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Calcium incorporation by smooth muscle microsomes

Godfraind, T. ; Sturbois, X. ; Verbeke, N.

Amsterdam : Elsevier

Biochimica et Biophysica Acta (BBA)/Biomembranes 455 (1976), S. 254-268

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ISSN: 0005-2736

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Medicine , Physics

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0005-2736(76)90168-1

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Changes in plasma taurine levels after different endurance events (1999)

Ward, R. J. ; Francaux, M. ; Cuisinier, C. ; [et al.]

Springer

Amino acids 16 (1999), S. 71-77

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ISSN: 1438-2199

Keywords: Amino acids ; Taurine ; Marathon ; Endurance exercise

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The sulphonated amino acid taurine increased significantly in the plasma of trained athletes after three endurance exercises of different duration and intensity, a 90 min run on a treadmill at 75% of an individual's VO2 peak, a Marathon, 42.2km and a 100km run, by 19%, 77% and 36%, respectively. Such results indicated that the speed at which the exercise is per formed, referred to as the intensity, rather than the duration of the exercise, correlated with the elevated taurine levels possibly indicating its release from muscle fibres. The plasma amino acid pool decreased significantly in relationship with the duration of the exercise, caused by their utilisation for glucogenesis. The possible sources of the increased plasma taurine are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01318886

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A study of lactate metabolism without tracer during passive and active postexercise recovery in humans (1995)

Francaux, M. ; Jacqmin, P. ; Welle, J. Michotte ; [et al.]

Springer

European journal of applied physiology 72 (1995), S. 58-66

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ISSN: 1439-6327

Keywords: Modelling ; Lactate turnover ; Lactate clearance

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Tracers have been used extensively to study lactate metabolism in humans during rest and exercise. Nevertheless, quantification of in vivo lactate kinetics as measured by lactate tracers remains controversial and new data are necessary to clarify the issue. The present study has developed a simple kinetic model which does not require labelled molecules and which yields proportional and quantitative information on lactate metabolism in humans during postexercise recovery performed at different levels of intensity. Five subjects took part in six experiments each of which began with the same strenuous exercise (StrEx; 1 min, 385 W, 110 rpm). The StrEx of each session was followed by a different intensity of recovery: passive recovery (PR) and active recoveries (AR) with power outputs of 60, 90, 120, 150 and 180 W, respectively. Blood lactate concentration was measured prior to and immediately after StrEX and regularly during the 1st h of recovery. Oxygen uptake ( $$\dot VO_2 $$ ) was measured every 30 s during the whole session. The results showed that the disappearance rate constant (ke) increases abruptly from PR [0.080 (SEM 0.004) min−1] to moderate AR [60W: 0.189 (SEM 0.039) min−1] and decreases slowly during more intense AR [180 W: 0.125 (SEM 0.027) min−1]. The lactate apparent clearance (Cl·F−1) was calculated from the area under the lactate concentration-time curve. The Cls·F−1 increased 1.81 (SEM 0.17) fold from PR to moderate AR (60 W) and only 1.31 (SEM 0.14) from PR to the most intense AR (180 W). Using the model, the apparent lactate production (F″K0) was also calculated. The F″K0 increased regularly following a slightly curvilinear function of $$\dot VO_2 $$ and was 2.61 (SEM 0.53) fold greater during the most intense AR (180 W) than during PR. Because of the lack of data concerning the size of apparent lactate distribution volume (V d), the apparent turnover rate (Rbl) has been presented here related toV d. The Rbl·V d −1 increased also following a slightly curvilinear function of $$\dot VO_2 $$ . The Rbl·V d −1 was 85.90 (SEM 14.42) μmol·min−1·l−1 during PR and reached 314.09 (SEM 153.95) μmol·min−1·l−1 during the most intense AR (180 W). In conclusion the model presented here does not require labelled molecules and firstly makes it possible to follow the proportional change of apparent lactate clearance and apparent lactate production during active postexercise recovery in comparison with passive recovery conditions and secondly to estimate the blood lactate turnover.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00964115

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