Impacts of different intensities of exercise on inflammation and hypoxia markers in low altitude

Impacts of different intensities of exercise on inflammation and hypoxia markers in low altitude

Background This study aims to determine and compare the effects of exercise modalities with different intensities on the secretion of key inflammation and hypoxia markers in amateur athletes. Methods Twenty-three athletes with a mean age of 20.1 years, living at low altitude (1850 m) participated in...

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Published in:BMC sports science, medicine & rehabilitation Vol. 13; no. 1; pp. 1 - 145
Main Authors: Baygutalp, Fatih, Buzdağlı, Yusuf, Ozan, Murat, Koz, Mitat, Kılıç Baygutalp, Nurcan, Atasever, Gökhan
Format: Journal Article
Language:English
Published: London BioMed Central Ltd 22-11-2021
BioMed Central
BMC
Subjects:
Adaptation
Altitude
Analysis
Anti-inflammatory cytokine
Athletes
Body composition
Body mass index
C-reactive protein
Cytokines
Exercise
Health
Heart rate
Hypoxia
Inflammation
Interleukins
Maximum oxygen consumption
Metabolism
Physical fitness
Pro-inflammatory cytokine
Proteins
Tumor necrosis factor-TNF
Workloads
United Kingdom > UK
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Summary:Background This study aims to determine and compare the effects of exercise modalities with different intensities on the secretion of key inflammation and hypoxia markers in amateur athletes. Methods Twenty-three athletes with a mean age of 20.1 years, living at low altitude (1850 m) participated in this study. The participants' maximal oxygen consumption values (VO.sub.2 max) were determined with an incremental cycle exercise test as 54.15 [+ or -] 6.14 mL kg min.sup.-1. Athletes performed four protocols: at rest, 50% VO.sub.2 max, 75% VO.sub.2 max and 100% VO.sub.2 max (until exhaustion) with one-week intervals. 50% VO.sub.2 max, 75% VO.sub.2 max sessions were performed continuously for 30 min on a bicycle ergometer and 100% VO.sub.2 max session was performed by cycling until exhaustion. Blood samples were obtained at rest and immediately after each exercise session. Serum tumor necrosis factor alpha (TNF-[alpha]), C-reactive protein (CRP), interleukin-10 (IL-10), and hypoxia inducible factor-1 alpha (HIF-1[alpha]) levels were measured. Results There were significant differences in serum TNF-[alpha] levels in 75% VO.sub.2 max and 100% VO.sub.2 max sessions (489.03 [+ or -] 368.37 and 472.70 [+ or -] 365.21 ng/L, respectively) compared to rest conditions (331.65 [+ or -] 293.52 ng/L). Serum CRP levels of 50% VO.sub.2 max and 75% VO.sub.2 max sessions (1.19 [+ or -] 0.50; 1.07 [+ or -] 0.52 mg/L) were significantly higher than the rest condition (0.74 [+ or -] 0.35 mg/L). There were significant differences in serum IL-10 levels of rest condition and 50% VO.sub.2 max; 50% VO.sub.2 max, and 100% VO.sub.2 max sessions (328.09 [+ or -] 128.87; 446.36 [+ or -] 142.84; 347.44 [+ or -] 135.69; 324.88 [+ or -] 168.06 pg/mL). Serum HIF-1[alpha] levels were significantly higher in 75% VO2 max session compared to rest (1.26 [+ or -] 0.16; 1.08 [+ or -] 0.19 ng/mL) (P < 0.05 for all comparisons). Conclusions Both inflammatory and anti-inflammatory pathway is induced on different exercise intensities. Exercise protocols performed until exhaustion may lead to activation of inflammatory pathways and hypoxia-induced damage. Keywords: Anti-inflammatory cytokine, Exercise, Health, Hypoxia, Pro-inflammatory cytokine
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ISSN:2052-1847
2052-1847
DOI:10.1186/s13102-021-00375-0