531 research outputs found
QUANTIFYING LANDING IMPACTS DURING A LEG STRENGTH CIRCUIT IN MALE ARTISTIC GYMNASTS - A PILOT STUDY
Measuring landing impacts in gymnastics has previously been difficult and has rarely taken place in the daily training environment. The aim of this pilot research was to quantify the number and magnitude of landing impacts experienced by elite level male gymnasts when completing a leg strength circuit that they regularly perform in training. Acceleration data revealed gymnasts were being exposed to a high number of very high magnitude landing impacts (up to 9 landings/exercise and \u3e10 g) during the leg strength circuit. These results prompted the development of two alternate leg strength circuits, specifically developed for gymnasts recovering from injury, which do not include the high loading exercises. Tibial acceleration is a promising method for the measurement of landing impacts during gymnastics training
The emotional implications of a hypertrophic cardiomyopathy diagnosis in a retired athlete:an autoethnographic approach
The purpose of this study was to advance knowledge and understanding of the emotional implications retired athletes experienced when diagnosed with hypertrophic cardiomyopathy. The study employed an autoethnographic method to explore the consequences of living with this potentially life-threatening heart condition from a first-person narrative, using the account-making model of coping and loss as framework. The results illuminate the lived experience of someone diagnosed with hypertrophic cardiomyopathy and subsequent forced transition out of high-performance sport. The study provides practitioners with insight so that relevant and tailored interventions can be implemented to help retiring athletes who are diagnosed with hypertrophic cardiomyopathy cope with the career transition process. Notably, this paper also offers a full, complete autoethnography rather than extracts of autoethnographic writing typically provided in journal articles due to formatting restrictions. Thus, we showcase the valuable contribution this methodology has to offer scholars and practitioners
Use of âgay dating appsâ and its relationship with individual well-being and sense of community in men who have sex with men.
There is growing literature and empirical work that is investigating if and how mobile phone and tablet dating apps are influencing the lives of their users. An online questionnaire-based study was developed to investigate how men who have sex with men (MSM) use âgay dating appsâ (GDAs), and how such use may relate to different aspects of their lives on an individual and on a collective level. The study included data from 191 MSM living in the UK with varying levels of GDAs use and reasons for using them. Beyond some descriptive information on use of GDAs, the findings showed that, overall, high users of GDAs report a lower sense of community, higher levels of loneliness and lower levels of satisfaction with life. Still, there is some evidence that those MSM who use GDAs mainly for sexual encounters report higher levels of self-esteem and of satisfaction with life compared to those who use GDAs mainly for other reasons. It appears that such GDAs cater effectively for those looking for sexual partners, but may have negative implications for those who look for other types of relationships and interactions
Airborne particulate matter monitoring in Kenya using calibrated low-cost sensors [final revised article]
East African countries face an increasing threat from poor air quality stemming from rapid urbanization, population growth, and a steep rise in fuel use and motorization rates. With few air quality monitoring systems available, this study provides much needed high temporal resolution data to investigate the concentrations of particulate matter (PM) air pollution in Kenya. Calibrated low-cost optical particle counters (OPCs) were deployed in Kenya in three locations: two in the capital Nairobi and one in a rural location in the outskirts of Nanyuki, which is upwind of Nairobi. The two Nairobi sites consist of an urban background site and a roadside site. The instruments were composed of an AlphaSense OPC-N2 ran with a Raspberry Pi low-cost microcomputer, packaged in a weather-proof box. Measurements were conducted over a 2-month period (FebruaryâMarch 2017) with an intensive study period when all measurements were active at all sites lasting 2 weeks. When collocated, the three OPCN2 instruments demonstrated good inter-instrument precision with a coefficient of variance of 8.8 ± 2.0 % in the fine particle fraction (PM2.5). The low-cost sensors had an absolute PM mass concentration calibration using a collocated gravimetric measurement at the urban background site in Nairobi. The mean daily PM1 mass concentration measured at the urban roadside, urban background and rural background sites were 23.9, 16.1 and 8.8 ”g mâ3 , respectively. The mean daily PM2.5 mass concentration measured at the urban roadside, urban background and rural background sites were 36.6, 24.8 and 13.0 ”g mâ3, respectively. The mean daily PM10 mass concentration measured at the urban roadside, urban