Abstract
Cryotherapy is commonly used as a procedure to relieve pain symptoms, particularly in inflammatory diseases, injuries and overuse symptoms. A peculiar form of cold therapy or stimulation was proposed 30 years ago for the treatment of rheumatic diseases. The therapy consists in the exposure to very cold air in special cryochambers. The air is maintained at temperatures between −110 and −160°C. The treatment was named whole-body cryotherapy (WBC). It consists in a brief exposure to extreme cold in a temperature-controlled chamber. It is applied to relieve pain and inflammatory symptoms caused by numerous disorders, particularly those associated with rheumatic conditions, and it is recommended for the treatment of arthritis, fibromyalgia and ankylosing spondylitis. The aim of this study was to investigate the effects of different treatment of WBC on blood pressure (BP) and heart rate (HR) parameters in adult subjects characterized from non-pathological values of BP. Eighty subjects (36 females, 44 males, age range 19–80 years) submitted to 4–17 WBC applications for a total of 816 treatments were recruited. Immediately before and after each WBC application systolic and diastolic BP and HR were measured and recorded. We did not find significant differences in BP and HR (p > 0.05). WBC seems to be safe with respect to unwanted BP and HR alterations for adult patients. An individual monitoring of subjects is recommended over the treatment, but pathological changes of circulatory parameters can be considered rare and occasional.
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Abbreviations
- WBC:
-
Whole-body cryotherapy
- HR:
-
Heart rate
- BP:
-
Blood pressure
References
Antony I, Aptecar E, Lerebours G et al (1994) Coronary artery constriction caused by the cold pressor test in human hypertension. Hypertension 24:212–219
Banfi G, Lombardi G, Colombini A et al (2010) Whole body cryotherapy in athletes. Sports Med 40:509–517
Brennan PJ, Greenberg G, Miall WE et al (1982) Seasonal variation in arterial blood pressure. Br Med J (Clin Res Ed) 285:919–923
Buemi M, Allegra A, Aloisi C et al (1997) Cold pressor test raises serum concentration of ICAM-1, VCAM-1, and E-selectin in normotensive and hypertensive patients. Hypertension 30:845–847
Di Carli MF, Tobes MC, Mangner T et al (1997) Effects of cardiac sympathetic innervation on coronary blood flow. N Engl J Med 336:1208–1215
Dugué B, Smolander J, Westerlund T et al (2005) Acute and long-term effects of winter swimming and whole-body cryotherapy on plasma antioxidative capacity in healthy women. Scand J Clin Lab Invest 65:395–402
Fricke R (1989) Ganzkörperkältetherapie in einer Kältekammer mit Temperaturenum –110°C. Z Phys Med Balneol Med Klimatol 18:1–10
Jansky L, Matousková E, Vávra V et al (2006) Thermal, cardiac and adrenergic responses to repeated local cooling. Physiol Res 55:543–549
Jansky L, Pospisilová D, Honzová H et al (1996) Immune system of cold-exposed and cold-adapted humans. Eur J Appl Physiol Occup Physiol 72:445–450
Leppäluoto J, Hassi J (1991) Human physiological adaptations to the arctic climate. Arctic 44:139–145
Leppäluoto J, Westerlund T, Huttunen P et al (2008) Effects of long-term whole-body cold exposures on plasma concentrations of ACTH, beta-endorphin, cortisol, catecholamines and cytokines in healthy females. Scand J Clin Lab Invest 68:145–153
Lubkowska A, Szyguła Z (2010) Changes in blood pressure with compensatory heart rate decrease and in the level of aerobic capacity in responses to repeated whole body cryostimulation in normotensive, young and physically active men. J Occup Med Environ Health 23:367–375
Lubkowska A, Suska M (2011) The increase in systolic and diastolic blood pressure after exposure to cryogenic temperatures in normotensive men as a contraindication for whole-body cryostimulation. J Thermal Biol 36:264–268
Missmann M, Himsl M, Ulmer H et al (2007) Behavior of blood pressure during whole body cryotherapy in a cryo-chamber. Phys Rehab Kur Med 17:286–297
Papenfuss W, Joch W, Ückert S et al (2006) Consensus declaration on whole body cryotherapy. Second Austrian Symposium on WBCT, February 17–18, 2006, Bad Voslau Health Resort
Smolander J, Westerlund T, Uusitalo A et al (2006) Lung function after acute and repeated exposures to extremely cold air (−110°C) during whole-body cryotherapy. Clin Physiol Funct Imaging 26:232–234
Taghawinejad M, Birwe G, Fricke R et al (1989a) Whole-body cryotherapy—influence on circulatory and metabolic parameters. Z Phys Med Balneol Med Klimatol 18:23–30
Taghawinejad M, Fricke R, Duhme L (1989b) Telemetrisch Elektrokardiographische Untersuchungen bei Ganzkörperkältetherapie (GKKT). Z Phys Med Balneol Med Klimatol 18:31–36
Victor RG, Leimbach WN Jr, Seals DR et al (1987) Effects of the cold pressor test on muscle sympathetic nerve activity in humans. Hypertension 9:429–436
Wendt T, Schulz W, Kaltenbach M et al (1983) Influence of cold-stimuli on hemodynamics and coronary diameters. Provocation of coronary artery spasm. Z Kardiol 72:24–31
Westerlund T, Smolander J, Uusitalo-Koskien A et al (2004) The blood pressure responses to an acute and long-term whole-body cryotherapy (−110°C) in men and women. J Therm Biol 29:285–290
Westerlund T, Uusitalo A, Smolander J et al (2006) Heart rate variability in women exposed to very cold air (−110°C) during whole-body cryotherapy. J Therm Biol 31:342–346
Yamauchi T (1986) Whole body cryotherapy is a method of extreme cold −175°C treatment initially used for rheumatoid arthritis. Z Phys Med Balneol Med Klimatol 15:31
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Bonomi, F.G., De Nardi, M., Fappani, A. et al. RETRACTED ARTICLE: Impact of Different Treatment of Whole-Body Cryotherapy on Circulatory Parameters. Arch. Immunol. Ther. Exp. 60, 145–150 (2012). https://doi.org/10.1007/s00005-012-0163-4
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DOI: https://doi.org/10.1007/s00005-012-0163-4