Do Physical Activities Prevent the Occurrence of Bothersome Pain?

We examined the associations between physical activity (PA)-measured through self-reported walking and vigorous activities-and pain occurrence (self-reported bothersome pain or frequent pain medication use), and persistent pain (pain occurring for two consecutive years). This analysis used a large, nationally representative sample of 2279 older adults from the National Health and Aging Trends Study of 2015-2018, and applied generalized estimating equation regression with propensity score weighting. Approximately 70% and 50% of the participants reported walking and vigorous activities respectively at baseline.

Neuromuscular junction visualization in paraffin-embedded thyroarytenoid muscle sections: Expanding options beyond frozen section analysis.

Objectives: The current gold standard for immunofluorescent (IF) visualization of neuromuscular junctions (NMJs) in muscle utilizes frozen tissue sections with fluorescent conjugated antibodies to demarcate neurons and IF alpha-bungarotoxin (α-BTX) to demarcate motor endplates. Frozen tissue sectioning comes with inherent inescapable limitations, including cryosectioning artifact and limited sample shelf-life. However, a parallel approach to identify NMJs in paraffin-embedded tissue sections has not been previously described.

Building evidence-based interventions to improve staff well-being in paediatric critical care using the behaviour change wheel.

Background: Research has demonstrated that staff working in Paediatric Critical Care (PCC) experience high levels of burnout, post-traumatic stress and moral distress. There is very little evidence of how this problem could be addressed.

Aim: To develop evidence-based, psychologically informed interventions designed to improve PCC staff well-being that can be feasibility tested on a large scale.

The Yucatan Minipig: A Reliable Model for Studying Unilateral Vocal Fold Paralysis.

Objectives/hypothesis: Given the complex pathology underlying unilateral vocal fold paralysis (UVFP), there has been limited systematic exploration of curative treatments in humans. Central to the investigation of experimental therapies includes establishing a reliable and analogous large animal model. The study goal was to create a standardized porcine model of UVFP by establishing characteristic pathophysiology and functional outcomes.

Imaging of electric-field-induced domain structure in DyMnO nanocrystals.

Multiferroic materials that exhibit interacting and coexisting properties, like ferroelectricity and ferromagnetism, possess significant potential in the development of novel technologies that can be controlled through the application of external fields. They also exhibit varying regions of polarity, known as domains, with the interfaces that separate the domains referred to as domain walls. In this study, using three-dimensional (3D) bragg coherent diffractive imaging (BCDI), we investigate the dynamics of multiferroic domain walls in a single hexagonal dysprosium manganite (h-DyMnO ) nanocrystal under varying applied electric field.