Contrast bath therapy

Contrast bath therapy, is a form of treatment where a limb or the entire body is immersed in hot (but not boiling) water followed by the immediate immersion of the limb or body in cold ice water.[1][2] This procedure is repeated several times, alternating hot and cold. The only evidence of benefit is anecdotal and no plausible mechanism has been confirmed.[3][4]

Contrast bath therapy
Other namesHot/cold immersion therapy
Specialtyphysical therapy

Theory

The theory behind contrast bath therapy is that the hot water causes vasodilation of the blood flow in the limb or body followed by the cold water which causes vasoconstriction, increasing local blood circulation.[1] Additionally, the lymph vessels contract when exposed to cold, and relax in response to heat. The lymph system, unlike the circulatory system, lacks a central pump. By alternating hot and cold, it is believed that lymph vessels dilate and contract to "pump" and move stagnant fluid out of the injured area and that this positively affects the inflammation process, which is the body's primary mechanism for healing damaged tissue. One study[5] showed that fluctuations in intramuscular temperature were lower than those caused by a hot bath alone.

Other studies indicate that thermal stress seems to positively influence the immune system.[6][7]

A pair of studies published in 1994 and 1997 by William Myer and colleagues at Brigham Young University investigated this claim using needle-mounted thermometers placed just under the skin and 1 cm deep into the calf muscle. In both studies the subjects underwent a 20-minute contrast routine, starting with heat and alternating with cold every four minutes. The 1994 study used two whirlpool baths, while the 1997 study used hot packs and ice bags. In both cases, Myer et al. found that, while the contrast therapy caused fluctuations in skin temperature, muscular temperatures did not change significantly during the contrast therapy. The body likely was able to divert blood flow so that the deep muscle temperature was maintained at a fairly constant level. Having this assumption about contrast therapy overturned forced researchers to look for other possible mechanisms. [8]

Treatment

Contrast bathing can be used to reduce swelling around injuries or to aid recovery from exercise. It can also significantly improve muscle recovery following exercise by reducing the levels of blood lactate concentration. For any injury presenting with palpable swelling and heat, and visible redness - such as a strain/sprain - contrast baths are contraindicated during the acute inflammation stage.[9] Acute inflammation begins at the time of injury and lasts for approximately 72 hours.

Effectiveness in athletic recovery

The current evidence[1] base suggests that contrast water therapy (CWT) is superior to using passive recovery or rest after exercise; the magnitudes of these effects may be most relevant to an elite sporting population. There seems to be little difference in recovery outcome between CWT and other popular recovery interventions such as cold water immersion and active recovery.[1]
In a review on immersion therapy in general, Ian Wilcock, John Cronin, and Wayne Hing suggest that most of the benefits of contrast therapy are from the hydrostatic pressure from the water, not the variations in temperature.[10]


See also

References

  1. Bieuzen, François; Bleakley, Chris M.; Costello, Joseph Thomas (2013-01-01). "Contrast water therapy and exercise induced muscle damage: a systematic review and meta-analysis". PLOS ONE. 8 (4): e62356. Bibcode:2013PLoSO...862356B. doi:10.1371/journal.pone.0062356. ISSN 1932-6203. PMC 3633882. PMID 23626806.
  2. www.Medindia.net
  3. Petrofsky J, Lohman E, Lee S, de la Cuesta Z, Labial L, Iouciulescu R, Moseley B, Korson R, Al Malty A (2007). "Effects of contrast baths on skin blood flow on the dorsal and plantar foot in people with type 2 diabetes and age-matched controls". Physiother Theory Pract. 23 (4): 189–97. doi:10.1080/09593980701209295. PMID 17687732. S2CID 7515998.
  4. David J. Magee; James E. Zachazewski; William S. Quillen (14 February 2007). Scientific Foundations and Principles of Practice in Musculoskeletal Rehabilitation - E-Book. Elsevier Health Sciences. p. 251. ISBN 978-1-4160-6854-9.
  5. Higgins, Diana; Kaminski,Thomas W. (1998). "Contrast Therapy Does Not Cause Fluctuations in Human Gastrocnemius Intramuscular Temperature". J Athl Train. 33 (4): 336–40. PMC 1320584. PMID 16558531.
  6. Dugué B, Leppänen E (March 2000). "Adaptation related to cytokines in man: effects of regular swimming in ice-cold water". Clin Physiol. 20 (2): 114–21. CiteSeerX 10.1.1.502.43. doi:10.1046/j.1365-2281.2000.00235.x. PMID 10735978.
  7. Brenner, I. K. M.; Castellani, J. W.; Gabaree, C.; Young, A. J.; Zamecnik, J.; Shephard, R. J.; Shek, P. N. (1999). "Immune changes in humans during cold exposure: effects of prior heating and exercise". Journal of Applied Physiology. 87 (2): 699–710. doi:10.1152/jappl.1999.87.2.699. ISSN 8750-7587. PMID 10444630.
  8. "Contrast Bath Therapy for Runners: Is it Worth Your Time?". 2012-09-05.
  9. Karunanayake, A. L. (2020). "Physical modalities used in rehabilitation of musculoskeletal injuries sustained during sports and physical exercises (Review Articles )". ISSN 2659-2398. {{cite journal}}: Cite journal requires |journal= (help)
  10. Wilcock, Ian M.; Cronin, John B.; Hing, Wayne A. (2006). "Water Immersion: Does It Enhance Recovery from Exercise?". International Journal of Sports Physiology and Performance. 1 (3): 195–206. doi:10.1123/ijspp.1.3.195. ISSN 1555-0265. PMID 19116434.
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