RESEARCH PAPER
Effect of changes in ambient temperature on oxidative stress markers in blood of regular winter swimmers
1
Katedra Biologii Medycznej, Collegium Medicum w Bydgoszczy, Uniwersytet Mikołaja Kopernika w Toruniu
2
Centralne Laboratorium Badawcze, Olsztyńska Szkoła Wyższa w Olsztynie
Corresponding author
Celestyna Mila-Kierzenkowska
Katedra Biologii Medycznej, Collegium Medicum im. L. Rydygiera w Bydgoszczy, UMK w Toruniu, ul. Karłowicza 24, 85-092 Bydgoszcz
Katedra Biologii Medycznej, Collegium Medicum im. L. Rydygiera w Bydgoszczy, UMK w Toruniu, ul. Karłowicza 24, 85-092 Bydgoszcz
Med Og Nauk Zdr. 2016;22(1):46-50
KEYWORDS
ABSTRACT
Introduction:
Winter swimming and sauna are supposed to beneficially affect the human organism, but there is still a lack of scientific evidence to confirm this phenomena.
Aim:
The aim of the study was to evaluate the effect of cold bath and sauna on markers of oxidative stress in the blood of experienced winter swimmers.
Material and Methods:
The study group consisted of 15 healthy men (volunteers), who spent 3 minutes in water at the temp. of +4 °C, followed by a 30 min sauna session – temp. 80 °C, relative humidity 15%. Blood samples were taken 4 times: before the cold bath (control), 5 and 30 min. after the cold bath (before sauna) and 5 min. after sauna. Activity of antioxidant enzymes – catalase (CAT) and superoxide dismutase (SOD), was determined in erythrocytes, glutathione peroxidase (GPx) in erythrocytes, and blood plasma, and ceruloplasmin (Cp) in serum. The level of lipid peroxidation products – thiobarbituric acid reactive substances (TBARS) and conjugated dienes (CD), were measured in erythrocytes and blood plasma.
Results:
An increase of GPx activity in plasma was observed directly after the cold bath, and also an increase of CD level was revealed after the changes in ambient temperature. The level of TBARS after winter swimming decreased both in erythrocytes and in blood plasma. After the sauna bath, TBARS concentration increased in plasma.
Conclusions:
The results provide evidence of constant alacrity of antioxidant system in prevention against harmful action of reactive oxygen species during exposition to changes in ambient temperature in experienced winter swimmers, which results in lack of damage on the cellular level. However, the use of sauna directly after a cold bath may be an additional source of oxidative stress.
Winter swimming and sauna are supposed to beneficially affect the human organism, but there is still a lack of scientific evidence to confirm this phenomena.
Aim:
The aim of the study was to evaluate the effect of cold bath and sauna on markers of oxidative stress in the blood of experienced winter swimmers.
Material and Methods:
The study group consisted of 15 healthy men (volunteers), who spent 3 minutes in water at the temp. of +4 °C, followed by a 30 min sauna session – temp. 80 °C, relative humidity 15%. Blood samples were taken 4 times: before the cold bath (control), 5 and 30 min. after the cold bath (before sauna) and 5 min. after sauna. Activity of antioxidant enzymes – catalase (CAT) and superoxide dismutase (SOD), was determined in erythrocytes, glutathione peroxidase (GPx) in erythrocytes, and blood plasma, and ceruloplasmin (Cp) in serum. The level of lipid peroxidation products – thiobarbituric acid reactive substances (TBARS) and conjugated dienes (CD), were measured in erythrocytes and blood plasma.
Results:
An increase of GPx activity in plasma was observed directly after the cold bath, and also an increase of CD level was revealed after the changes in ambient temperature. The level of TBARS after winter swimming decreased both in erythrocytes and in blood plasma. After the sauna bath, TBARS concentration increased in plasma.
Conclusions:
The results provide evidence of constant alacrity of antioxidant system in prevention against harmful action of reactive oxygen species during exposition to changes in ambient temperature in experienced winter swimmers, which results in lack of damage on the cellular level. However, the use of sauna directly after a cold bath may be an additional source of oxidative stress.
REFERENCES (24)
1.
Huttunen P, Kokko L, Ylijukuri V. Winter swimming improves general well – being. Int J Circumpolar Health. 2004; 63: 140–144.
2.
Kolettis TM, Kolettis MT. Winter swimming: healthy or hazardous? Evidence and hypothesis. Med Hypotheses. 2003; 61(6): 654–656.
3.
Brenke R. Winter-swimming – an extreme form of body hardening. Therapeutikon. 1990; 4: 466–472.
4.
Siems WG, Brenke R. Sommerburg O, Grune T. Improved antioxidative protection in winter swimmers. QJMed. 1999; 92: 193–198.
