Advances in Clinical and Experimental Medicine
2018, vol. 27, nr 10, October, p. 1341–1346
doi: 10.17219/acem/69450
Publication type: original article
Language: English
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The assessment of the integrated antioxidant system of the body and the phenomenon of spa reaction in the course of radon therapy: A pilot study
1 Department of Physiotherapy, Wroclaw Medical University, Poland
2 Department of Laboratory Diagnostics, Wroclaw Medical University, Poland
Abstract
Background. Spa reaction is an adaptive response of an organism, emerging as a result of external factors. It is a positive element of spa therapy leading to metabolic changes, which are important for the body. The effect of these changes is an increase in immune activity and regenerative reactions of the body. The mechanism of the response is not fully known.
Objectives. The aim of the study was to evaluate the changes observed in the field of the integrated antioxidant system of the body in the course of radon therapy, especially in reference to spa reaction.
Material and Methods. The study was conducted in the health resort in Świeradów-Zdrój. The observation regarded patients undergoing treatment with radon water. Before the treatment, after 5 and 18 days of treatment, the total antioxidant status (TAS) was evaluated with the use of a standard colorimetric assay. The study group consisted of 35 patients with degenerative joints and disc disease. The control group consisted of 15 people selected from the employees of the spa, also suffering from osteoarthritis, who did not undergo radon therapy (without contact with radon).
Results. On the 5th day of the treatment, in both groups, the TAS increase was observed with significantly worse results in the control group. After the treatment, in the study group, there was observed an increase in TAS, whereas in the control group, a significant decrease in the TAS concentration was noted.
Conclusion. A beneficial effect of radon treatments on the growth of TAS in the body of the patients treated in the spa was demonstrated. The increase in the TAS concentration on the 5th day of treatment may indicate the relationship between these changes and the phenomenon of spa response. The changes are a result of low doses of ionizing radiation originating from radon dissolved in medicinal water, used in the course of the therapy.
Key words
balneotherapy, radiation hormesis, total antioxidant status, radon water, spa reaction
References (30)
- Gorzenkowicz J, Wojtkowiak D, Podhajska AJ. Reactive oxygen species as signal molecules. Pol J Cosmetol. 2002;5(2):90–106.
- Wiktorowska-Owczarek A, Nowak J. Pathogenesis and prevention of AMD: The role of oxidative stress and antioxidants. Adv Hig Exp Med (online). 2010;64:333–343.
- Pedzik A, Paradowski M, Rysz J. Oxidative stress and pathological phenomena in the regime. Diagn Lab. 2008;44:1–7.
- Opara E C. Oxidative stress. Dis Mon. 2006;52(2):183–198.
- Roessner A, Kuester D, Malfertheiner P, Schneider-Sock R. Oxidative stress in ulcerative colitis-associated carcinogenesis. Pathol Res Pract. 2008;204:511–524.
- Puzanowska-Tarasierwicz H, Kuźmicka L, Tarasiewicz L. Influence of reactive nitrogen and oxygen species on human organism. Pol Med J. 2009;27:162:496–498.
- Makowski M, Grzela T, Niderla J, et al. Inhibition in cyclooxygenase-2 indirectly potentiates antitumor effects of photodynamic therapy in mice. Clin Cancer Res. 2003;9:5417–5422.
- Ryszawa N, Kawczyńska-Drożdż A, Pryjma J, et al. Effects of novel plant antioxidants on platelet superoxide production and aggregation in arteriosclerosis. J Physiol Pharmacol. 2006;57:611–626.
- Czajka A. Reactive oxygen species and mechanisms of body protection. JMS. 2006;75(6):582–586.
- Duarte TL, Lunec J. When is an antioxidant not an antioxidant? A review of novel actions and reactions of vitamin C. Free Radic Res. 2005;39:671–686.
- Rahman K. Studies on free radicals, antioxidants, and co-factors. Clin Interv Aging. 2007;2:563–567.
- Zabłocka A, Janusz M. Two faces of free radicals. Adv Hig Exp Med. 2008;62:118–124.
- Kraska A, Bilski B. Exposure of healthcare personnel to ionizing radiation in the light radiation hormesis hypothesis. Medycyna Pracy. 2012;63(3):371–376.
- Kochański W, Minta P, Kochański M, Trzewikowska I. Problems dosimetry radon therapy. Pol Baln. 2004;46(1/2):49–57.
- Demczyszak I, Perkowska K, Wrzosek Z, Sutkowska E. Alpha therapy application in the health resort environment. Pol Baln. 2009;51(1):57–58.
- Zdrojewicz Z, Belowska-Bień K. Estimating testosterone concentrations in male patients exposed to radon media. Adv Hig Exp Med. 2004;513(2):267–272.
- Zdrojewicz Z, Belowska-Bień K. Radon and ionizing radiation in the human body. Adv Hig Exp Med. 2004;58,150–157.
- Belowska-Bień K, Zdrojewicz Z. Influence of radon media treatment on secretion of prolactin. Adv Hig Exp Med. 2005;14(5):132–138.
- Drobnik J, Malcewicz M, Józefowski P, Kurpas D, Steciwko A. Health resort medicine: Contemporary resort health care in Poland. Familiy Medicine & Primary Care Reviev. 2011;13(1):103–108.
- Samborski W, Ponikowska I. Rheumatic diseases: Medical standards in health resort therapy. Balneol Pol. 2005;47(1–2):14–23.
- Ishimori Y, Mitsunobu F, Yamaoka K, Tanooka H, Kataoka T, Sakoda A. Performance of the first Japanese large-scale facility for radon inhalation experiments with small animals. Radiat Prot Dosimetry. 2011;7:146(1–3):31–33.
- Sakoda A, Ishimori Y, Yamaoka K, Kataoka T, Mitsunobu F. Absorbed doses of lungs from radon retained in airway lumens of mice and rats. Radiat Environ Biophys. 2013;52:389–395.
- Reinisch N. Reduction der Sauerstoffradikalfreisetzung aus Neutophilen. In: Deetjen P, Falkenbach A, eds. Radon und Gesundheit. Frankfurt am Main: Pert Lang, Europäischer Verlag der Wissenschaften; 1999:75–82.
- Soto J. Radon effects at cellular and mollecular levels. In: Deetjen P, Falkenbach A, eds. Radon und Gesundheit. Frankfurt am Main: Pert Lang, Europäischer Verlag der Wissenschaften; 1999:63–66.
- Yamaoka K, Edamatsu R, Mori A. Increased SOD activities and decreased lipid peroxide levels induced by low dose X irradiation in rat organs. Free Radic Biol Med. 1991;11:299–306.
- Vaiserman A. Radiation hormesis: Historical perspective and implications for low-dose cancer risk assessment. Dose Response. 2010;8:172–191.
- Kalmus P, Szynkowska L. Obserwations of the adaptive reactions in patients with inflammatory rheumatic diseases during health resort therapy. Acta Baln. 2015;57:97–105.
- Mothersill C, Seymour C. Radiation-induced bystander effects: Evidence for adaptive response to low dose exposure? Dose Response. 2006;4(4):283–290.
- Cuttler J, Pollycove M. Nuclear energy and health and the benefits of low-doses radiation hormesis. Dose Response. 2009;7(1):52–89.
- Strzelczyk J, Potter W, Zdrojewicz Z. Rad-by-Rad (Bit-by-Bit): Triumph of evidence over activities fostering fear of radiogenic cancers at low doses. Dose Response. 2007;5(4):275–283.