Search Results - Metabolites
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Metabolic phenotyping from whole-blood responses to a standardized exercise test may discriminate for physiological, performance, and illness outcomes: A pilot study in highly-trai...
Karlsson, Ø., Govus, A. D., McGawley, K., Hanstock, H. G.Published in Sports Medicine - Open (2024)“…Orthogonal partial least squares-discriminant analyses (OPLS-DA) followed by enrichment analyses were used to identify metabolic phenotypes of athlete groups with specific physiological, performance, and illness characteristics. Results Blood metabolite phenotypes were significantly different after the standardized exercise test compared to rest for metabolites involved in energy, purine, and nucleotide metabolism (all OPLS-DA p < 0.001). …”
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The effect of serum hormone concentrations on double poling sprint and countermovement jump performance: the female endurance athlete (FENDURA) project
Osborne, J. O., Taylor, M., Welde, B., Morseth, B., Andersson, E., Fuskevåg, O.-M., Grimnes, G., Sandbakk, Ø., Noordhof, D.Published in 9th International Congress on Science and Skiing, March 18 - 22, 2023, Saalbach-Hinterglemm, Austria (2023)“…Higher concentrations of cortisol and its metabolites (11-dexycortisol, 21-deoxycortisol, corticosterone) were associated with impaired double poling sprint performance (p < .001 to p = .046). …”
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The impact of wingate and progressive tests on homocysteine, vitamin b6, b12 and folic acid levels in athletes' blood
Murawska-Cialowicz, E.Published in Central European Journal of Sport Sciences and Medicine (2014)“…Homocysteine is an indirect metabolite of methionine metabolism, as well as of creatinine, and it plays an important role in many biochemical processes. …”
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SKI-ERG training for enhancing anaerobic glycolysis in cross-country skiers
Bakhareva, A. S., Aminov, A. S., Latypova, E. F., Savinykh, E. Y., Cherepanov, V. S.Published in Journal of Physical Education and Sport (2021)“…It aims to avoid excessive accumulation of metabolites due to local work, which allows to control the power drop. …”
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The biomarkers of oxidative stress in young cross-country skiers
Karvonen, H., Kallio, T., Tervo, P., Mäki, M., Käsmä, J., Kilpeläinen, P., Virtanen, V.Published in 3rd International Congress on Science and Nordic Skiing - ICSNS 2015. 5-8 June 2015, Vuokatti, Finland (2015)“…Oxidative stress can be quantified by measuring metabolites formed by oxidation. Several metabolites have been introduced in the literature, such as the carbonyl groups, isoprostanes and 8- hydroxydeoxyguanosine (8-oxodG) which can be used to estimate the oxidation of proteins, lipids and DNA, respectively. …”
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The effects of prior high intensity double poling on subsequent diagonal stride skiing characteristics
Björklund, G., Holmberg, H. C., Stöggl, T.Published in SpringerPlus (2015)“…Cardio-respiratory responses were monitored continuously and gases and metabolites in blood from the a. femoralis, v. femoralis and v. subclavia determined. …”
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No excess VO2 during whole-body high intensity exercise in well-trained cross-country skiers
Björklund, G., Stöggl, T., Holmberg, H. C.Published in 17th Annual Congress of the European College of Sport Science (ECSS), Bruges, 4. -7. July 2012 (2012)“…Cardio-respiratory data was obtained continuously and determination of blood gases and metabolites from a. femoralis, v. femoralis and v. subclavia. …”
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The relationship between oxygen extraction in the arms and legs to force and exercise intensity in diagonal skiing
Björklund, G., Stöggl, T., Carlsson, L., Dvoren, L., Holmberg, H. C.Published in 14th annual Congress of the European College of Sport Science, Oslo/Norway, June 24-27, 2009, Book of Abstracts (2009)“…Cardiorespiratory data were collected continuously, along with determination of blood gases and metabolites from a. femoralis, v. femoralis and v. subclavia. …”