Log in
As a consequence of research carried out at the University of Stirling, as set out in this case study, the following developments to athlete career transition support have been achieved
The Case Study focuses on the work of Ibrahim Akubat, an exercise physiologist lecturer who joined the department in 2010. Based on his research, Akubat has enabled a range of clubs to monitor accurately players' training loads and understand their footballers' training outcomes. Akubat's research shows the superiority of the new individualised training load monitoring method over existing methods of monitoring internal training load and exercise dose in intermittent sports. This has led to coaches from numerous professional clubs, including those from the English Premier League, attending workshops to seek guidance on modifying their approaches to training load monitoring.
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.
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.
Brugniaux's applied research on intermittent hypoxia training (IHT) has been instrumental in informing the International Olympic Committee's (IOC) decision to endorse its use as a legal means of improving elite sports performance. From a clinical perspective, Brugniaux has developed a novel model of intermittent hypoxia that simulates the cycles of stop-start breathing observed in patients suffering from obstructive sleep apnoea (OSA) in whom vascular dysfunction and premature cardiovascular mortality occurs. Collectively, this research has improved our understanding of the mechanisms that underpin elite performance and provided unique insight into the link between breathing instability and pathophysiology of vascular disease.
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.
The impact of this research has been to improve the performance of elite athletes and safeguard the well-being of Paralympians. It has affected the management of athletes' dynamic physiological responses and advanced the regulatory frameworks of sporting bodies. This has changed the strategies of the USA Olympic Committee, the International Paralympic Committee and the British Paralympic Association. The indirect impact of this primary research has been to change the routine training practices of recreational athletes and influence the advice on exercise given to military personnel and people with disabilities.
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 undertaken by Hughson has impacted on the decision-making of two museums, principally the National Football Museum (NFM) in England and the National Sports Museum (NSM) in Australia. In the NFM, research has informed the acquisition and display of items for the permanent collection and temporary exhibition, led to an appointment as historical advisor to the selection committee of the National Football Hall of Fame, and has also supported the NFM's successful bid for `Designation' status with the Arts Council. With regard to the NSM the research has informed the public education dimension of a major exhibition on Olympic posters.