中国组织工程研究2025,Vol.29Issue(32):6866-6876,11.DOI:10.12307/2025.783
高温高湿与低氧环境对运动者能量代谢和骨骼肌氧合的差异
Difference of energy metabolism and skeletal muscle oxygenation in athletes under high temperature,high humidity and low oxygen environment
摘要
Abstract
BACKGROUND:Competitive athletes exercising in high-temperature,high-humidity,or low-oxygen environments experience intensified skeletal muscle deoxygenation and reduced fat oxidation,which can impair athletic performance. OBJECTIVE:To evaluate the impact of high-temperature,high-humidity,and low-oxygen environments on the fat oxidation rates of athletes during incremental load exercise,and to analyze the differences in deoxyhemoglobin kinetic parameters in skeletal muscle,thereby clarifying the relationship between fat oxidation capacity and skeletal muscle oxygenation under varying environmental conditions. METHODS:Twelve male modern pentathlon athletes were recruited for tests under three environmental conditions:normal(23 ℃,RH45%,FiO2=21.0%),high temperature and high humidity(35 ℃,RH70%,FiO2=21.0%),and low oxygen(23 ℃,RH45%,FiO2=15.6%).Resting metabolism and incremental load exercise were tested.Gas exchange data during and post-exercise were collected to calculate fat oxidation rate,carbohydrate oxidation rate,energy expenditure,and excess post-exercise oxygen consumption.Simultaneous measurements of SmO2 and total hemoglobin in the vastus lateralis muscle were used to calculate deoxyhemoglobin(HHb)levels.Deoxyhemoglobin change parameters-linear fittng slope(ΔEHHb),slope before the inflection point(ΔEHHB-1),and slope after the inflection point(ΔEHHB-2)-were determined using a bilinear function model.Fat oxidation curves were fitted using a SIN function model to identify the intensity(FATmax)that induced maximal fat oxidation(MFO),along with the curve's expansion,symmetry,and translation. RESULTS AND CONCLUSION:(1)Energy metabolism:No significant differences in maximal fat oxidation were observed across environments in each group(P>0.05).Compared with the normal environment group,both high temperature and high humidity group and low oxygen group showed significantly decreased time to maximal fat oxidation and FATmax(P<0.05).The percentage of maximal fat oxidation corresponding to peak oxygen uptake was lower in the low oxygen environment group(P<0.05).Fat oxidation was consistently low in the low oxygen environment group during exercise,while in the high temperature and high humidity environment group,it decreased only at higher exercise loads.Additionally,the expansion parameter was significantly reduced in both high temperature and high humidity and low oxygen environment groups(P<0.05).(2)Deoxyhemoglobin dynamics:The ΔEHHb was significantly higher in the high temperature and high humidity environment group,and ΔEHHB-1 was significantly increased in both high temperature and high humidity and low oxygen environment groups(P<0.05).(3)Correlation analysis:ΔEHHb was significantly negatively correlated with symmetry;ΔEHHB-1 was negatively correlated with FATmax and maximal fat oxidation;ΔEHHB-2 was positively correlated with maximal fat oxidation,and V̇O2@BP was positively correlated with symmetry,expansion,and FATmax.(4)These findings indicate that incremental load exercise in high temperature,high humidity,and low oxygen environments accelerates skeletal muscle deoxygenation,thereby inhibiting fat oxidation capacity.Compared with high temperature and high humidity,low oxygen environments may more rapidly disrupt the balance between oxygen delivery and utilization in athletes'skeletal muscle,leading to a greater reliance on anaerobic glycolysis and a consequent reduction in fat oxidation capacity during exercise.关键词
高温高湿环境/低氧环境/能量代谢/最大脂肪氧化率/递增负荷运动/脱氧血红蛋白动力学/竞技体育运动者Key words
high temperature and humidity environment/low oxygen environment/energy metabolism/maximum fat oxidation rate/increasing load movement/deoxyhemoglobin dynamics/competitive sports player分类
医药卫生引用本文复制引用
耿治中,王金昊,曹国欢,谈晨皓,李隆基,邱俊..高温高湿与低氧环境对运动者能量代谢和骨骼肌氧合的差异[J].中国组织工程研究,2025,29(32):6866-6876,11.基金项目
上海市科委课题项目(22dz1204601),项目负责人:邱俊 Shanghai Science and Technology Commission Project,No.22dz1204601(to QJ) (22dz1204601)
