Steady-state acid-base response at exercise levels close to maximum lactate steady state

Clinical Journal of Sport Medicine

Volumn 16, Issue 3, 2006, Pages 244-246

  Peinado, Pedro J B ^a,d   Di Salvo, Valter ^b   Pigozzi, Fabio ^b   Bermúdez, Ana I P ^a   Peinado Lozano, Ana B ^a   Calderón Montero, Francisco J ^a   Maffulli, Nicola ^c  

^a UNIVERSIDAD POLITÉCNICA DE MADRID   (Spain)

^b UNIVERSITY OF ROME FORO ITALICO   (Italy)

^c KEELE UNIVERSITY SCHOOL OF MEDICINE   (United Kingdom)

^d Universidad Politécnica de Madrid   (Spain)

Author keywords

Acid base balance; Exercise; Hydrogenion concentration; Steady state

Indexed keywords

BICARBONATE; LACTIC ACID; SODIUM;

ACID BASE BALANCE; ADULT; ARTICLE; BICARBONATE BLOOD LEVEL; BODY HEIGHT; BODY WEIGHT; CAPILLARY BLOOD; CARBON DIOXIDE TENSION; CONCENTRATION (PARAMETERS); HUMAN; HUMAN EXPERIMENT; LABORATORY; LACTATE BLOOD LEVEL; MALE; PH; PRIORITY JOURNAL; SODIUM BLOOD LEVEL; STATISTICAL SIGNIFICANCE; STEADY STATE; STUDENT; TREADMILL EXERCISE; UNIVERSITY;

ACID-BASE EQUILIBRIUM; ADULT; ANAEROBIC THRESHOLD; BLOOD CHEMICAL ANALYSIS; BLOOD GAS ANALYSIS; EXERCISE; HUMANS; LACTIC ACID; MALE;

EID: 33745272280     PISSN: 1050642X     EISSN: None     Source Type: Journal    
DOI: 10.1097/00042752-200605000-00010     Document Type: Article

References (10)

1. Foxdal P, Sjodin A, Sjodin B. Comparison of blood lactate concentrations obtained during incremental and constant intensity exercise. Int J Sports Med. 1996;17:360-365.
2. Billat V. Marathon race is run around the maximal lactate steady state velocity (vMLSS). 10 Annual Congress of the European College of Sport Science-2005, Belgrade, 2005.
3. Kanauchi M, Ishikawa H. Acid-base balance during exercise. Nippon Rinsho. 1992;50:2254-2259.
4. Beneke R, von Duvillard SP. Determination of maximal lactate steady state response in selected sports events. Med Sci Sports Exerc. 1996;28:241-246.
5. Harnish CR, Swensen TC, Pate RR. Methods for estimating the maximal lactate steady state in trained cyclists. Med Sci Sports Exerc. 2001;33:1052-1055.
6. Swensen TC, Harnish CR, Beitman L, et al. Noninvasive estimation of the maximal lactate steady state in trained cyclists. Med Sci Sports Exerc. 1999;31:742-746.
7. Baron B, Dekerle J, Robin S, et al. Maximal lactate steady state does not correspond to a complete physiological steady state. Int J Sports Med. 2003;24:582-587.
8. Myers J, Ashley E. Dangerous curves. A perspective on exercise, lactate, and the anaerobic threshold. Chest. 1997;111:787-795.
9. Gaskill SE, Ruby BC, Walker AJ, et al. Validity and reliability of combining three methods to determine ventilatory threshold. Med Sci Sports Exerc. 2001;33:1841-1848.
10. Cabrera ME, Saidel GM, Calan SC. Lactate metabolism during exercise: analysis by an integrative systems model. Am J Physiol. 1999;277:R1522-R1536.