| scholarly article | Q13442814 |
| P50 | author | Kewei Zhao | Q92146130 |
| P2093 | author name string | Qin Yang | |
| Ru Wang | |||
| Shanshan Guo | |||
| Tiemin Liu | |||
| Chia-Hua Kuo | |||
| Peijie Chen | |||
| Haili Tian | |||
| Yiru Huang | |||
| Shangyu Hong | |||
| P2860 | cites work | Targeting mitochondrial reactive oxygen species as novel therapy for inflammatory diseases and cancers | Q21198861 |
| Effects of Hyperoxia on Oxygen-Related Inflammation with a Focus on Obesity | Q26772288 | ||
| Hypoxic Living and Exercise Training Alter Adipose Tissue Leptin/Leptin Receptor in Rats | Q30008808 | ||
| Multiple univariate data analysis reveals the inulin effects on the high-fat-diet induced metabolic alterations in rat myocardium and testicles in the preobesity state | Q30631477 | ||
| Hypobaric hypoxia causes body weight reduction in obese subjects | Q33445068 | ||
| Hypoxic Conditioning as a New Therapeutic Modality | Q35765535 | ||
| Implications of hypoxic hypometabolism during mammalian ontogenesis | Q35853284 | ||
| Low intense physical exercise in normobaric hypoxia leads to more weight loss in obese people than low intense physical exercise in normobaric sham hypoxia | Q36512656 | ||
| Therapeutic Use of Exercising in Hypoxia: Promises and Limitations | Q36992041 | ||
| Head to Head Comparison of Short-Term Treatment with the NAD(+) Precursor Nicotinamide Mononucleotide (NMN) and 6 Weeks of Exercise in Obese Female Mice. | Q37188040 | ||
| Effect of High-Intensity Training in Normobaric Hypoxia on Thoroughbred Skeletal Muscle. | Q37303270 | ||
| Branched-chain amino acids in liver diseases | Q37334109 | ||
| Living at a Geographically Higher Elevation Is Associated with Lower Risk of Metabolic Syndrome: Prospective Analysis of the SUN Cohort | Q37553258 | ||
| Effects of moderate and severe intermittent hypoxia on vascular endothelial function and haemodynamic control in sedentary men. | Q51066038 | ||
| Metabonomic analysis reveals the CCl4-induced systems alterations for multiple rat organs. | Q51365748 | ||
| What is the most effective exercise protocol to improve cardiovascular fitness in overweight and obese subjects? | Q57826894 | ||
| The effects of aerobic exercise training on oxidant-antioxidant balance, neurotrophic factor levels, and blood-brain barrier function in obese and non-obese men | Q57826900 | ||
| Increasing dietary leucine intake reduces diet-induced obesity and improves glucose and cholesterol metabolism in mice via multimechanisms | Q79953652 | ||
| Hypoxic Training Improves Normoxic Glucose Tolerance in Adolescents with Obesity | Q89164727 | ||
| The role of physical activity and exercise in obesity and weight management: Time for critical appraisal | Q92533804 | ||
| Is hypoxia training good for muscles and exercise performance? | Q37736810 | ||
| Usefulness of combining intermittent hypoxia and physical exercise in the treatment of obesity. | Q37951856 | ||
| Hypoxia and adipose tissue function and dysfunction in obesity. | Q38072900 | ||
| Hypoxia, energy balance and obesity: from pathophysiological mechanisms to new treatment strategies. | Q38095622 | ||
| Normobaric hypoxic conditioning to maximise weight-loss and ameliorate cardio-metabolic health in obese populations: A systematic review | Q39416130 | ||
| Effects of hyperoxia exposure on metabolic markers and gene expression in 3T3-L1 adipocytes | Q42718638 | ||
| Combined NMR and GC-MS analyses revealed dynamic metabolic changes associated with the carrageenan-induced rat pleurisy | Q44263415 | ||
| Effects of exercise training on acclimatization to hypoxia: systemic O2 transport during maximal exercise | Q44495379 | ||
| Effect of prolonged intermittent hypoxia and exercise training on glucose tolerance and muscle GLUT4 protein expression in rats | Q45183269 | ||
| Influences of normobaric hypoxia training on physical fitness and metabolic risk markers in overweight to obese subjects. | Q45960072 | ||
| Improvement of obesity-linked skeletal muscle insulin resistance by strength and endurance training | Q46325550 | ||
| Normobaric hypoxia training causes more weight loss than normoxia training after a 4-week residential camp for obese young adults | Q47195559 | ||
| Exercise training attenuates hepatic inflammation, fibrosis and macrophage infiltration during diet induced-obesity in mice. | Q48534258 | ||
| P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
| P6216 | copyright status | copyrighted | Q50423863 |
| P304 | page(s) | 527 | |
| P577 | publication date | 2019-08-08 | |
| P1433 | published in | Frontiers in Endocrinology | Q27723680 |
| P1476 | title | Hypoxic Training in Obese Mice Improves Metabolic Disorder | |
| P478 | volume | 10 |
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