Jean-Pierre Pouilly scite author profile

Jean-Pierre Pouilly

4Publications

44Citation Statements Received

90Citation Statements Given

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Affiliations

Jean Monnet University, Centre Hospitalier Universitaire de Saint-Étienne

Publications

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Comparison between maximal power in the power-endurance relationship and maximal instantaneous power

et al. 2005

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The purpose of this study was to analyze the relevance of introducing the maximal power (P(m)) into a critical-power model. The aims were to compare the P(m) with the instantaneous maximal power (P(max)) and to determine how the P(m) affected other model parameters: the critical power ( P(c)) and a constant amount of work performed over P(c)(W'). Twelve subjects [22.9 (1.6) years, 179 (7) cm, 74.1 (8.9) kg, 49.4 (3.6) ml/min/kg] completed one 15 W/min ramp test to assess their ventilatory threshold (VT), five or six constant-power to exhaustion tests with one to measure the maximal accumulated oxygen deficit (MAOD), and six 5-s all-out friction-loaded tests to measure P(max) at 75 rpm, which was the pedaling frequency during tests. The power and time to exhaustion values were fitted to a 2-parameter hyperbolic model (NLin-2), a 3-parameter hyperbolic model (NLin-3) and a 3-parameter exponential model (EXP). The P(m) values from NLin-3 [760 (702) W] and EXP [431 (106) W] were not significantly correlated with the P(max) at 75 rpm [876 (82) W]. The P(c) value estimated from NLin-3 [186 (47) W] was not significantly correlated with the power at VT [225 (32) W], contrary to other models ( P <0.001). The W' from NLin-2 [25.7 (5.7) kJ] was greater than the MAOD [14.3 (2.7) kJ, P < 0.001] with a significant correlation between them (R = 0.76, P <0.01). For NLin-3, computation of W (P > P c), the amount of work done over P(C), yielded results similar to the W' value from NLin-2: 27.8 (7.4) kJ, which correlated significantly with the MAOD (R = 0.72, P <0.01). In conclusion, the P(m) was not related to the maximal instantaneous power and did not improve the correlations between other model parameters and physiological variables.

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A comparison of lactate indices during ramp exercise using modelling techniques and conventional methods

Thomas

Costes

Chatagnon

et al. 2008

Journal of Sports Sciences

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The aim of this study was to compare the lactate indices provided by single- and double-breakpoint models with lactate thresholds obtained with conventional methods. Arterial samples for the determination of lactate concentrations were drawn from eight participants at rest and every minute during a ramp test (15 W x min(-1)) on a cycle ergometer. Lactate thresholds were determined from a blood lactate concentration equal to 4 mM (LT(4)), from an increase of 1 mM above the resting level (Delta1 mM), and from indirect methods using ventilatory parameters. Other indices were computed from the modelling of the lactate curve using an exponential function (LSI), a polynomial function (Dmax), a semi-log model (SLog), a parabola plus delay model (Mod P), and a two-breakpoint model (Mod M). Mod P and Mod M showed poor agreement with the other methods. LT(4), Dmax, LSI, and respiratory exchange ratio equal to 1 were correlated with each other (0.81

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Accumulated Oxygen Deficit during Ramp Exercise

Pouilly

Busso²

2008

Int J Sports Med

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This study aimed to compare oxygen deficit during exhaustive ramp exercise (OD ramp and OD lag) with maximal oxygen deficit during a high-intensity constant-power test (MAOD). OD ramp was estimated from the difference between oxygen demand and actual oxygen uptake. OD lag was estimated using a simple equation assuming a linear increase in oxygen uptake lagging behind metabolic requirement. After a first test providing estimation of P peak, 12 healthy males did two 15 W.min(-1) and two 30 W.min(-1) ramp tests to evaluate in duplicate OD ramp and OD lag and an exhaustive exercise at 105% of P peak to evaluate MAOD. OD ramp from the 15 W.min(-1) tests (1.50 +/- 1.83 and 2.60 +/- 2.12 l) and from the 30 W.min(-1) tests (2.41 +/- 1.00 and 2.72 +/- 1.23 l) did not differ from MAOD (2.33 +/- 0.50 l). Contrary to OD lag estimated from the 15 W.min(-1) tests (2.27 +/- 0.30 and 2.31 +/- 0.31 l), OD lag from the 30 W.min(-1) tests (2.51 +/- 0.34 and 2.52 +/- 0.36 l) was significantly greater than MAOD (p < 0.05). The conclusion is that the oxygen deficit would accumulate progressively during a ramp test until attaining the maximal oxygen deficit. This measurement would not however give reliable index of an individual subject due to the elevated test-retest variability.

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Estimation of the Parameters of the Relationship Between Power and Time to Exhaustion From a Single Ramp Test

Pouilly¹,

Chatagnon²,

Thomas³

et al. 2005

Can. J. Appl. Physiol.

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This study aimed to estimate the power/time relationship from a single ramp test (RT) assuming critical power (Pc) from ventilatory threshold (VT) and energy reserve (W') from total work during RT These estimates from single RT were compared to those from a series of 4 constant power exercises (CPT) and from a series of 4 RT. Only W' from CPT was higher than from the series of RT and from single RT using VT (p < 0.05).

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