Efeito da ligadura funcional na prevenção da recorrência da entorse do tornozelo numa equipa de basquetebol feminino

Introdução: O basquetebol é considerado um desporto de alto risco para a ocorrência de lesões, nomeadamente das entorses do tornozelo. Como a história de lesão anterior é um fator de risco para a ocorrência de entroses têm-se desenvolvido estratégias de prevenção para evitar as recidivas, um dos métodos possíveis é o recurso a ligaduras funcionais em “tape”. Objetivo: Neste trabalho vai-se verificar se as ligaduras funcionais em “tape” previnem a recorrência de entorse do tornozelo, numa equipa feminina de basquetebol sub-16. Métodos: A amostra é composta por 9 atletas de basquetebol sub-16 com história de entorse no tornozelo na época precedente, vão-se utilizar ligaduras funcionais no tornozelo. Resultados: A entorse teve 9 registos na época anterior. Não houve registo de qualquer lesão da tibiotársica nos treinos ou jogos, durante a aplicação das ligaduras. Conclusão: A utilização das ligaduras funcionais no grupo estudado, como método de prevenção foi eficaz, não se registando qualquer entorse no decorrer das atividades desportivas (treinos/jogos).

Simulation of the magnetic induction vector of a magnetic core to be used in FFC NMR relaxometry

This paper is a contribution for the assessment and comparison of magnet properties based on magnetic field characteristics particularly concerning the magnetic induction uniformity in the air gaps. For this aim, a solver was developed and implemented to determine the magnetic field of a magnetic core to be used in Fast Field Cycling (FFC) Nuclear Magnetic Resonance (NMR) relaxometry. The electromagnetic field computation is based on a 2D finite-element method (FEM) using both the scalar and the vector potential formulation. Results for the magnetic field lines and the magnetic induction vector in the air gap are presented. The target magnetic induction is 0.2 T, which is a typical requirement of the FFC NMR technique, which can be achieved with a magnetic core based on permanent magnets or coils. In addition, this application requires high magnetic induction uniformity. To achieve this goal, a solution including superconducting pieces is analyzed. Results are compared with a different FEM program.

Backside-surface imprinting as a new strategy to generate specific plastic antibody materials

A backside protein-surface imprinting process is presented herein as a novel way to generate specific synthetic antibody materials. The template is covalently bonded to a carboxylated-PVC supporting film previously cast on gold, let to interact with charged monomers and surrounded next by another thick polymer. This polymer is then covalently attached to a transducing element and the backside of this structure (supporting film plus template) is removed as a regular “tape”. The new sensing layer is exposed after the full template removal, showing a high density of re-binding positions, as evidenced by SEM. To ensure that the templates have been efficiently removed, this re-binding layer was cleaned further with a proteolytic enzyme and solution washout. The final material was named MAPS, as in the back-side reading of SPAM, because it acts as a back-side imprinting of this recent approach. It was able to generate, for the first time, a specific response to a complex biomolecule from a synthetic material. Non-imprinted materials (NIMs) were also produced as blank and were used as a control of the imprinting process. All chemical modifications were followed by electrochemical techniques. This was done on a supporting film and transducing element of both MAPS and NIM. Only the MAPS-based device responded to oxLDL and the sensing layer was insensitive to other serum proteins, such as myoglobin and haemoglobin. Linear behaviour between log(C, μg mL−1) versus charged tranfer resistance (RCT, Ω) was observed by electrochemical impedance spectroscopy (EIS). Calibrations made in Fetal Calf Serum (FCS) were linear from 2.5 to 12.5 μg mL−1 (RCT = 946.12 × log C + 1590.7) with an R-squared of 0.9966. Overall, these were promising results towards the design of materials acting close to the natural antibodies and applied to practical use of clinical interest.