Does Pulsed Electromagnetic Field (PEMF) Therapy Have Application to Athletic Performance?

by Robert Lockie, PhD, TSAC-F
NSCA Coach April 2021
Vol 7, Issue 4

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This article will review available information about pulsed electromagnetic field (PEMF) therapy and practical applications that could be adopted by strength and conditioning coaches.

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This article originally appeared in NSCA Coach, a quarterly publication for NSCA Members that provides valuable takeaways for every level of strength and conditioning coach. You can find scientifically based articles specific to a wide variety of your athletes’ needs with Nutrition, Programming, and Youth columns. Read more articles from NSCA Coach »

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References

1. Abdelhalim, NM, Samhan, AF, and Abdelbasset, WK. Short-term impacts of pulsed electromagnetic field therapy in middle-aged university’s employees with non-specific low back pain: A pilot study. Pakistan Journal of Medical Sciences 35(4): 987-991, 2019.

2. Almagia International. 2017. How PEMF Therapy Impacts Professional, Olympic and Recreational Athletes. Retrieved August 4, 2020, from https://almagia.com/articles/how-pemf-therapyimpacts- professional-olympic-and-recreational-athletes/.

3. Beedie, CJ. Placebo effects in competitive sport: Qualitative data. Journal of Sports Science and Medicine 6(1): 21-28, 2007.

4. Beedie, CJ, and Foad, AJ. The placebo effect in sports performance: A brief review. Sports Medicine 39(4): 313-329, 2009.

5. BioBalance Pulsed Magnetic Field System. 2018. Athletic and sports performance enhancement with PEMF therapy. Retrieved August 4, 2020, from https://biobalancepemf.com/pemf-athleticperformance- enhancement-sports-training/.

6. Bishop, PA, Jones, E, and Woods, AK. Recovery from training: A brief review. Journal of Strength and Conditioning Research 22(3): 1015-1024, 2008.

7. Brazier, J, Sinclair, J, and Bottoms, L. The effects of hologram wristbands and placebo on athletic performance. Kinesiology 46, 2014.

8. Brown, DJ, and Fletcher, D. Effects of psychological and psychosocial interventions on sport performance: A meta-analysis. Sports Medicine 47(1): 77-99, 2017.

9. Chalidis, B, Sachinis, N, Assiotis, A, and Maccauro, G. Stimulation of bone formation and fracture healing with pulsed electromagnetic fields: biologic responses and clinical implications. International Journal of Immunopathology and Pharmacology 24(1 Suppl 2): 17-20, 2011.

10. Chleboun, GS, Howell, JN, Baker, HL, Ballard, TN, Graham, JL, Hallman, HL, et al. Intermittent pneumatic compression effect on eccentric exercise-induced swelling, stiffness, and strength loss. Archives of Physical Medicine and Rehabilitation 76(8): 744-749, 1995.

11. Colzato, LS, Nitsche, MA, and Kibele, A. Noninvasive brain stimulation and neural entrainment enhance athletic performance—A Review. Journal of Cognitive Enhancement 1(1): 73-79, 2017.

12. Duncan, RL, and Turner, CH. Mechanotransduction and the functional response of bone to mechanical strain. Calcified Tissue International 57(5): 344-358, 1995.

13. Gazerani, P. Performance enhancement by brain stimulation. Journal of Sports Science and Medicine 16(3): 438-439, 2017.

14. Gordon, GA. Designed electromagnetic pulsed therapy: Clinical applications. Journal of Cellular Physiology 212(3): 579-582, 2007.

15. Gossling, HR, Bernstein, RA, and Abbott, J. Treatment of ununited tibial fractures: a comparison of surgery and pulsed electromagnetic fields (PEMF). Orthopedics 15(6): 711-719, 1992.

16. Grosprêtre, S, Ruffino, C, and Lebon, F. Motor imagery and cortico-spinal excitability: A review. European Journal of Sport Science 16(3): 317-324, 2016.

17. Hannouche, D, Petite, H, and Sedel, L. Current trends in the enhancement of fracture healing. The Journal of Bone and Joint Surgery. British Volume 83-B(2): 157-164, 2001.

18. Hanson, E, Stetter, K, Li, R, and Thomas, A. An intermittent pneumatic compression device reduces blood lactate concentrations more effectively than passive recovery after Wingate testing. Journal of Athletic Enhancement 2(3): 2013.

19. Hausswirth, C, and Le Meur, Y. Physiological and nutritional aspects of post-exercise recovery. Sports Medicine 41(10): 861-882, 2011.

20. Ingram, J, Dawson, B, Goodman, C, Wallman, K, and Beilby, J. Effect of water immersion methods on post-exercise recovery from simulated team sport exercise. Journal of Science and Medicine in Sport 12(3): 417-421, 2009.

21. Jeffreys, I. Warm-up and flexibility training. In: Haff, GG, and Triplett, NT (Eds.), Essentials of Strength Training and Conditioning. Human Kinetics: Champaign, IL; 317-350, 2016.

22. Lisi, AJ, Scheinowitz, M, Saporito, R, and Onorato, A. A pulsed electromagnetic field therapy device for non-specific low back pain: A pilot randomized controlled trial. Pain and Therapy 8(1): 133-140, 2019.

