3,451 research outputs found
Extracellular vesicles can be processed by electrospinning without loss of structure or function
Extracellular vesicles (EVs) are cell-derived bodies proven to have a wide range of therapeutic applications. To date, EVs have almost always been administered by direct injection, which is very likely to hinder their efficacy because of rapid clearance from the injection site. Here we show that EVs can be successfully processed into polymer-based fibres by electrospinning, with no loss of structure or function
Musically Informed Sonification for Chronic Pain Rehabilitation: Facilitating Progress & Avoiding Over-doing
In self-directed chronic pain physical rehabilitation it is important
that the individual can progress as physical capabilities
and confidence grow. However, people with chronic
pain often struggle to pass what they have identified as safe
boundaries. At the same time, over-activity due to the desire
to progress fast or function more normally, may lead to setbacks.
We investigate how musically-informed movement
sonification can be used as an implicit mechanism to both
avoid overdoing and facilitate progress during stretching
exercises. We sonify an end target-point in a stretch exercise,
using a stable sound (i.e., where the sonification is musically
resolved) to encourage movements ending and an
unstable sound (i.e., musically unresolved) to encourage
continuation. Results on healthy participants show that instability
leads to progression further beyond the target-point
while stability leads to a smoother stop beyond this point.
We conclude discussing how these findings should generalize
to the CP population
Chemical variation in a dominant tree species: population divergence, selection and genetic stability across environments
Understanding among and within population genetic variation of ecologically important plant traits provides insight into the potential evolutionary processes affecting those traits. The strength and consistency of selection driving variability in traits would be affected by plasticity in differences among genotypes across environments (G×E). We investigated population divergence, selection and environmental plasticity of foliar plant secondary metabolites (PSMs) in a dominant tree species, Eucalyptus globulus. Using two common garden trials we examined variation in PSMs at multiple genetic scales; among 12 populations covering the full geographic range of the species and among up to 60 families within populations. Significant genetic variation in the expression of many PSMs resides both among and within populations of E. globulus with moderate (e.g., sideroxylonal A h2op = 0.24) to high (e.g., macrocarpal G h2op = 0.48) narrow sense heritabilities and high coefficients of additive genetic variation estimated for some compounds. A comparison of Qst and Fst estimates suggest that variability in some of these traits may be due to selection. Importantly, there was no genetic by environment interaction in the expression of any of the quantitative chemical traits despite often significant site effects. These results provide evidence that natural selection has contributed to population divergence in PSMs in E. globulus, and identifies the formylated phloroglucinol compounds (particularly sideroxylonal) and a dominant oil, 1,8-cineole, as candidates for traits whose genetic architecture has been shaped by divergent selection. Additionally, as the genetic differences in these PSMs that influence community phenotypes is stable across environments, the role of plant genotype in structuring communities is strengthened and these genotypic differences may be relatively stable under global environmental changes
Musically Informed Sonification for Self-Directed Chronic Pain Physical Rehabilitation
Chronic pain is pain that persists past the expected time of healing. Unlike acute pain, chronic pain is often no longer a sign of damage and may never disappear. Remaining physically active is very important for people with chronic pain, but in the presence of such persistent pain it can be hard to maintain a good level of physical activity due to factors such as fear of pain or re-injury. This paper introduces a sonification methodology which makes use of characteristics and structural elements of Western tonal music to highlight and mark aspects of movement and breathing that are important to build confidence in peoples body capability in a way that is easy to attend to and devoid of pain. The design framework and initial conceptual design that uses musical elements such as melody, harmony, texture and rhythm for improving the efficiency of the sonification used to support physical activity for people with chronic pain is here presented and discussed. In particular, we discuss how such structured sonification can be used to facilitate movement and breathing during physical rehabilitation exercises that tend to cause anxiety in people with chronic pain. Experiments are currently being undertaken to investigate the use of these musical elements in sonification for chronic pain
Physical activity and education about physical activity for chronic musculoskeletal pain in children and adolescents
This is a protocol for a Cochrane Review (Intervention). The objectives are as follows:. To evaluate the effectiveness of physical activity or education about physical activity, or both, compared to active medical care, waiting list, or usual care in children and adolescents with chronic musculoskeletal pain.National Institute for Health Research (NIHR), via Cochrane Infrastructure funding to the Cochrane Pain, Palliative and Supportive Care Review Group (PaPaS)
Use of standardized body composition measurements and malnutrition screening tools to detect malnutrition risk and predict clinical outcomes in children with chronic conditions
Background:
Better tools are needed to diagnose and identify children at risk of clinical malnutrition. /
Objectives:
