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Items: 1 to 20 of 110

1.

Four weeks of normobaric "live high-train low" do not alter muscular or systemic capacity for maintaining pH and K⁺ homeostasis during intense exercise.

Nordsborg NB, Siebenmann C, Jacobs RA, Rasmussen P, Diaz V, Robach P, Lundby C.

J Appl Physiol (1985). 2012 Jun;112(12):2027-36. doi: 10.1152/japplphysiol.01353.2011. Epub 2012 Mar 29.

PMID:
22461443
2.

Interspersed normoxia during live high, train low interventions reverses an early reduction in muscle Na+, K +ATPase activity in well-trained athletes.

Aughey RJ, Clark SA, Gore CJ, Townsend NE, Hahn AG, Kinsman TA, Goodman C, Chow CM, Martin DT, Hawley JA, McKenna MJ.

Eur J Appl Physiol. 2006 Oct;98(3):299-309. Epub 2006 Aug 25.

PMID:
16932967
3.

Chronic intermittent hypoxia and incremental cycling exercise independently depress muscle in vitro maximal Na+-K+-ATPase activity in well-trained athletes.

Aughey RJ, Gore CJ, Hahn AG, Garnham AP, Clark SA, Petersen AC, Roberts AD, McKenna MJ.

J Appl Physiol (1985). 2005 Jan;98(1):186-92. Epub 2004 Mar 19.

PMID:
15033968
4.

Endurance, aerobic high-intensity, and repeated sprint cycling performance is unaffected by normobaric "Live High-Train Low": a double-blind placebo-controlled cross-over study.

Bejder J, Andersen AB, Buchardt R, Larsson TH, Olsen NV, Nordsborg NB.

Eur J Appl Physiol. 2017 May;117(5):979-988. doi: 10.1007/s00421-017-3586-0. Epub 2017 Mar 22.

PMID:
28332025
5.

"Live high-train low" using normobaric hypoxia: a double-blinded, placebo-controlled study.

Siebenmann C, Robach P, Jacobs RA, Rasmussen P, Nordsborg N, Diaz V, Christ A, Olsen NV, Maggiorini M, Lundby C.

J Appl Physiol (1985). 2012 Jan;112(1):106-17. doi: 10.1152/japplphysiol.00388.2011. Epub 2011 Oct 27.

PMID:
22033534
6.

The role of haemoglobin mass on VO(2)max following normobaric 'live high-train low' in endurance-trained athletes.

Robach P, Siebenmann C, Jacobs RA, Rasmussen P, Nordsborg N, Pesta D, Gnaiger E, Díaz V, Christ A, Fiedler J, Crivelli N, Secher NH, Pichon A, Maggiorini M, Lundby C.

Br J Sports Med. 2012 Sep;46(11):822-7. doi: 10.1136/bjsports-2012-091078. Epub 2012 Jul 12.

PMID:
22790809
7.

Live high:train low increases muscle buffer capacity and submaximal cycling efficiency.

Gore CJ, Hahn AG, Aughey RJ, Martin DT, Ashenden MJ, Clark SA, Garnham AP, Roberts AD, Slater GJ, McKenna MJ.

Acta Physiol Scand. 2001 Nov;173(3):275-86.

PMID:
11736690
8.

Effect of two different intense training regimens on skeletal muscle ion transport proteins and fatigue development.

Mohr M, Krustrup P, Nielsen JJ, Nybo L, Rasmussen MK, Juel C, Bangsbo J.

Am J Physiol Regul Integr Comp Physiol. 2007 Apr;292(4):R1594-602. Epub 2006 Dec 28.

PMID:
17194727
9.

Sprint training enhances ionic regulation during intense exercise in men.

McKenna MJ, Heigenhauser GJ, McKelvie RS, MacDougall JD, Jones NL.

J Physiol. 1997 Jun 15;501 ( Pt 3):687-702.

10.

Effect of intensified training on muscle ion kinetics, fatigue development, and repeated short-term performance in endurance-trained cyclists.

Gunnarsson TP, Christensen PM, Thomassen M, Nielsen LR, Bangsbo J.

