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Items: 1 to 20 of 177

1.

Energy system contribution to 1500- and 3000-metre track running.

Duffield R, Dawson B, Goodman C.

J Sports Sci. 2005 Oct;23(10):993-1002.

PMID:
16194976
2.

Energy system contribution to 400-metre and 800-metre track running.

Duffield R, Dawson B, Goodman C.

J Sports Sci. 2005 Mar;23(3):299-307.

PMID:
15966348
3.

Energy system contribution during 200- to 1500-m running in highly trained athletes.

Spencer MR, Gastin PB.

Med Sci Sports Exerc. 2001 Jan;33(1):157-62.

PMID:
11194103
4.

Energy system contributions in middle-distance running events.

Hill DW.

J Sports Sci. 1999 Jun;17(6):477-83.

PMID:
10404496
5.

Energy system contribution to 100-m and 200-m track running events.

Duffield R, Dawson B, Goodman C.

J Sci Med Sport. 2004 Sep;7(3):302-13.

PMID:
15518295
6.

Accumulated oxygen deficit and short-distance running performance.

Ramsbottom R, Nevill AM, Nevill ME, Newport S, Williams C.

J Sports Sci. 1994 Oct;12(5):447-53.

PMID:
7799473
7.
8.
9.

Energy system interaction and relative contribution during maximal exercise.

Gastin PB.

Sports Med. 2001;31(10):725-41. Review.

PMID:
11547894
10.

Off seasonal and pre-seasonal assessment of circulating energy sources during prolonged running at the anaerobic threshold in competitive triathletes.

Knoepfli B, Riddell MC, Ganzoni E, Burki A, Villiger B, von Duvillard SP.

Br J Sports Med. 2004 Aug;38(4):402-7.

11.
12.

Energy conversion rates during sprinting with an emphasis on the performance of female athletes.

Ward-Smith AJ, Radford PF.

J Sports Sci. 2000 Oct;18(10):835-43.

PMID:
11055819
13.

Post-competition blood lactate concentrations as indicators of anaerobic energy expenditure during 400-m and 800-m races.

Lacour JR, Bouvat E, Barthélémy JC.

Eur J Appl Physiol Occup Physiol. 1990;61(3-4):172-6.

PMID:
2282899
14.

Modelling of aerobic and anaerobic energy production in middle-distance running.

Busso T, Chatagnon M.

Eur J Appl Physiol. 2006 Aug;97(6):745-54.

PMID:
16838187
15.

Pattern of energy expenditure during simulated competition.

Foster C, De Koning JJ, Hettinga F, Lampen J, La Clair KL, Dodge C, Bobbert M, Porcari JP.

Med Sci Sports Exerc. 2003 May;35(5):826-31.

PMID:
12750593
16.

Comparison of net anaerobic energy utilisation estimated by plasma lactate accumulation rate and accumulated oxygen deficit in Thoroughbred horses.

Ohmura H, Mukai K, Takahashi T, Matsui A, Hiraga A, Jones JH.

Equine Vet J Suppl. 2010 Nov;(38):62-9. doi: 10.1111/j.2042-3306.2010.00261.x.

PMID:
21058984
17.

The relative contributions of anaerobic and aerobic energy supply during track 100-, 400- and 800-m performance.

Nevill AM, Ramsbottom R, Nevill ME, Newport S, Williams C.

J Sports Med Phys Fitness. 2008 Jun;48(2):138-42.

PMID:
18427406
18.

Peak oxygen deficit predicts sprint and middle-distance track performance.

Weyand PG, Cureton KJ, Conley DS, Sloniger MA, Liu YL.

Med Sci Sports Exerc. 1994 Sep;26(9):1174-80.

PMID:
7808253
19.

Respiratory gas exchange and lactate measures during competitive orienteering.

Smekal G, Von Duvillard SP, Pokan R, Lang K, Baron R, Tschan H, Hofmann P, Bachl N.

Med Sci Sports Exerc. 2003 Apr;35(4):682-9.

PMID:
12673154
20.

Anaerobic and aerobic energy system contribution to 400-m flat and 400-m hurdles track running.

Zouhal H, Jabbour G, Jacob C, Duvigneau D, Botcazou M, Ben Abderrahaman A, Prioux J, Moussa E.

J Strength Cond Res. 2010 Sep;24(9):2309-15. doi: 10.1519/JSC.0b013e3181e31287.

PMID:
20703164

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