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The main applied outcomes of this body of research have been: (i) the objective quantification of individual player demands during competitive match play to better understand the typical internal and external loads imposed on rugby players; (ii) identification of fatigue characteristics and pacing strategies of interchange and whole-game players to inform training practices and tactical strategies; (iii) the design of appropriate training practices to ensure players are conditioned to tolerate the most demanding passages of play during competitive matches; and, (iv) the development of match simulation protocols for the objective evaluation of player performance.
The Football Association (FA) now incorporates player-centred evaluations of international tournaments into its policy as a result of longitudinal research at Loughborough University aimed at raising the profile and application of psychological principles in youth football. In addition, FA coaching award courses and coach development courses have integrated a specific focus on core psychological factors (known as the 5C's), and these have been promoted by the FA to their 14,900 licensed coaches and 20,587 Twitter followers worldwide. These principles have also been adopted and embedded within English professional club academy programmes. Further to this, research conducted within coaching behaviour has resulted in the development and marketing of coach behaviour analysis software that has been sold to professional youth academies and is integral to coach development initiatives.
This University of Manchester research underpins UK industry's global position in millimetre- wave imaging and ultra-high-precision sensing. These are key technologies in a range of industrial, medical and consumer electronics applications. The devices and methods developed by the research team are now used by a range of companies leading to economic impacts for the UK in strong export markets. In this case study we provide examples of impacts that support commercial sales in excess of £300m by UK SME and FTSE-listed companies in three sectors: automotive radar (e2v), terahertz imaging (TeraView), and linear encoders (Renishaw PLC).
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.
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:
Research into a number of different aspects of rubber has fed into a series of extremely successful collaborations between Queen Mary and a large number of industrial partners. This has led to significant economic impacts, ranging from enhancing the performance of teams in the multi-billion dollar sport of Formula 1 Racing, to helping develop new UK designed and manufactured radial tyres for large civil aircraft. Rubber research has been undertaken continuously at QMUL for over five decades. Prof. James Busfield has led the activity since 1994, working with more than 30 major industrial collaborators, including Bridgestone, Dunlop, Red Bull Racing F1 and TARRC, who have applied our research and employed our researchers to achieve commercial and competitive advantage.
Quality of life for people with rheumatoid arthritis (RA) has improved, responding to their stated major priority for help with fatigue. Their self-management of fatigue has improved using our cognitive-behavioural therapy intervention. Over 30,000 patients and healthcare professionals a year request our resulting self-management booklet, distributed via Arthritis Research UK.
This group's research spearheaded a new international patient/professional consensus that fatigue must be measured in all clinical trials. Along with the Bristol RA Fatigue scales, which we developed (translated into 35 languages) this has helped to place fatigue at the centre of drug development by changing the way the pharmaceutical industry performs multi-national drug trials.
Nursing management has now improved demonstrably. Fatigue evaluation and intervention have now been recommended in national guidelines.
The body of research relating to perception and interpretation of medical images has generated a range of impacts on the practice and training of radiologists and reporting radiographers, with resultant benefits for patients. Engagement with the research findings has raised awareness in clinical practitioners of the implicit strategies they use during medical image interpretation and in particular the type and frequency of errors, including the prevalence of decision-making mistakes over issues of pathology perception. Practitioners have benefited through considering their individual strategies, leading to enhanced decision making processes and reducing error rates in interpretation of 2D and 3D images.
The impact has been achieved through engagement with the sector through relevant professional bodies, practitioner orientated publications and direct involvement of the research team in training and development activities for practitioners.
The impact of the research on practitioner diagnostic strategies is applicable across all areas of radiology and diagnostic radiography, but is also being explicitly pursued to determine training methods and assessment when radiologists view 3D Computed Tomography Colonography data for bowel cancer.
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.