background and rural background sites were 93.7, 53.0 and 19.5 ”g mâ3, respectively. The urban measurements in Nairobi showed that PM concentrations regularly exceed WHO guidelines in both the PM10 and PM2.5 size ranges. Following a âLenschowâ-type approach we can estimate the urban and roadside increments that are applicable to Nairobi (Lenschow et al., 2001). The median urban increment is 33.1 ”g mâ3 and the median roadside increment is 43.3 ”g mâ3 for PM2.5. For PM1, the median urban increment is 4.7 ”g mâ3 and the median roadside increment is 12.6 ”g mâ3. These increments highlight the importance of both the urban and roadside increments to urban air pollution in Nairobi. A clear diurnal behaviour in PM mass concentration was observed at both urban sites, which peaks during the morning and evening Nairobi rush hours; this was consistent with the high roadside increment indicating that vehicular traffic is a dominant source of PM in the city, accounting for approximately 48.1 %, 47.5 % and 57.2 % of the total PM loading in the PM10, PM2.5 and PM1 size ranges, respectively. Collocated meteorological measurements at the urban sites were collected, allowing for an understanding of the location of major sources of particulate matter at the two sites. The potential problems of using low-cost sensors for PM measurement without gravimetric calibration available at all sites are discussed. This study shows that calibrated low-cost sensors can be successfully used to measure air pollution in cities like Nairobi. It demonstrates that low-cost sensors could be used to create an affordable and reliable network to monitor air quality in cities
Airborne particulate matter monitoring in Kenya using calibrated low cost sensors [discussion paper]
East African countries face an increasing threat from poor air quality, stemming from rapid urbanisation, population growth and a steep rise in fuel use and motorization rates. With few air quality monitoring systems available, this study provides the much needed high temporal resolution data to investigate the concentrations of particulate matter (PM) air pollution in Kenya. Calibrated low cost optical particle counters (OPCs) were deployed in Kenya in three locations: two in the capital of Nairobi and one in a rural location in the outskirts of Nanyuki, which is upwind of Nairobi. The two Nairobi sites consist of an urban background site and a roadside site. The instruments were composed of an Alphasense OPC-N2 optical particle counter (OPC) ran with a raspberry pi low cost microcomputer, packaged in a weather proof box. Measurements were conducted over a two-month period (FebruaryâMarch 2017) with an intensive study period when all measurements were active at all sites lasting two weeks. When collocated, the three OPC-N2 instruments demonstrated good inter-instrument precision with a coefficient of variance of 8.8±2.0% in the PM2.5 fraction. The low cost sensors had an absolute PM mass concentration calibration using a collocated gravimetric measurement at the urban background site in Nairobi. The mean daily PM1 mass concentration measured at the urban roadside, urban background and rural background sites were 23.9, 16.1, 8.8”gmâ3. The mean daily PM2.5 mass concentration measured at the urban roadside, urban background and rural background sites were 36.6, 24.8, 13.0”gmâ3. The mean daily PM10 mass concentration measured at the urban roadside, urban background and rural background sites were 93.7, 53.0, 19.5”gmâ3. The urban measurements in Nairobi showed that particulate matter concentrations regularly exceed WHO guidelines in both the PM10 and PM2.5 size ranges. Following a Lenschow type approach we can estimate the urban and roadside increments that are applicable to Nairobi. Median urban and roadside increments are 33.1 and 43.3”gmâ3 for PM10, respectively, the median urban and roadside increments are 7.1 and 18.3”gmâ3 for PM2.5, respectively, and the median urban and roadside increments are 4.7 and 12.6”gmâ3 for PM1, respectively. These increments highlight the importance of both the urban and roadside increments to urban air pollution in Nairobi. A clear diurnal behaviour in PM mass concentration was observed at both urban sites, which peaks during the morning and evening Nairobi rush hours; this was consistent with the high measured roadside increment indicating vehicular traffic being a dominant source of particulate matter in the city, accounting for approximately 48.1, 47.5, and 57.2% of the total particulate matter loading in the PM10, PM2.5 and PM1 size ranges, respectively. Collocated meteorological measurements at the urban sites were collected, allowing for an understanding of the location of major sources of particulate matter at the two sites. The potential problems of using low cost sensors for PM measurement without gravimetric calibration available at all sites are discussed. This study shows that calibrated low cost sensors can be used successfully to measure air pollution in cities like Nairobi. It demonstrates that low cost sensors could be used to create an affordable and reliable network to monitor air quality in cities