5.
Mila-Kierzenkowska C, Woźniak A, Boraczyński T, Szpinda M, Woź¬niak B, Jurecka A, Szpinda A. Thermal stress and oxidant-antioxidant balance in experienced and novice winter swimmers. J Therm Biol. 2012; 37: 595–601.
6.
Kukkonen-Harjula K, Kauppinen K. Health effects and risks of sauna bathing. Int J Circumpolar Health. 2006; 65: 195–205.
7.
Blagojevic DP. Antioxidant systems in supporting environmental and programmed adaptations to low temperatures. Cryo Letters. 2007; 28(3): 137–150.
9.
Valko M, Leibfritz D, Moncol J, Cronin MTD, Mazur M, Telser J. Free radicals and antioxidants in normal physiological function and human disease. Int J Biochem Cell Biol. 2007; 39: 44–84.
10.
Dahlgren C, Karlson A. Respiratory burst in human neutrophils. J Immun Methods. 1999; 232: 3–14.
11.
Paradowski M, Pędzik A, Rysz J. Stres oksydacyjny a zjawiska patologiczne ustroju. Diagn Lab. 2008; 44: 363–369.
12.
Ravin H. An improved colorimetric enzymatic assay of ceruloplasmin. J Lab Clin Med. 1961; 58: 161–168.
13.
Sergent O, Morel I, Cogrel P, Chevanne M, Pasdeloup N, Brissot P, Lescoat G, Cillard P. Simultaneous measurements of conjugated dienes and free malondialdehyde, used as a micromethod for the evaluations of lipid peroxidation in rat hepatocyte cultures. Chem Phys Lipids. 1993; 65: 133–139.
14.
Aruoma OI. Antioxidant actions of plant foods: use of oxidative DNA damage as a tool for studying antioxidant efficacy. Free Radic Res. 1999; 30(6): 419–427.
15.
Zapora E, Jarocka I. Hemoglobin – source of reactive oxygen species. Post Hig Med Dośw. 2013; 67: 214–220.
16.
Burak Cimen MY. Free radical metabolism in human erythrocytes. Clin Chim Acta. 2008; 390 (1): 1–11.
17.
Mila-Kierzenkowska C, Woźniak A, Drewa G, Jurecka A, Rajewski R, Woźniak B, Rakowski A. Whole-body cryostimulation in kayaker women: A study of the effect of cryogenic temperatures on oxidative stress after the exercise. J Sports Med Phys Fitness. 2009; 49(2): 201–207.
18.
Woźniak A, Woźniak B, Drewa G, Mila- Kierzenkowska C. The effect of whole- body cryostimulation on the prooxidant- antioxidant balance in blood of elite kayakers after training. Eur J Appl Physiol. 2007; 101: 533–537.
19.
Pilch W, Szyguła Z, Pałka T, Cisoń T, Żychowska M. Changes in chosen physiological parameters observed in women during sauna bath after overheating of the body due to excessive temperatures Med Sportiva. 2006; 7(4): 50–53.
20.
Masuda A, Miyata M., Kihara T, Minagoe S, Tei C. Repeated sauna therapy reduces urinary 8 – epi – prostaglandyn F2α. Jpn Heart J. 2004; 45: 297–303.
21.
Zinchuk V, Zhadzko D. Sauna effect on blood oxygen transport and prooxidant – antioxidant balance in athletes. Med Sportiva. 2012; 8(3): 1883–1889.
22.
Uhari M, Pakarinen A., Hietala J, Nurmi T, Kouvalainen K. Serum iron, copper, zinc, ferritin and ceruloplasmin after intense heat exposure. Eur J Appl Physiol Occup Physiol. 1983; 51(3): 331–335.
23.
Wierzbicka D, Gromadzka G. Ceruloplazmina, hefajstyna i cyklopen: trzy multimiedziowe oksydazy uczestniczące w metabolizmie żelaza u człowieka. Postępy Hig Med Dośw. 2014; 68: 912–924.
24.
Chaudiere J, Ferrari-Iliou R. Intracellular antioxidants: from chemical to biochemical mechanisms. Food Chem Toxicol. 1999; 37: 949–962.
Share
RELATED ARTICLE
| eISSN: | 2084-4905 |
| ISSN: | 2083-4543 |
We process personal data collected when visiting the website. The function of obtaining information about users and their behavior is carried out by voluntarily entered information in forms and saving cookies in end devices. Data, including cookies, are used to provide services, improve the user experience and to analyze the traffic in accordance with the Privacy policy. Data are also collected and processed by Google Analytics tool (more).
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
You can change cookies settings in your browser. Restricted use of cookies in the browser configuration may affect some functionalities of the website.
