Lieven Vergauwen scite author profile

The role of adenosine receptors in the regulation of muscle glucose uptake by insulin and contractions was studied in isolated rat hindquarters that were perfused with a standard medium containing no insulin or a submaximal concentration of 100 gU/ml. Adenosine receptor antagonism was induced by caffeine or 8-cyclopentyl-1,3-dipropylxantine (CPDPX). Glucose uptake and transport were measured before and during 30 min of electrically induced muscle contractions. Caffeine nor CPDPX affected glucose uptake in resting hindquarters. In contrast, the contraction-induced increase in muscle glucose uptake was inhibited by 30-50% by caffeine, as well as by CPDPX, resulting in a 20-25% decrease in the absolute rate of glucose uptake during contractions, compared with control values. This inhibition was independent of the rate of perfusate flow and only occurred in hindquarters perfused with insulin added to the medium. Thus, adenosine receptor antagonism inhibited glucose uptake during simultaneous exposure to insulin and contractions only. Accordingly, caffeine inhibited 3-0-methylglucose uptake during contractions only in oxidative muscle fibers that are characterized by a high sensitivity to insulin. In conclusion, the present data demonstrate Al receptors to regulate insulin-mediated glucose transport in contracting skeletal muscle. The findings provide evidence that stimulation of sarcolemmic adenosine receptors during contractions is involved in the synergistic stimulation of muscle glucose transport by insulin and by contractions. (J. Clin. Invest. 1994. 93:974-981.)

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Carbohydrate supplementation improves stroke performance in tennis

Vergauwen

Brouns

Hespel

1998

Medicine& Science in Sports & Exercise

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The effect of carbohydrate supplementation on stroke quality during prolonged simulated tennis match-play was investigated. Well-trained tennis palyers reported to the test center three times. At each occasion they performed a pretest, consisting of the leuven Tennis Performance Test (LTPT) and a shuttle run (SHR), which they repeated (posttest) after a 2-h strenuous training session. Throughout the test session, they received in a double blind random order either a placebo drink (P), a carbohydrate solution (0.7 gxkg(-1) BWxh(-1); CHO), or CHO plus a dose of caffeine (5 mg per kg BW). Stroke quality was evaluated during the LTPT by means of measurements of error rate, ball velocity, precision of ball placement, and a velocity-precision (VP) and a velocity-precision-error (VPE) index. Pretest scores were similar during P and CHO. During P, compared with the pretest, stroke quality during the posttest deteriorated (P < 0.05) both for the first service and strokes during defensive rallies and for SHR performance. However, compared with P, the increase in error rate and number of nonreached balls indefensive rallies was smaller (P < 0.05) during CHO. Similarily, CHO attenuated (P < 0.05) the increase in error rate and the decrease in both the VP (P < 0.1) and VPE (P < 0.05) indices for the first service upon fatigue. Furthermore, CHO improved posttest SHR performance. Stroke quality and SHR time were similar during CHO alone and during combined CHO plus caffeine administration, both for the pretest and for the pretest and for the posttest. It is concluded that CHO supplementation improves stroke quality during the final stages of prolonged tennis play. The data prove that CHO intake may facilitate the maintenance of physical quality during long-lasting intermittent exercise to fatigue.

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Evaluation of stroke performance in tennis

Vergauwen

Spaepen

Lefevre

et al. 1998

Medicine& Science in Sports & Exercise

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In the present studies, the Leuven Tennis Performance Test (LTPT), a newly developed test procedure to measure stroke performance in match-like conditions in elite tennis players, was evaluated as to its value for research purposes. The LTPT is enacted on a regular tennis court. It consists of first and second services, and of returning balls projected by a machine to target zones indicated by a lighted sign. Neutral, defensive, and offensive tactical situations are elicited by appropriately programming the machine. Stroke quality is determined from simultaneous measurements of error rate, ball velocity, and precision of ball placement. A velocity/precision (VP) an a velocity/precision/error (VPE) index are also calculated. The validity and sensitivity of the LTPT were determined by verifying whether LTPT scores reflect minor differences in tennis ranking on the one hand and the effects of fatigue on the other hand. Compared with lower ranked players, higher ones made fewer errors (P < 0.05). In addition, stroke velocity was higher (P < 0.05), and lateral stroke precision, VP, and VPE scores were better (P < 0.05) in the latter. Furthermore, fatigue induced by a prolonged tennis load increased (P < 0.05) error rate and decreased (P < 0.05) stroke velocity and the VP and VPE indices. It is concluded that the LTPT is an accurate, reliable, and valid instrument for the evaluation of stroke quality in high-level tennis players.

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Learning to Teach in the Field

Behets¹,

Vergauwen²

2006

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