Am J Physiol Regul Integr Comp Physiol. 2013 Oct 1;305(7):R811-21. doi: 10.1152/ajpregu.00467.2012. Epub 2013 Jul 24.

PMID:
23883682
11.

Effects of high-intensity intermittent training on potassium kinetics and performance in human skeletal muscle.

Nielsen JJ, Mohr M, Klarskov C, Kristensen M, Krustrup P, Juel C, Bangsbo J.

J Physiol. 2004 Feb 1;554(Pt 3):857-70. Epub 2003 Nov 21.

12.

Effects of live high, train low hypoxic exposure on lactate metabolism in trained humans.

Clark SA, Aughey RJ, Gore CJ, Hahn AG, Townsend NE, Kinsman TA, Chow CM, McKenna MJ, Hawley JA.

J Appl Physiol (1985). 2004 Feb;96(2):517-25. Epub 2003 Sep 26.

PMID:
14514705
13.

Effect of additional speed endurance training on performance and muscle adaptations.

Gunnarsson TP, Christensen PM, Holse K, Christiansen D, Bangsbo J.

Med Sci Sports Exerc. 2012 Oct;44(10):1942-8. doi: 10.1249/MSS.0b013e31825ca446.

PMID:
22617392
14.

Reduced volume and increased training intensity elevate muscle Na+-K+ pump alpha2-subunit expression as well as short- and long-term work capacity in humans.

Bangsbo J, Gunnarsson TP, Wendell J, Nybo L, Thomassen M.

J Appl Physiol (1985). 2009 Dec;107(6):1771-80. doi: 10.1152/japplphysiol.00358.2009. Epub 2009 Oct 1.

PMID:
19797693
15.

Effect of dexamethasone on skeletal muscle Na+,K+ pump subunit specific expression and K+ homeostasis during exercise in humans.

Nordsborg N, Ovesen J, Thomassen M, Zangenberg M, Jøns C, Iaia FM, Nielsen JJ, Bangsbo J.

J Physiol. 2008 Mar 1;586(5):1447-59. doi: 10.1113/jphysiol.2007.143073. Epub 2008 Jan 3.

16.

Comparison of "Live High-Train Low" in normobaric versus hypobaric hypoxia.

Saugy JJ, Schmitt L, Cejuela R, Faiss R, Hauser A, Wehrlin JP, Rudaz B, Delessert A, Robinson N, Millet GP.

PLoS One. 2014 Dec 17;9(12):e114418. doi: 10.1371/journal.pone.0114418. eCollection 2014. Erratum in: PLoS One. 2015;10(7):e0133091.

17.

Changes in performance, maximal oxygen uptake and maximal accumulated oxygen deficit after 5, 10 and 15 days of live high:train low altitude exposure.

Roberts AD, Clark SA, Townsend NE, Anderson ME, Gore CJ, Hahn AG.

Eur J Appl Physiol. 2003 Jan;88(4-5):390-5. Epub 2002 Nov 7.

PMID:
12527968
18.

"Live High-Train Low and High" Hypoxic Training Improves Team-Sport Performance.

Brocherie F, Millet GP, Hauser A, Steiner T, Rysman J, Wehrlin JP, Girard O.

Med Sci Sports Exerc. 2015 Oct;47(10):2140-9. doi: 10.1249/MSS.0000000000000630.

PMID:
25668402
19.

Reduced volume but increased training intensity elevates muscle Na+-K+ pump alpha1-subunit and NHE1 expression as well as short-term work capacity in humans.

Iaia FM, Thomassen M, Kolding H, Gunnarsson T, Wendell J, Rostgaard T, Nordsborg N, Krustrup P, Nybo L, Hellsten Y, Bangsbo J.

Am J Physiol Regul Integr Comp Physiol. 2008 Mar;294(3):R966-74. Epub 2007 Dec 19.

PMID:
18094063
20.

Sea-level exercise performance following adaptation to hypoxia: a meta-analysis.

Bonetti DL, Hopkins WG.

Sports Med. 2009;39(2):107-27. doi: 10.2165/00007256-200939020-00002.

PMID:
19203133

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