Performing at extreme altitude: muscle cellular and subcellular adaptations.
about
Ultrastructural modifications in the mitochondria of hypoxia-adapted Drosophila melanogasterUnsupervised clustering of gene expression data points at hypoxia as possible trigger for metabolic syndrome.Changes in mitochondrial enzymatic activities of monocytes during prolonged hypobaric hypoxia and influence of antioxidants: A randomized controlled study.Oral Coenzyme Q10 supplementation does not prevent cardiac alterations during a high altitude trek to everest base cAMP.High-altitude physiology and pathophysiology: implications and relevance for intensive care medicine.Upper airway myopathy is not important in the pathophysiology of obstructive sleep apneaLoad management in elite German distance runners during 3-weeks of high-altitude training.Hypoxia: the third wheel between nerve and muscle.Developmental plasticity of mitochondrial function in American alligators, Alligator mississippiensis.Mitochondrial function at extreme high altitude.Physiological and ecological implications of ocean deoxygenation for vision in marine organisms.Caudwell Xtreme Everest: An Overview.Metabolic adaptation of skeletal muscle to high altitude hypoxia: how new technologies could resolve the controversies.Adaptive myogenesis under hypoxia.Serum irisin and myostatin levels after 2 weeks of high-altitude climbing.Molecular factors involved in the control of muscle mass during hypoxia-exposure: the main hypotheses are revisited.Gokyo Khumbu/Ama Dablam Trek 2012: effects of physical training and high-altitude exposure on oxidative metabolism, muscle composition, and metabolic cost of walking in women.Endurance training prevents negative effects of the hypoxia mimetic dimethyloxalylglycine on cardiac and skeletal muscle function.Twenty-eight days of exposure to 3454 m increases mitochondrial volume density in human skeletal muscle.Effect of hypoxia exposure on the phenotypic adaptation in remodelling skeletal muscle submitted to functional overload.Effect of hypoxia exposure on the recovery of skeletal muscle phenotype during regeneration.PEDF protects cardiomyocytes by promoting FUNDC1‑mediated mitophagy via PEDF-R under hypoxic condition.Effects of high altitude on sleep and respiratory system and theirs adaptations.Comments on Point:Counterpoint “Positive effects of intermittent hypoxia (live high:train low) on exercise performance are/are not mediated primarily by augmented red cell volume”
P2860
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P2860
Performing at extreme altitude: muscle cellular and subcellular adaptations.
description
2003 nî lūn-bûn
@nan
2003 թուականի Յուլիսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հուլիսին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@ast
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@en
type
label
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@ast
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@en
prefLabel
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@ast
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@en
P1476
Performing at extreme altitude: muscle cellular and subcellular adaptations.
@en
P2093
Hans Hoppeler
Hans Howald
P2888
P304
P356
10.1007/S00421-003-0872-9
P577
2003-07-25T00:00:00Z