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Sleep and Breathing
Published in: Sleep and Breathing 2/2008

Open Access 01-05-2008 | Original Article

Low intense physical exercise in normobaric hypoxia leads to more weight loss in obese people than low intense physical exercise in normobaric sham hypoxia

Authors: Nikolaus C. Netzer, Roland Chytra, Thomas Küpper

Published in: Sleep and Breathing | Issue 2/2008

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Abstract

Training in mild to moderate hypoxia (14–17% O2 in breathing air) and extended resting in moderate hypoxia (9–13% O2) have been shown to have effects in animals and humans on lipid and glucose metabolism, appetite loss, and, in part, on body weight. The causality for these effects is not yet known in detail, and the available data in humans from high-altitude and low-pressure chamber studies are scarce. New technical developments by German companies in the production of artificial climates with normobaric hypoxic conditions in larger rooms at reasonable energy costs allow now to perform hypoxia weight loss studies in obese humans with stable experimental conditions and protocols with a sham hypoxia control. Thirty-two obese people were recruited for a mild intense training study in normobaric hypoxia (15 vol.% O2) and normoxia/sham hypoxia (20.1 vol.% O2). Twenty of these [mean age 47.6 years, mean body mass index (BMI) 33.1, 16 m, 4 f) were willing to follow up on an 8-week, three times per week, 90-min low intense physical exercise in their individual fat burning mode, which has been determined by an exercise testing with spiro-ergometry upfront. The subjects were evenly randomized into a hypoxia and sham hypoxia group. The difference of the two groups in weight loss and changes in HBa1C values were analyzed before and after the training period. No nutritional diet was applied. Subjects in the hypoxia group in mean lost significantly more weight than in the sham hypoxia group (Δ1.14 kg vs Δ0.03 kg; p = 0.026). This resulted in a tendency to reduce the BMI more in the hypoxia group (p = 0.326). In the mean, there was no HbA1C exceeding normal values (mean 5.67 and 5.47%), and the HbA1C stayed basically unchanged after the 8-week training. Mild physical exercise three times per week for 90 min in normobaric hypoxia for 8 weeks led to significantly greater weight loss in obese persons than the exercise in sham hypoxia in this, to our knowledge, first sham hypoxia controlled study.
Literature
1.
2.
Roberts AC, Butterfield G, Cymerman A, Reeves J, Wolfel E (1996) Acclimatization to 4.300-m altitude decreases reliance on fat as a substrate. J Appl Physiol 8(4):1762–1771
3.
Losbaugh JE, Loeppky JA, Greene ER (2006) Effects of acute hypobaric hypoxia on resting and postprandial l superior mesenteric artery blood flow. High Alt Med Biol 7:47–53CrossRef
4.
Westerp KR (2001) Energy and water balance at high altitude. News Physiol Sci 16:134–137
5.
Kayser B (1992) Nutrition and high altitude exposure. Int J Sports Med 13(Suppl 1):129–132
6.
Tschopp M, Strasburger CJ, Hartman G et al (1998) Raised leptin levels at high altitude associated with loss of appetite. Lancet 312:1119–1120CrossRef
7.
Guerre-Millo M, Grosfeld A, Issad T (2002) Leptin is a hypoxia inducible gene. Obes Res 10:857–858CrossRef
8.
Simler N, Grosfeld A, Peinnequin A et al (2006) Leptin receptor deficient Zucker rats reduce their food intake in response to hypobaric hypoxia. Am J Physiol Endocrinol Metab 290:E591–E597PubMedCrossRef
9.
Grosfeld A, Zilberfarb V, Turban S et al (2002) Hypoxia increases leptin expression in human PAZ6 adipose cells. Acta Diabetol 45:527–530CrossRef
10.
Yingzhong Y, Droma Y, Rili G, Kubo K (2006) Regulation of body weight by leptin, with special reference to hypoxia induced regulation. Intern Med 45:941–946PubMedCrossRef
11.
Isbary GH (2006) Einfluss von normobarer Hypoxie auf die Fettutilisation bei einer Laufausdauerbelastung. Dissertation zur Erlangung des Doktorgrades der Medizin, Universität Tübingen
12.
Jones N, Robertson D, Kane J, Hart RA (1982) Effect of hypoxia on free fatty acid metabolism during exercise. J Appl Physiol 33(6):733–738
13.
Boyer J, Blume FD (1984) Weight loss and changes in body composition at high altitude. J Appl Physiol 57:1580–1585PubMed
14.
Schobersberger W, Schmid P, Lechleitner M et al (2003) Austrian Moderate Altitude Study 2000 (AMAS 2000). The effects of moderate altitude (1700 m) on cardiovascular and metabolic variables in patients with metabolic syndrome. Eur J Appl Physiol 88:506–514PubMedCrossRef
15.
Schmidt W, Dore S, Helgendorf A, Strauch S (1995) Effects of exercise during normoxia and hypoxia on the growth hormone-insulin-like growth factor I axis. Eur J Appl Physiol 71(5):424–430CrossRef
16.
Strobel G, Neureither M, Bärtsch P (1996) Effect of acute mild hypoxia during exercise on plasma free and sulphoconjugated catecholamines. Eur J Appl Physiol 73(1–2):82–87CrossRef
17.
Richalet JP, Mehidioi H, Rathat C, Vignon P, Keromes A (1998) Acute hypoxia decreases cardiac response to catecholamines in exercising humans. Int J Sports Med 9:157–162
Metadata
Title
Low intense physical exercise in normobaric hypoxia leads to more weight loss in obese people than low intense physical exercise in normobaric sham hypoxia
Authors
Nikolaus C. Netzer
Roland Chytra
Thomas Küpper
Publication date
01-05-2008
Publisher
Springer-Verlag
Published in
Sleep and Breathing / Issue 2/2008
Print ISSN: 1520-9512
Electronic ISSN: 1522-1709
DOI
https://doi.org/10.1007/s11325-007-0149-3

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