is present in higher amounts in PBMCs samples. 2D LC-MS/MS proved to be the best approach to use in qualitative analysis of PBMCs and in the construction of a SWATH library, since it resulted in an increase of both identified and quantified proteins (66.3% and 16.9%, respectively) in comparison to 1D LC-MS/MS. A total of 2071 proteins were identified and it was possible to quantify 922 different proteins among six distinct samples. From these proteins, 445 were commom between all individuals. In conclusion, this work provides a comprehensive PBMCs proteome dataset that will be useful in further studies that focus on the search for potential biological markers of various pathologies in these cells. Additionally, SWATH-MS proved to be a reproducible and effective acquisition method to quantify PBMCs proteins.

New tools for cognitive and motor rehabilitation: development and clinical validation

Nervous system disorders are associated with cognitive and motor deficits, and are responsible for the highest disability rates and global burden of disease. Their recovery paths are vulnerable and dependent on the effective combination of plastic brain tissue properties, with complex, lengthy and expensive neurorehabilitation programs. This work explores two lines of research, envisioning sustainable solutions to improve treatment of cognitive and motor deficits. Both projects were developed in parallel and shared a new sensible approach, where low-cost technologies were integrated with common clinical operative procedures. The aim was to achieve more intensive treatments under specialized monitoring, improve clinical decision-making and increase access to healthcare. The first project (articles I – III) concerned the development and evaluation of a web-based cognitive training platform (COGWEB), suitable for intensive use, either at home or at institutions, and across a wide spectrum of ages and diseases that impair cognitive functioning. It was tested for usability in a memory clinic setting and implemented in a collaborative network, comprising 41 centers and 60 professionals. An adherence and intensity study revealed a compliance of 82.8% at six months and an average of six hours/week of continued online cognitive training activities. The second project (articles IV – VI) was designed to create and validate an intelligent rehabilitation device to administer proprioceptive stimuli on the hemiparetic side of stroke patients while performing ambulatory movement characterization (SWORD). Targeted vibratory stimulation was found to be well tolerated and an automatic motor characterization system retrieved results comparable to the first items of the Wolf Motor Function Test. The global system was tested in a randomized placebo controlled trial to assess its impact on a common motor rehabilitation task in a relevant clinical environment (early post-stroke). The number of correct movements on a hand-to-mouth task was increased by an average of 7.2/minute while the probability to perform an error decreased from 1:3 to 1:9. Neurorehabilitation and neuroplasticity are shifting to more neuroscience driven approaches. Simultaneously, their final utility for patients and society is largely dependent on the development of more effective technologies that facilitate the dissemination of knowledge produced during the process. The results attained through this work represent a step forward in that direction. Their impact on the quality of rehabilitation services and public health is discussed according to clinical, technological and organizational perspectives. Such a process of thinking and oriented speculation has led to the debate of subsequent hypotheses, already being explored in novel research paths.