23. Magnetic stimulation therapy for a healthier planet. 2017. Brain stimulation technologies used by athletes. Retrieved August 4, 2020, from https://pemf-devices.com/covert-brain-stimulationtechnology- used-by-olympics-athletes/.

24. Magrini, MA, Dawes, J, Elder, CL, Orr, RM, and Smith, BB. Effectiveness of compression garments on selected physiological, perceptual and performance measures while traversing austere conditions at altitude: A pilot study Sports and Exercise Medicine Open Journal 4(3): 83-89, 2018.

25. Nitsche, MA, Schauenburg, A, Lang, N, Liebetanz, D, Exner, C, Paulus, W, and Tergau, F. Facilitation of implicit motor learning by weak transcranial direct current stimulation of the primary motor cortex in the human. Journal of Cognitive Neuroscience 15(4): 619-626, 2003.

26. Okano, AH, Fontes, EB, Montenegro, RA, Farinatti, PdTV, Cyrino, ES, Li, LM, et al. Brain stimulation modulates the autonomic nervous system, rating of perceived exertion and performance during maximal exercise. British Journal of Sports Medicine 49(18): 1213, 2015.

27. Pawluk, W. PEMF for athletes. 2007. Retrieved August 4, 2020 from https://www.magnusmagnetica.com/pemf-for-athletes.

28. Pawluk, W. Adverse reactions to PEMF machines and PEMF therapy. 2019 Retrieved October 7, 2020 from https://www. drpawluk.com/education/pemf-information/adverse-reactions/.

29. PEM8000Pro. Pulsed electromagnetic field therapy: 2019. A medical breakthrough in injury recovery and performance optimization. Retrieved August 4, 2020 from https://www. pemf8000pro.com/pemf-for-athletes/.

30. PEM8000Pro. Products. 2020. Retrieved August 5, 2020 from https://www.pemf8000pro.com/products/.

31. PEMF-Devices.com. Compare PEMF machines. 2020. Retrieved August 4, 2020, from https://pemf-devices.com/ compare-pemf-devices/.

32. PEMF Supply. PEMF frequency chart. 2020. Retrieved August 5, 2020 from https://www.pemfsupply.com/pages/frequency.

33. Porcari, J, Hazuga, R, Foster, C, Doberstein, S, Becker, J, Kline, D, et al. Can the Power Balance(®) bracelet improve balance, flexibility, strength, and power? Journal of Sports Science and Medicine 10(1): 230-231, 2011.

34. Reuter, BJ, and Dawes, JJ. Program design and technique for aerobic endurance training. In: Haff, GG, and Triplett, NT (Eds.), Essentials of Strength Training and Conditioning. Human Kinetics: Champaign, IL; 559-582, 2016.

35. Rodriguez, NR, Di Marco, NM, and Langley, S. American College of Sports Medicine position stand. Nutrition and athletic performance. Medicine and Science in Sports and Exercise 41(3): 709-731, 2009.

36. Schall, D, and Ishee, JH. Magnetic therapy and athletic performance. The Sport Journal 21, 2008.

37. Sheppard, JM, and Triplett, NT. Program design for resistance training. In: Haff, GG, and Triplett, NT (Eds.), Essentials of Strength Training and Conditioning. Human Kinetics: Champaign, IL; 439-470, 2016.

38. Sutbeyaz, ST, Sezer, N, Koseoglu, F, and Kibar, S. Lowfrequency pulsed electromagnetic field therapy in fibromyalgia: A randomized, double-blind, sham-controlled clinical study. Clinical Journal of Pain 25(8): 722-728, 2009.

39. Victoria, G, Petrisor, B, Drew, B, and Dick, D. Bone stimulation for fracture healing: What’s all the fuss? Indian Journal of Orthopaedics 43(2): 117-120, 2009.

40. Vitor-Costa, M, Okuno, NM, Bortolotti, H, Bertollo, M, Boggio, PS, Fregni, F, and Altimari, LR. Improving cycling performance: Transcranial direct current stimulation increases time to exhaustion in cycling. PLOS ONE 10(12): e0144916, 2015.

41. Wade, B. A review of pulsed electromagnetic field (PEMF) mechanisms at a cellular level: A rationale for clinical use. American Journal of Health Research 1(3): 51-55, 2013.

42. Ward, P, and Williams, AM. Perceptual and cognitive skill development in soccer: The multidimensional nature of expert performance. Journal of Sport and Exercise Psychology 25(1): 93-111, 2003.

43. Williams, PS, Hoffman, RL, and Clark, BC. Preliminary evidence that anodal transcranial direct current stimulation enhances time to task failure of a sustained submaximal contraction. PLOS ONE 8(12): e81418, 2013.

44. Zainuddin, Z, Newton, M, Sacco, P, and Nosaka, K. Effects of massage on delayed-onset muscle soreness, swelling, and recovery of muscle function. Journal of Athletic Training 40(3): 174-180, 2005.

45. Zhu, FF, Yeung, AY, Poolton, JM, Lee, TM, Leung, GK, and Masters, RS. Cathodal transcranial direct current stimulation over left dorsolateral prefrontal cortex area promotes implicit motor learning in a golf putting task. Brain Stimulation 8(4): 784-786, 2015.

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Robert G. Lockie, PhD, TSAC-F

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Robert Lockie is an Associate Professor of strength andconditioning at California State University, Fullerton. He obtainedhis undergraduate and honors ...

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