We aimed to compare body composition (BC) and malnutrition screening tools (MSTs) for detecting malnutrition on admission; and examine their ability to predict adverse clinical outcomes [increased length of stay (LOS) and complications] in complex pediatric patients. /
Methods:
This was a prospective study in children 5–18 y old admitted to a tertiary pediatric hospital (n = 152). MSTs [Pediatric Yorkhill Malnutrition Score (PYMS), Screening Tool for the Assessment of Malnutrition in Pediatrics (STAMP), and Screening Tool for Risk of Impaired Nutritional Status and Growth (STRONGkids)] were completed on admission. Weight, height, and BC [fat mass (FM) and lean mass (LM) by DXA] were measured (n = 118). Anthropometry/BC and MSTs were compared with each other and with clinical outcomes. /
Results:
Subjects were significantly shorter with low LM compared to reference data. Depending on the diagnostic criteria used, 3%–17% were classified as malnourished. Agreement between BC/anthropometric parameters and MSTs was poor. STAMP and STRONGkids identified children with low weight, LM, and height. PYMS, and to a lesser degree STRONGkids, identified children with increased LOS, as did LM compared with weight or height. Patients with complications had lower mean ± SD LM SD scores (−1.38 ± 1.03 compared with −0.74 ± 1.40, P < 0.05). In multivariable models, PYMS high risk and low LM were independent predictors of increased LOS (OR: 3.76; 95% CI: 1.36, 10.35 and OR: 3.69; 95% CI: 1.24, 10.98, respectively). BMI did not predict increased LOS or complications. /
Conclusions:
LM appears better than weight and height for predicting adverse clinical outcomes in this population. BMI was a poor diagnostic parameter. MSTs performed differently in associations to BC/anthropometry and clinical outcomes. PYMS and LM provided complementary information regarding LOS. Studies on specific patient populations may further clarify the use of these tools and measurements
Recommendations for exercise adherence measures in musculoskeletal settings : a systematic review and consensus meeting (protocol)
Background: Exercise programmes are frequently advocated for the management of musculoskeletal disorders; however, adherence is an important pre-requisite for their success. The assessment of exercise adherence requires the use of relevant and appropriate measures, but guidance for appropriate assessment does not exist. This research will identify and evaluate the quality and acceptability of all measures used to assess exercise adherence within a musculoskeletal setting, seeking to reach consensus for the most relevant and appropriate measures for application in research and/or clinical practice settings.
Methods/design: There are two key stages to the proposed research. First, a systematic review of the quality and acceptability of measures used to assess exercise adherence in musculoskeletal disorders; second, a consensus meeting. The systematic review will be conducted in two phases and reported in accordance with the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) guidelines to ensure a robust methodology. Phase one will identify all measures that have been used to assess exercise adherence in a musculoskeletal setting. Phase two will seek to identify published and unpublished evidence of the measurement and practical properties of identified measures. Study quality will be assessed against the COnsensus-based Standards for the selection of health Measurement Instruments (COSMIN) guidelines. A shortlist of best quality measures will be produced for consideration during stage two: a meeting of relevant stakeholders in the United Kingdom during which consensus on the most relevant and appropriate measures of exercise adherence for application in research and/or clinical practice settings will be sought.
Discussion: This study will benefit clinicians who seek to evaluate patients’ levels of exercise adherence and those intending to undertake research, service evaluation, or audit relating to exercise adherence in the musculoskeletal field. The findings will impact upon new research studies which aim to understand the factors that predict adherence with exercise and which test different adherence-enhancing interventions. PROSPERO reference: CRD4201300621
The rest-frame ultraviolet spectra of GRBs from massive rapidly-rotating stellar progenitors
The properties of a massive star prior to its final explosion are imprinted
in the circumstellar medium (CSM) created by its wind and termination shock. We
perform a detailed, comprehensive calculation of the time-variable and
angle-dependent transmission spectra of an average-luminosity Gamma-Ray Burst
(GRB) which explodes in the CSM structure produced by the collapse of a 20
Msun, rapidly rotating, Z=0.001 progenitor star. We study both the case in
which metals are initially in the gaseous phase, as well as the situation in
which they are heavily depleted into dust. We find that high-velocity lines
from low-ionization states of silicon, carbon, and iron are initially present
in the spectrum only if the metals are heavily depleted into dust prior to the
GRB explosion. However, such lines disappear on timescales of a fraction of a
second for a burst observed on-axis, and of a few seconds for a burst seen at
high-latitude, making their observation virtually impossible. Rest-frame lines
produced in the termination shock are instead clearly visible in all
conditions. We conclude that time-resolved, early-time spectroscopy is not a
promising way in which the properties of the GRB progenitor wind can be
routinely studied. Previous detections of high velocity features in GRB UV
spectra must have been due either due to a superposition of a physically
unrelated absorber or to a progenitor star with very unusual properties.Comment: Published in MNRAS; higher resolution figures in published version
Cervelleite, Ag4TeS: solution and description of the crystal structure
Copyright: Springer-Verlag Wien 2015. This is the final, post refereeing version. You are advised to consult the publisher's version if you wish to cite from it, http://link.springer.com/article/10.1007%2Fs00710-015-0384-
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