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Optimal velocity for maximal power production in non-isokinetic cycling is related to muscle fibre type composition (1996)

Hautier, C. A. ; Linossier, M. T. ; Belli, A. ; [et al.]

Springer

European journal of applied physiology 74 (1996), S. 114-118

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ISSN: 1439-6327

Keywords: Friction loaded cycle ergometer ; Optimal velocity ; Fast-twitch fibres ; Maximal power

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract To determine whether power-velocity relationships obtained on a nonisokinetic cycle ergometer could be related to muscle fibre type composition, ten healthy specifically trained subjects (eight men and two women) performed brief periods of maximal cycling on a friction loaded cycle ergometer. Frictional force and flywheel velocity were recorded at a sampling frequency of 200 Hz. Power output was computed as the product of velocity and inertial plus frictional forces. Force, velocity and power were averaged over each down stroke. Muscle fibre content was determined by biopsy of the vastus lateralis muscle. Maximal down stroke power [14.36 (SD 2.37)W·kg−1] and velocity at maximal power [120 (SD 8) rpm] were in accordance with previous results obtained on an isokinetic cycle ergometer. The proportion of fast twitch fibres expressed in terms of cross sectional area was related to optimal velocity (r = 0.88, P 〈 0.001), to squat jump performance (r = 0.78, P 〈 0.01) and tended to be related to maximal power expressed per kilogram of body mass (r = 0.60, P = 0.06). Squat jump performance was also related to cycling maximal power expressed per kilogram of body mass (r = 0.87, P 〈 0.01) and to optimal velocity (r = 0.86, P 〈 0.01). All these data suggest that the nonisokinetic cycle ergometer is a good tool with which to evaluate the relative contribution of type II fibres to maximal power output. Furthermore, the strong correlation obtained demonstrated that optimal velocity, when related to training status, would appear to be the most accurate parameter to explore the fibre composition of the knee extensor muscle.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00376503

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A dynamometer for evaluation of dynamic muscle work (1995)

Bosco, C. ; Belli, A. ; Astrua, M. ; [et al.]

Springer

European journal of applied physiology 70 (1995), S. 379-386

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ISSN: 1439-6327

Keywords: Dynamic dynamometer ; Gravitational loads ; Force-velocity relationship ; Muscle power ; Muscle sex difference

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The validation of a new dynamometer for evaluation of dynamic muscle work is presented. The device was based on a precise measurement of load displacements of any machine using gravitational loads as external resistance. It allowed, through a sensor consisting of an infrared photo interrupter, the calculation of velocity, force and power during concentric, eccentric and stretch-shortening cycle activity. To validate the dynamometer 33 male and female track and field athletes (12 throwers and 21 jumpers) participated in the study. The throwers (4 women and 8 men) were asked to perform half-squat exercises on a slide machine with a load of 100% of the subject's body mass. The day-to-day reproducibility of half-squat exercises gave a correlation coefficient ofr = 0.88, 0.97 and 0.95 for average push-off force (AF), average push-off velocity (AV), and average push-off power (AP) respectively. Comparison of half-squat measurements was performed against jumping and running test evaluation by the jumpers (7 women and 14 men). The interrelationships among the different variables studied demonstrated a strong correlation between AF, AV and AP and sprinting and jumping parameters (r = 0.53−0.97;P 〈 0.05−0.001). Using values of AF, AV and AP developed in half-squat exercises executed with different loads, ranging from 35% to 210% of the subject's body mass, it was also possible to establish the force-velocity and power-velocity relationships for both male and female jumpers. In any individual case, the maximal error due to the measurement system was calculated to be less than 0.3%, 0.9% and 1.2% for AF, AV, and AP respectively. Given the accuracy of the ergometer, the high reliability found between 2 days of measurements, and the specificity of the results it is suggested that the dynamic dynamometer would be suitable for evaluation of athletes performing specific skills. In addition, because single and multiple joint movements involving appropriate muscle groups can be easily performed, physiological characteristics could be evaluated for both athletic and rehabilitation purposes. Therefore, because of its simplicity of use and application, and its low cost the dynamometer would be suitable for both laboratory and field conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00618487

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Energy cost and running mechanics during a treadmill run to voluntary exhaustion in humans (1998)

Candau, R. ; Belli, A. ; Millet, G. Y. ; [et al.]

Springer

European journal of applied physiology 77 (1998), S. 479-485

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ISSN: 1439-6327

Keywords: Key words Running economy ; Ventilation ; Mechanical work ; Step frequency ; Step variability

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract The aim of the present study was to examine the physiological and mechanical factors which may be concerned in the increase in energy cost during running in a fatigued state. A group of 15 trained triathletes ran on a treadmill at velocities corresponding to their personal records over 3000m [mean 4.53 (SD 0.28) m · s−1] until they felt exhausted. The energy cost of running (C R) was quantified from the net O2 uptake and the elevation of blood lactate concentration. Gas exchange was measured over 1 min firstly during the 3rd–4th min and secondly during the last minute of the run. Blood samples were collected before and after the completion of the run. Mechanical changes of the centre of mass were quantified using a kinematic arm. A significant mean increase [6.9 (SD 3.5)%, P 〈 0.001] in C R from a mean of 4.4 (SD 0.4) J · kg−1 · m−1 to a mean of 4.7 (SD 0.4) J · kg−1 · m−1 was observed. The increase in the O2 demand of the respiratory muscles estimated from the increase in ventilation accounted for a considerable proportion [mean 25.2 (SD 10.4)%] of the increase in CR. A mean increase [17.0 (SD 26.0)%, P 〈 0.05] in the mechanical cost (C M) from a mean of 2.36 (SD 0.23) J · kg−1 · m−1 to a mean of 2.74 (SD 0.55) J · kg−1 · m−1 was also noted. A significant correlation was found between C R and C M in the non-fatigued state (r = 0.68, P 〈 0.01), but not in the fatigued state (r = 0.25, NS). Furthermore, no correlations were found between the changes (from non-fatigued to fatigued state) in C R and the changes in C M suggesting that the increase in C R is not solely dependent on the external work done per unit of distance. Since step frequency decreased slightly in the fatigued state, the internal work would have tended to decrease slightly which would not be compatible with an increase in C R. A stepwise regressions showed that the changes in C R were linked (r = 0.77, P 〈 0.01) to the changes in the variability of step frequency and in the variability of potential cost suggesting that a large proportion of the increase in C R was due to an increase in the step variability. The underlying mechanisms of the relationship between C R and step variability remains unclear.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050363

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