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Motivation and Readiness for Physical Activity and Exercise Behaviour among People with Chronic Musculoskeletal Pain: A Brief Report

Published online by Cambridge University Press:  30 July 2018

Jessica M. Brooks*
Affiliation:
University of North Texas and Dartmouth College
Kelly Costigan
Affiliation:
Chrysalis Inc.
Jia-Rung Wu
Affiliation:
University of Wisconsin–Madison
Xiangli Chen
Affiliation:
University of Wisconsin–Madison
Kevin Bengtson
Affiliation:
University of Wisconsin–Madison
Fong Chan
Affiliation:
University of Wisconsin–Madison
Kanako Iwanaga
Affiliation:
Northern Illinois University
Chungyi Chiu
Affiliation:
University of Illinois at Urbana-Champaign
*
Address for correspondence: Jessica M. Brooks, Rehabilitation and Health Services, University of North Texas Chilton Hall 218-G, 410 Avenue C, Suite 218, Denton, TX 76203USA. E-mail: Jessica.Brooks@unt.edu
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Abstract

The main objective of this study was to investigate the relationships between motivation and readiness levels for physical activity and exercise behaviour among persons with chronic musculoskeletal pain. Participants were 211 U.S. adults with chronic musculoskeletal pain from online support groups as well as specialty and primary care clinics (females = 86.7%; mean age = 43.4 years, SD = 14.4 years). The participants completed an online survey on their engagement in physical activity and exercise behaviour. Multiple one-way analyses of variance with post-hoc comparisons using the Tukey HSD test revealed significant differences between the readiness stages of change groups of preintenders, intenders, and actors in their motivation for physical activity and exercise behaviour. Specifically, the actor group of behavioural change reported higher levels of motivation beliefs for physical activity and exercise behaviour compared to preintenders and intenders. These findings suggest that people with chronic musculoskeletal pain experiencing increased motivation for physical activity and exercise behaviour are more engaged in desired behaviours than the persons with chronic pain reporting varying degrees of behavioural intentions.

