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Editorial
Can off-field ‘brains’ provide a competitive advantage in professional football?
  1. Alan McCall1,2,
  2. Michael Davison3,
  3. Chris Carling4,
  4. Matthew Buckthorpe3,
  5. Aaron J Coutts5,
  6. Gregory Dupont2,6
  1. 1 Research & Development Department, Arsenal Football Club, London, UK
  2. 2 Research & Development Department, Edinburgh Napier University, Edinburgh, UK
  3. 3 Isokinetic Medical Group, FIFA Medical Centre of Excellence, London, UK
  4. 4 Institute of Coaching and Performance, UCLAN, Preston, UK
  5. 5 Faculty of Health, University of Technology Sydney (UTS), Moore Park, New South Wales, Australia
  6. 6 University Lille Nord de France, Ronchin, France
  1. Correspondence to Dr Alan McCall, Research & Development Department, Arsenal Football Club, Bell Ln, London Colney, Hertfordshire WD7 9AD, UK; amccall{at}arsenal.co.uk

https://doi.org/10.1136/bjsports-2015-095807

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    Introduction

    ‘Working-fast and working-slow’ in sport describes the concept that practice and research can be integrated to improve high-performance outcomes and enhance professional practice.1 ‘Working-fast’ is the task of the fast-thinking, intuitive practitioner operating on ‘the ground’ at a frenetic pace, interacting with coaches and athletes, and delivering the daily preparation programme. ‘Working-slow’ is key for the team's deliberate, focused researcher acting as the resident sceptic, operating behind the scenes on tasks that the ‘fast-practitioner’ may not have time and/or skills to undertake. Such hidden, but important, tasks include determining measurement noise/error in performance tests, establishing proof of concept for new ideas and ensuring validity of methods. Embedding research into the fast environment of high-performance football may provide a competitive advantage using ethical and evidence-based methods.1

    Football teams can learn from many of the world's largest technology companies,2 which embed research within their organisations to improve efficiency and enhance productivity. Such a strategy is coined ‘Research and Development’ (R&D), and defined as: ‘work directed toward the innovation, introduction and improvement of processes’.3 However, to the current authors' knowledge, R&D is not widely adopted in high-level football teams. We argue for professional football teams to embed R&D into their daily activity to improve their processes relating to reducing injury-risk and optimising performance.

    Innovation, introduction and improvement of processes using R&D

    In a fast-moving environment, practitioners combine data (eg, training load, recovery, screening) with their expert opinion to inform decisions on individual players. We suspect these data are often not interrogated to the level that a researcher might aim for.1 Nevertheless, practitioners are expected to be innovative, and often become early adopters of new technology and techniques to gain competitive advantage (eg, altitude training).1 In-house R&D can inform judgements and decisions taken in the fast-working environment. Remember that innovation is a sword with two-edges—it can also lead to impaired performance.

    Example 1—what do repeated player measurements really mean?

    High-performance practitioners undertake a multitude of measurements from their players (eg, injury-screening, recovery/monitoring). However, it is impossible to know if changes are meaningful without knowing what noise (typical variation) surrounds the signal (actual change in measurements).4 An R&D programme can apply statistical methods to determine what a real change is, for practitioners to act on.5

    Considering week-to-week variation (CV) and smallest worthwhile change (SWC), we can determine ‘real and meaningful’ changes.6 ,7 For example (table 1), player 1 demonstrates a high week-to-week variation in recovery of isometric hamstring flexion and therefore requires greater change to detect anything meaningful. Player 2, with low week-to-week CV, requires a smaller reduction to show real change (and, thus, is potentially at risk of injury). This concept applies to various monitoring, medical and performance measurement tools typically used in the professional football team setting.

    View this table:
    Table 1

    Separating the signal from the noise: a comparison of players with higher versus lower week-to-week variation for recovery of isometric hamstring flexion

    While such confidence in data is imperative, the information must be translated so that it influences practice (eg, does the injury-screening tool detect injury risk, does the change in recovery-marker relate to real changes in performance?). Such analyses require specialised knowledge in analysing large data sets, and are time-consuming and not within the natural scope of practice for ‘fast’ practitioners, clinicians, and strength and conditioning coaches.

    Example 2—is this technological aid valuable or simply voodoo?

    Teams are constantly faced with offers of new technologies and methods/procedures that claim to accelerate recovery, reduce injuries and enhance performance. A team’s ‘slow worker’ would investigate the legitimacy of such technologies. Using an adapted method originally created to prescribe medication,8 it is possible to assign graded-recommendations (figure 1) for new products or procedures in practice, based on scientific level and quality of evidence from research literature combined with expert opinion. This ensures that products or processes introduced are based on solid evidence1 and cost-effectiveness (which is not always at the forefront in professional football).

    Figure 1
    Figure 1

    Proposed method to establish level of evidence and provide an overall graded recommendation for the introduction of a new product or process (reprinted with permission from Harbour and Miller8) (reprinted with permission, BMJ).

    In the example given (table 2), consider whole-body cryotherapy (WBC) as a recovery strategy. According to the sources, quality of evidence, general consensus and considered judgment (practitioners and researcher), the graded-recommendation for WBC is D (insufficient evidence to recommend).

    View this table:
    Table 2

    Assigning a graded recommendation: consideration of whole-Body cryotherapy as a recovery modality using adapted evidence-based medical guidelines8

    The challenge: ensuring the slow-work impacts practice/performance

    Successful preparation and acting on player-related recommendations in professional football are highly dependent on ‘buy in’ from key-decisionmakers (coaches, players and CEOs). In a fast-moving environment, these key-decision makers are concerned with simple ‘yes/no’ answers (can the player train/play? will he/she suffer recurrent injury?), whereas the researcher is concerned with the ‘what, why and how’ of these issues. The ability to communicate relevant data with practical meaning is paramount. The R&D role should provide translation of data from complex analyses into clear messages to inform decision-making.

    In summary, an effective way to optimise decision-making of the fast-intuitive practitioner can be through embedding R&D within the team, ensuring an ethical, valid and financially prudent approach to the innovation, introduction and improvement of processes. Appropriate delivery of information to team management is essential.

    References

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    2. Fortune magazine. The top 10 biggest R&D spenders worldwide. http://fortune.com/2014/11/17/top-10-research-development/ (accessed 17 Nov 2015).
    3. Oxford Dictionary. Definition of ‘Research and Development’. http://www.oxforddictionaries.com/definition/english/research-and-development (accessed 28 Jan 2016).
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    Footnotes

    • Twitter Follow Christopher Carling at @carling_chris and Aaron Coutts at @aaronjcoutts

    • Competing interests None declared.

    • Provenance and peer review Not commissioned; externally peer reviewed.