Log in
This well established research conducted by members of Peter Harrison Centre for Disability Sport (Loughborough University) is seen as an integral part of the support provided for Paralympic wheelchair athletes and has impact in 3 key areas:
Our research led to the creation of Football4Peace (F4P), which is a vehicle for conflict resolution and peace building in divided societies. By challenging cultural prejudice F4P has transformed passive citizens into active ambassadors for peace. More than 8,000 children, 595 coaches and many community leaders have participated in F4P projects during the census period, generating political discourse in the community and in governments up to ministerial level. Innovative community relations research in the context of Northern Ireland's peace process led to the development of the F4P initiative. Subsequently it changed the policies of sporting organisations in Israel, Jordan, Palestine, Ireland, South Africa and South Korea.
Research conducted at Swansea University has helped transform the pre-competition strategies of elite sport. This research has focused mainly on the application of post-activation potentiation (PAP), manipulation of warm-up variables and morning priming for enhanced performance. This work has had significant impact on the recent successes of elite skeleton bobsleigh athletes at the 2010 Winter Olympics (e.g. ~4% improvement on their key performance indicator) and a number of other British sports during London 2012 (e.g. British Cycling who won 12 medals). The research continues to impact elite sports and is being embedded into athletes' pre-competition routines for Sochi 2014 and Rio 2016.
The impact of the research by Professor Gleeson on immune responses to exercise and predictors of infection risk in athletes has altered practice of sport science support personnel, coaches and athletes in several areas including: immunoendocrine monitoring procedures, training prescription and the use of nutritional interventions to reduce exercise stress responses and minimize risk of infection. In this way, the research conducted during 2008-2013 at Loughborough University has impacted internationally upon the ways in which sports scientists operate, and athletes and games players are prepared for competition.
This case study demonstrates how research at the University of Bath on athlete technique and performance in sprinting and hurdling events has been translated back to the end users in order to improve their performance. The primary pathway to impact is via Dr Salo's involvement in applied work with virtually all top British sprinters and hurdlers and their coaches over the last 5 years (including all those who have represented Britain in major Championships). As a consequence of his research since 1998, Dr Salo has helped specific athletes to win medals, brought new insights to coach education and practice, instigated changes to routine practices within UK Athletics and also translated his expertise to other Olympic sports.
The applied research generated has targeted practitioners and athletes at all levels, and by combining expertise and knowledge from different areas (primarily Biomechanics and Physiology), aimed to directly influence the way in which muscle function is assessed in competitive sports. The studies in the area of muscle conditioning and function has generated a body of work that has the potential to be useful to coaches both in competition as well as in training, but to date has not been fully realised. By examining how the muscle responds to certain stimuli, training suggestions have been provided that can acutely increase the performance of an athlete, for example conditioning stimuli prior to athletics performance (reference 4 in section 3). These suggestions can assist both in improving the competitive performance as well as in improving the quality of the content and experience of training sessions.
Further, evaluating a range of tests and assessment tools, such as by examining their validity and reliability, monitoring and assessment becomes much more accurate and sport-specific, enabling high-quality training (such as in reference 2, section 3). In addition, as these assessments allow testing to take place within the training and performance environment the performer is accustomed to (such as in reference 6, section 3), they also result in minimal disruption of the training programme, which cannot be achieved using traditional assessment techniques which require a visit to a laboratory for the assessment to take place.
The range of applicability of the research to support uptake of the recommendations and resultant training and performance benefits has been maximised by ensuring the suggestions and equipment used are low cost and easily accessible, enabling coaches and athletes from a wide range of performance levels to utilise them, such as functional tests (such as in reference 5, section 3). The work has highlighted that coaches and athletes need to reassess their approaches to measuring performance and specific measurement techniques used, and that doing so can improve training techniques and athletic performance.
The Birkbeck Sport Business Centre has been involved in research examining governance within the sport industry since 1999. Findings from research into the football industry have contributed to policy debate through parliamentary enquiries while research on the broader sports sector has been used by the Sport and Recreation Alliance to improve governance practices across national governing bodies of sport (NGBs). In particular, the research informed the development of the Voluntary Code of Good Governance for the Sport and Recreation Sector, a best practice guide that has been adopted by more than 60 National Governing Bodies of Sport in the UK.
Research at the University of Bath has had a significant impact on reducing the burden of injury and illness in military training and sport. We have engaged practitioner communities in evidence-based approaches to injury and illness prevention. Our research has contributed directly to reducing the burden of musculoskeletal injuries and heat illness by informing military personnel selection, training and healthcare policies. This affects approximately 20,000 military trainees per year and has resulted in reduced morbidity and estimated training/medical costs of over £60 million per annum. Our injury surveillance research has helped shape the Rugby Football Union's (RFU) medical safety policy and, based on our research, the International Rugby Board (governing 5 million players worldwide) announced in May 2013 a global trial of new scrum laws designed to reduce the incidence/severity of neck injuries.
Researchers at the University of Brighton (UoB) have developed innovative low-cost solutions to pressing global disease problems. In Haiti, rapid deployment of new wastewater technology averted further human crisis when the 2010 earthquake exposed water resources to hospital wastewaters contaminated by the cholera pathogen. In Malawi, the re-design and improved management of rural wells have provided low-income communities with safer drinking water. In Europe, new methods have identified human faecal contamination of rivers and established viral removal rates in a wastewater reuse system, enabling two water companies and two national environmental agencies to meet international standards and protect public health.
The University of Brighton's (UoB) research has reduced information misuse and decreased the threat of data and identity theft in Nokia Location and Commerce (L&C). Further impact has been to lower the risk of corporate liability and consumers' personal loss. UoB's innovative research in the creation of concept diagrams now underpins and provides rigour to Nokia L&C's privacy engineering processes. Consequently, they can now communicate complex information across diverse teams in an intuitive and accessible manner. Ultimately, the impact is on all customers and users of Nokia's L&C's services worldwide.