Perception of Cold Water Immersion among Elite Athlete’s

Noorah Alshoweir, Peter Goodwin, Jamie McFee and Gill Yeowell

Manchester Metropolitan University, Faculty of Health, Psychological & Social Care, Manchester, U.K.

Keywords: Cold Water Immersion, Pain, Performance, Soreness.

Abstract: Background Delayed onset muscle soreness is a common symptom after over-load training. It typically

begins 12-24 hours post exercise and lasts up to 72 hours, resulting in muscle pain and reduced function.

Cold-water immersion (CWI) has emerged as an effective method of recovery, reducing pain and enhancing

function. However, limited literature exists regarding the psychology of its perceived effectiveness.

Therefore, athletes’ pain, perceptions of performance and expectations post-CWI were investigated.

Methods Eight male rugby players participated in a 2 weeks cross-over trial comprising of 15 minutes of

CWI (12-13ºC) vs passive recovery after 20 minute step-up exercises. Three questionnaires were self-

completed, two investigating the experience of CWI and perceived performance, immediately post CWI and

the third investigating expectations, 48 hours later. A focus group was held 48-hour post-CWI. Results were

analyzed using a mixed methods approach. Results All players found this CWI protocol acceptable. For

most in this cohort, there was a perception that CWI would enhance performance and expect it to reduce

pain more than passive recovery. The focus group confirmed the questionnaire findings. Conclusion Player

perceptions of CWI might have a significant psychological impact on recovery outcomes.

1 BACKGROUND

Delayed onset muscle soreness is a common

symptom after over-load training. It typically begins

12-24 hours post exercise and lasts up to 72 hours,

resulting in muscle pain and reduced function (Crow

et al, 2007).

Cold-water immersion (CWI) has emerged as an

effective method of recovery, reducing pain and

enhancing function (Ingram et al, 2009). It suggests

that the diminish of the nerve impulse associated

with greater tissue cooling may reduce muscle

spasm and pain perception (Analgesia effect)

(Wilcock et al, 2006). Moreover, psychological

factors, such as expectancy, have been suggested to

significantly contribute to both positive and negative

sporting performance (Cook and Beaven, 2012).

However, limited literature exists regarding the

psychology of its perceived effectiveness. Therefore,

athletes’ pain, perceptions of performance and

expectations post-CWI were investigated.

2 METHODS

Eight male rugby players participated in a 2 weeks

cross-over trial comprising of 15 minutes of CWI

(12-13ºC) to the waist level vs passive recovery after

20 minute step-up exercises. Psychological effect

was determined by three questionnaires. It were self-

completed, two investigating the experience of CWI,

pain level and perceived performance, immediately

post CWI and the third investigating expectations,

48 hours later. A focus group was held 48-hour post-

CWI. Pain level was measured using VAS tool.

Results from the questionnaires were analysed using

mixed methods approach. Thematic analysis of the

transcript for focus groups identified four themes:

Awareness, Motivation, Response and Preferences

of using CW.

3 RESULTS

All players found this CWI protocol acceptable. For

most in this cohort, there was a perception that CWI

would enhance performance and expect it to reduce

pain more than passive recovery. The focus group

confirmed the questionnaire findings. CWI was

better than passive recovery by 95%,

p< 0.005.

Alshoweir N., Goodwin P., McFee J. and Yeowell G..

Perception of Cold Water Immersion among Elite Athlete’s.

 2014 SCITEPRESS (Science and Technology Publications, Lda.)

4 CONCLUSIONS

Previous experience and expectation can play an

essential role for improving the performance The

application of the CW of a short period of time was

preferable to the players. Understanding of the CWI

benefits among the players has improved their

body’s response. Hence, player perceptions of CWI

might have a significant psychological impact on

recovery outcomes.

REFERENCES

Cook, C.J., Beaven, C.M. (2012), Individual perception of

recovery is related to subsequent sprint performance.

British journal of sports medicine; 47, 705-709.

Crowe, M.J., O’Connor, D., and Rudd, D. (2007), Cold

Water Recovery Reduces Anaerobic Performance.

International Journal of Sports Medicine; 28: 994–

998.

Ingram, J., Dawson, B., Goodman, C., Wallman, K. and

Beilby, J. 2009. Effect of water immersion methods on

post-exercise recovery from simulated team sport

exercise. Journal of Science and Medicine in Sport,

12, 417-421.

Wilcock, I., Cronin, J. and Hing, W. (2006) Physiological

response to water immersion, A method for sport

recovery? Sports Medicine, 36(9), 747-765.