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Results: 1 to 20 of 235

Similar articles for PubMed (Select 20466803)

1.

Daily training with high carbohydrate availability increases exogenous carbohydrate oxidation during endurance cycling.

Cox GR, Clark SA, Cox AJ, Halson SL, Hargreaves M, Hawley JA, Jeacocke N, Snow RJ, Yeo WK, Burke LM.

J Appl Physiol (1985). 2010 Jul;109(1):126-34. doi: 10.1152/japplphysiol.00950.2009. Epub 2010 May 13.

2.

Decreased PDH activation and glycogenolysis during exercise following fat adaptation with carbohydrate restoration.

Stellingwerff T, Spriet LL, Watt MJ, Kimber NE, Hargreaves M, Hawley JA, Burke LM.

Am J Physiol Endocrinol Metab. 2006 Feb;290(2):E380-8. Epub 2005 Sep 27.

3.

Skeletal muscle adaptation and performance responses to once a day versus twice every second day endurance training regimens.

Yeo WK, Paton CD, Garnham AP, Burke LM, Carey AL, Hawley JA.

J Appl Physiol (1985). 2008 Nov;105(5):1462-70. doi: 10.1152/japplphysiol.90882.2008. Epub 2008 Sep 4.

4.

Effect of short-term sprint interval training on human skeletal muscle carbohydrate metabolism during exercise and time-trial performance.

Burgomaster KA, Heigenhauser GJ, Gibala MJ.

J Appl Physiol (1985). 2006 Jun;100(6):2041-7. Epub 2006 Feb 9.

5.

The use of carbohydrates during exercise as an ergogenic aid.

Cermak NM, van Loon LJ.

Sports Med. 2013 Nov;43(11):1139-55. doi: 10.1007/s40279-013-0079-0. Review.

PMID:
23846824
6.

Adaptations to short-term high-fat diet persist during exercise despite high carbohydrate availability.

Burke LM, Hawley JA, Angus DJ, Cox GR, Clark SA, Cummings NK, Desbrow B, Hargreaves M.

Med Sci Sports Exerc. 2002 Jan;34(1):83-91.

PMID:
11782652
7.

Fuel substrate turnover and oxidation and glycogen sparing with carbohydrate ingestion in non-carbohydrate-loaded cyclists.

Bosch AN, Weltan SM, Dennis SC, Noakes TD.

Pflugers Arch. 1996 Oct;432(6):1003-10.

PMID:
8781194
8.

Dietary composition influences short-term endurance training-induced adaptations of substrate partitioning during exercise.

Jacobs KA, Paul DR, Geor RJ, Hinchcliff KW, Sherman WM.

Int J Sport Nutr Exerc Metab. 2004 Feb;14(1):38-61.

PMID:
15129929
9.

Metabolic adaptations to a high-fat diet in endurance cyclists.

Goedecke JH, Christie C, Wilson G, Dennis SC, Noakes TD, Hopkins WG, Lambert EV.

Metabolism. 1999 Dec;48(12):1509-17.

PMID:
10599981
10.

Substrate utilization during exercise performed with and without glucose ingestion in female and male endurance trained athletes.

Riddell MC, Partington SL, Stupka N, Armstrong D, Rennie C, Tarnopolsky MA.

Int J Sport Nutr Exerc Metab. 2003 Dec;13(4):407-21.

PMID:
14967866
11.

Fat adaptation in well-trained athletes: effects on cell metabolism.

Yeo WK, Carey AL, Burke L, Spriet LL, Hawley JA.

Appl Physiol Nutr Metab. 2011 Feb;36(1):12-22. doi: 10.1139/H10-089. Review.

PMID:
21326374
12.

The influence of low versus high carbohydrate diet on a 45-min strenuous cycling exercise.

Kavouras SA, Troup JP, Berning JR.

Int J Sport Nutr Exerc Metab. 2004 Feb;14(1):62-72.

PMID:
15129930
13.

Nutritional strategies for promoting fat utilization and delaying the onset of fatigue during prolonged exercise.

Lambert EV, Hawley JA, Goedecke J, Noakes TD, Dennis SC.

J Sports Sci. 1997 Jun;15(3):315-24.

PMID:
9232557
14.

Similar metabolic adaptations during exercise after low volume sprint interval and traditional endurance training in humans.

Burgomaster KA, Howarth KR, Phillips SM, Rakobowchuk M, Macdonald MJ, McGee SL, Gibala MJ.

J Physiol. 2008 Jan 1;586(1):151-60. Epub 2007 Nov 8.

15.

Reduced oxidation rates of ingested glucose during prolonged exercise with low endogenous CHO availability.

Jeukendrup AE, Borghouts LB, Saris WH, Wagenmakers AJ.

J Appl Physiol (1985). 1996 Nov;81(5):1952-7.

16.

Glucose ingestion during endurance training does not alter adaptation.

Akerstrom TC, Fischer CP, Plomgaard P, Thomsen C, van Hall G, Pedersen BK.

J Appl Physiol (1985). 2009 Jun;106(6):1771-9. doi: 10.1152/japplphysiol.91534.2008. Epub 2009 Feb 19.

17.

Carbohydrate loading and metabolism during exercise in men and women.

Tarnopolsky MA, Atkinson SA, Phillips SM, MacDougall JD.

J Appl Physiol (1985). 1995 Apr;78(4):1360-8.

PMID:
7615443
18.

A practical model of low-volume high-intensity interval training induces mitochondrial biogenesis in human skeletal muscle: potential mechanisms.

Little JP, Safdar A, Wilkin GP, Tarnopolsky MA, Gibala MJ.

J Physiol. 2010 Mar 15;588(Pt 6):1011-22. doi: 10.1113/jphysiol.2009.181743. Epub 2010 Jan 25.

19.

Six sessions of sprint interval training increases muscle oxidative potential and cycle endurance capacity in humans.

Burgomaster KA, Hughes SC, Heigenhauser GJ, Bradwell SN, Gibala MJ.

J Appl Physiol (1985). 2005 Jun;98(6):1985-90. Epub 2005 Feb 10.

20.

Interaction of diet and training on endurance performance in rats.

Lee JS, Bruce CR, Spriet LL, Hawley JA.

Exp Physiol. 2001 Jul;86(4):499-508.

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