Type
Articles
Copyright
Copyright © The Author(s) 2018 

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References

Bandura, A. (1997). Self-efficacy: The Exercise of Control. New York, NY: Freeman.Google Scholar
Brooks, J. M. (2014). Predicting stages of change for physical activity in individuals with chronic musculoskeletal pain: An integrative and extended self-determination theory perspective. (Unpublished Doctoral dissertation), University of Wisconsin, Madison, Wisconsin.Google Scholar
Cardinal, B. J., & Sachs, M. L. (1996). Effects of mail-mediated, stage-matched exercise behavior change strategies on female adults' leisure-time exercise behavior. The Journal of Sports Medicine and Physical Fitness, 36, 100107.Google Scholar
Centers for Disease Control and Prevention (CDC). (2015). Physical activity and health. Division of Nutrition, Physical Activity, and Obesity, National Center for Chronic Disease Prevention and Health Promotion. Retrieved from http://www.cdc.gov/physicalactivity/everyone/health/Google Scholar
Du, S., Yuan, C., Xiao, X., Chu, J., Qiu, Y., & Qian, H. (2011). Self-management programs for chronic musculoskeletal pain conditions: A systematic review and meta-analysis. Patient Education and Counseling, 85, e299e310.Google Scholar
Edmunds, J., Ntoumanis, N., & Duda, J. L. (2006). A test of self-determination theory in the exercise domain. Journal of Applied Social Psychology, 36, 22402265.Google Scholar
International Association for the Study of Pain (IASP). (2009). Global year against musculoskeletal pain, October 2009–October 2010. Retrieved from http://www.iasp-pain.org/AM/Template.cfm?Section=2009_2010_Musculoskeletal_Pain&Template=/CM/HTMLDisplay.cfm&ContentID=9310Google Scholar
Kim, C. J., Hwang, A. R., & Yoo, J. S. (2004). The impact of a stage-matched intervention to pro- mote exercise behavior in participants with type 2 diabetes. International Journal of Nursing Studies, 41, 833841.Google Scholar
Markland, D., & Tobin, V. (2004). A modification to the behavioral regulation in exercise questionnaire to include an assessment of amotivation. Journal of Sport and Exercise Psychology, 26, 191196.Google Scholar
Murcia, J. A. M., Gimeno, E. C., & Camacho, A. M. (2007). Measuring self-determination motivation in a physical fitness setting: Validation of the Behavioral Regulation in Exercise Questionnaire-2 (BREQ-2) in a Spanish sample. Journal of Sports Medicine and Physical Fitness, 47, 366378.Google Scholar
Nigg, C., Hellsten, L., Norman, G., Braun, L., Breger, R., Burbank, P., . . . Williams, G. (2005). Physical activity staging distribution: Establishing a heuristic using multiple studies. Annals of Behavioral Medicine, 29, 3545.Google Scholar
Pelletier, J. P., Martel-Pelletier, J., & Abramson, S. B. (2001). Osteoarthritis, an inflammatory disease: Potential implication for the selection of new therapeutic targets. Arthritis & Rheumatism, 44, 12371247.Google Scholar
Prochaska, J. O., & DiClemente, C. C. (1983). Stages and processes of self-change in smoking: Toward an integrative model of change. Journal of Consulting and Clinical Psychology, 51, 390395.Google Scholar
Prochaska, J. O., DiClemente, C. C., & Norcross, J. C. (1992). In search of how people change: Applications to addictive behaviors. American Psychologist, 47, 1102–114.Google Scholar
Resnick, B., Zimmerman, S. I., Orwig, D., Furstenberg, A. L., & Magaziner, J. (2000). Outcome expectations for exercise scale: Utility and psychometrics. Journal of Gerontology: Social Sciences, 55B, 352356.Google Scholar
Ronda, G., Van Assema, P., & Brug, J. (2001). Stages of change, psychological factors and awareness of physical activity levels in The Netherlands. Health Promotion International, 16, 305314.Google Scholar
Sallis, J. F., Grossman, R. M., Pinski, R. B., Patterson, T. L., & Nader, P. R. (1987). The development of scales to measure social support for diet and exercise behaviors. Preventive Medicine, 16, 825836.Google Scholar
Scelza, W. M., Kalpakjian, C. Z., Zemper, E. D., & Tate, D. G. (2005). Perceived barriers to exercise in people with spinal cord injury. American Journal of Physical Medicine & Rehabilitation, 84, 576583.Google Scholar
Schwarzer, R., Lippke, S., & Luszczynska, A. (2011). Mechanisms of health behavior change in persons with chronic illness or disability: The health action process approach (HAPA). Rehabilitation Psychology, 56, 161170.Google Scholar
Shin, Y., Jang, H., & Pender, N. J. (2001). Psychometric evaluation of the exercise self-efficacy scale among Korean adults with chronic diseases. Research in Nursing & Health, 24, 6876.Google Scholar
Shiri, R., Karppinen, J., Leino-Arjas, P., Solovieva, S., & Viikari-Juntura, E. (2009). The association between obesity and low back pain: A meta-analysis. American Journal of Epidemiology, 171, 135154.Google Scholar
Silva, M. N., Markland, D., Carraça, E. V., Vieira, P. N., Coutinho, S. R., Minderico, C. S., . . . Teixeira, P. J. (2011). Exercise autonomous motivation predicts 3-yr weight loss in women. Medicine and Science in Sports and Exercise, 43, 728737.Google Scholar
Sutton, S. (2000). Interpreting cross-sectional data on stages of change. Psychology & Health, 15, 163171.Google Scholar
Teixeira, P. J., Carraça, E. V., Markland, D., Silva, M. N., & Ryan, R. M. (2012). Exercise, physical activity, and self-determination theory: A systematic review. The International Journal of Behavioral Nutrition and Physical Activity, 9, 30.Google Scholar
The MBF Foundation (2007). The high price of pain: The economic impact of persistent pain in Australia. Retrieved from http://fpm.anzca.edu.au/documents/thehighpriceofpainfinal-185.pdfGoogle Scholar
Verloigne, M., De Bourdeaudhuij, I., Tanghe, A., D'Hondt, E., Theuwis, L., Vansteenkiste, M., & Deforche, B. (2011). Self-determined motivation towards physical activity in adolescents treated for obesity: An observational study. International Journal of Behavioral Nutrition and Physical Activity, 8 (1), 97107.Google Scholar
Warburton, D. E., Nicol, C. W., & Bredin, S. S. D. (2006). Health benefits of physical activity: The evidence. Canadian Medical Assococation Journal, 174, 801809.Google Scholar
Wilson, P. M., Rodgers, W. M., Fraser, S. N., & Murray, T. C. (2004). Relationships between exercise regulations and motivational consequences in university students. Research Quarterly for Exercise and Sport, 75 (1), 8191.Google Scholar
Wolfe, D. L., McIntyre, A., Ravenek, K., Martin Ginis, K. A., Latimer, A. E., Eng, J. J., . . . Hsieh, J. T. C. (2012). Physical activity and SCI. In Eng, J. J., Teasell, R. W., Miller, W. C., Wolfe, D. L., Townson, A. F., Hsieh, J. T. C. & Sakakibara, B. M. (eds.). Spinal Cord Injury Rehabilitation Evidence, Version 4.0. Vancouver, BC: SCIRE Project. Retrieved from http://www.scireproject.com/rehabilitationevidence/physical-activityGoogle Scholar