Clinical placements can impact on midwifery students' future careers. Universities need to prepare students for the possibility of workplace violence and arm them with appropriate strategies for safely dealing with it.
Delayed recovery from concussion can dramatically affect a child's social, emotional, and educational development, yet little is known about what causes some children to recover faster than others. The contribution of white matter disruption in children with delayed recovery has been hypothesized, but findings are limited by methodological issues such as: small heterogeneous samples, bias toward children with delayed recovery, and inconsistencies in timing of brain imaging, both within and between studies. The aim of the present study was to assess diffusion neuroimaging correlates of delayed recovery post-concussion in children. A prospective, longitudinal, observational cohort study was conducted at a statewide tertiary pediatric hospital. Forty-three children who presented to the emergency department (ED) with concussion (defined according to the Zurich/Berlin Consensus Statement on Concussion in Sport) underwent magnetic resonance imaging (MRI) at a 2 weeks post-injury and were classified as either normally recovering (n = 26) or delayed recovering (n = 17). Diffusion imaging comparison using voxelwise tract-based spatial statistics (TBSS) analysis found no difference between the groups in fractional anisotropy, axial diffusion, radial diffusion, or mean diffusivity metrics ( p > 0.05 threshold-free cluster enhancement [TFCE] corrected). Post-hoc tract-based Bayesian analysis found evidence for the null in 11 unique white matter tracts (Bayes factor >3). These findings indicate that delayed recovery from post-concussive symptoms in children is unlikely to be caused by white matter microstructural damage.
Prior investigations of vibrotactile displays suggest they have promise for use in the healthcare domain. This exploratory study forms part of a series exploring the use of an upper arm, continuously informing, vibrotactile display of pulse oximetry for clinicians. The study focused on the effect of vigilance on participants' accuracy and latency for detecting and identifying changes in vital sign levels. Twenty-one participants were tested in a within-subjects design in four blocks of approximately 18 minutes duration each. Two blocks were a low workload condition and the other two blocks a high workload condition. Data were analysed against thresholds of 90% for accuracy and 10 seconds for response latency and workload conditions were also compared for accuracy and latency. Participants' accuracy was not better than 90% and response latency was not shorter than 10 seconds, even in the low workload conditions. Participants were slower to detect changes in the high workload condition, and detection time worsened as the experiment progressed. Taken together, the results suggest that detecting rare events places a high strain on cognition and negatively affects performance. These findings have implications for the use of vibrotactile displays and will guide further investigations into the use of vibrotactile technology in healthcare.
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