Breast Cancer Risk Assessment and Primary Prevention Advice in Primary Care: A Systematic Review of Provider Attitudes and Routine Behaviours
Implementing risk-stratified breast cancer screening is being considered internationally. It has been suggested that primary care will need to take a role in delivering this service, including risk assessment and provision of primary prevention advice. This systematic review aimed to assess the acceptability of these tasks to primary care providers. Five databases were searched up to JulyâAugust 2020, yielding 29 eligible studies, of which 27 were narratively synthesised. The review was pre-registered (PROSPERO: CRD42020197676). Primary care providers report frequently collecting breast cancer family history information, but rarely using quantitative tools integrating additional risk factors. Primary care providers reported high levels of discomfort and low confidence with respect to risk-reducing medications although very few reported doubts about the evidence base underpinning their use. Insufficient education/training and perceived discomfort conducting both tasks were notable barriers. Primary care providers are more likely to accept an increased role in breast cancer risk assessment than advising on risk-reducing medications. To realise the benefits of risk-based screening and prevention at a population level, primary care will need to proactively assess breast cancer risk and advise on risk-reducing medications. To facilitate this, adaptations to infrastructure such as integrated tools are necessary in addition to provision of education
Field application of silicon alleviates drought stress and improves water use efficiency in wheat
Detrimental impacts of drought on crop yield have tripled in the last 50 years with climate models predicting that the frequency of such droughts will intensify in the future. Silicon (Si) accumulation, especially in Poaceae crops such as wheat (Triticum aestivum L.), may alleviate the adverse impacts of drought. We have very limited information, however, about whether Si supplementation could alleviate the impacts of drought under field conditions and no studies have specifically manipulated rainfall. Using fieldâbased rain exclusion shelters, we determined whether Si supplementation (equivalent to 39, 78 and 117 kg ha-1) affected T. aestivum growth, elemental chemistry [Si, carbon (C) and nitrogen (N)], physiology (rates of photosynthesis, transpiration, stomatal conductance, and water use efficiency) and yield (grain production) under ambient and drought (50% of ambient) rainfall scenarios. Averaged across Si treatments, drought reduced shoot mass by 21% and grain production by 18%. Si supplementation increased shoot mass by up to 43% and 73% in ambient and drought water treatments, respectively, and restored grain production in droughted plants to levels comparable with plants supplied with ambient rainfall. Si supplementation increased leaf-level water use efficiency by 32â74%, depending on Si supplementation rates. Water supply and Si supplementation did not alter concentrations of C and N, but Si supplementation increased shoot C content by 39% and 83% under ambient and drought conditions, respectively. This equates to an increase from 6.4 to 8.9 tonnes C ha-1 and from 4.03 to 7.35 tonnes C ha-1 under ambient and drought conditions, respectively. We conclude that Si supplementation ameliorated the negative impacts of drought on T. aestivum growth and grain yield, potentially through its beneficial impacts on water use efficiency. Moreover, the beneficial impacts of Si on plant growth and C storage may render Si supplementation a useful tool for both drought mitigation and C sequestration
The Motivation for Active Travel to School Survey (MATSS): Instrument development and initial validity evidence
Abstract presented at Be Active 2014, 15-18 October 2014, Canberra, Australi
Responding to Generative AI Technologies with Research-through-Design: The Ryelands AI Lab as an Exploratory Study
Generative AI technologies demand new practical and critical competencies,
which call on design to respond to and foster these. We present an exploratory
study guided by Research-through-Design, in which we partnered with a primary
school to develop a constructionist curriculum centered on students interacting
with a generative AI technology. We provide a detailed account of the design of
and outputs from the curriculum and learning materials, finding centrally that
the reflexive and prolonged `hands-on' approach led to a co-development of
students' practical and critical competencies. From the study, we contribute
guidance for designing constructionist approaches to generative AI technology
education; further arguing to do so with `critical responsivity.' We then
discuss how HCI researchers may leverage constructionist strategies in
designing interactions with generative AI technologies; and suggest that
Research-through-Design can play an important role as a `rapid response
methodology' capable of reacting to fast-evolving, disruptive technologies such
as generative AI.Comment: Conditionally Accepted at ACM DIS 202
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