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Precision of ventilatory and gas exchange alterations as a predictor of the anaerobic threshold (1984)

Powers, Scott K. ; Dodd, Stephen ; Garner, Robert

Springer

European journal of applied physiology 52 (1984), S. 173-177

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ISSN: 1439-6327

Keywords: Anaerobic threshold ; Ventilatory threshold ; Exercise ventilation ; Gas exchange ; Blood lactate

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Anaerobic threshold has been defined as the oxygen uptake ( $$\dot V_{{\text{O}}_{\text{2}} }$$ ) at which blood lactate (La) begins to rise systematically during graded exercise (Davis et al. 1982). It has become common practice in the literature to estimate the anaerobic threshold by using ventilatory and/or gas exchange alterations. However, confusion exists as to the validity of this practice. The purpose of this study was to examine the precision with which ventilatory and gas exchange techniques for determining anaerobic threshold predicted the anaerobic threshold resolved by La criteria. The anaerobic threshold was chosen using three criteria: (1) systematic increase in blood La (ATLa), (2) systematic increase in ventilatory equivalent for O2 with no change in the ventilatory equivalent for CO2 ( $${\text{AT}}_{\dot V_{\text{E}} } /\dot V_{{\text{O}}_{\text{2}} }$$ ), and (3) non-linear increase in expired ventilation graphed as a function of $$\dot V_{{\text{O}}_{\text{2}} }$$ ( $${\text{AT}}_{\dot V_{\text{E}} }$$ ). Thirteen trained male subjects performed an incremental cycle ergometer test to exhaustion in which the load was increased by 30 W every 3 minutes. Ventilation, gas exchange measures, and blood samples for La analysis were obtained every 3rd min throughout the test. In five of the thirteen subjects tested the anaerobic threshold determined by ventilatory and gas exchange alterations did not occur at the same $$\dot V_{{\text{O}}_{\text{2}} }$$ as the ATLa. The highest correlation between a gas exchange anaerobic threshold and ATLa was found for $${\text{AT}}_{\dot V_{\text{E}} } /\dot V_{{\text{O}}_{\text{2}} }$$ and was r=0.63 (P〈0.05). These data provide evidence that the ATLa and $${\text{AT}}_{\dot V_{\text{E}} }$$ do not always occur simultaneously and suggest limitations in using ventilatory or gas exchange measures to estimate the ATla.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00433388

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Oxygen uptake kinetics in trained athletes differing in $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ (1985)

Powers, Scott K. ; Dodd, Stephen ; Beadle, Ralph E.

Springer

European journal of applied physiology 54 (1985), S. 306-308

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ISSN: 1439-6327

Keywords: Oxygen uptake kinetics ; $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ ; Exercise metabolism ; Trained athletes ; Gas exchange

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Previous work has shown that when $$\dot V_{{\text{O}}_{\text{2}} }$$ kinetics are compared for endurance trained athletes and untrained subjects, the highly trained athletes have a faster response time. However, it remains to be determined whether the more rapid adjustment of $$\dot V_{{\text{O}}_{\text{2}} }$$ toward steady state in athletes is due to $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ differences or training adaptation alone. One approach to this problem is to study the time course of $$\dot V_{{\text{O}}_{\text{2}} }$$ kinetics at the onset of work in athletes who differ in $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ but have similar training habits. Therefore, the purpose of these experiments was to compare the time course of $$\dot V_{{\text{O}}_{\text{2}} }$$ kinetics at the onset of exercise in athletes with similar training routines but who differ in $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ . Ten subjects ( $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ range 50–70 ml · kg−1 · min−1) performed 6-minutes of cycle ergometer exercise at ∼50% $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ . Ventilation and gas exchange were monitored by open circuit techniques. The data were modeled with a single component exponential function incorporating a time delay, (T D ); $$\Delta \dot V_{{\text{O}}_{{\text{2}}f} } = \Delta \dot V_{{\text{O}}_{2ss} } {\text{ (1}} - e^{ - t - T_D /_{\tau )} }$$ , where Τ is the time constant $$\Delta \dot V_{{\text{O}}_{{\text{2}}f} }$$ is the increase in $$\dot V_{{\text{O}}_{\text{2}} }$$ at time t and $$\Delta \dot V_{{\text{O}}_{{\text{2ss}}} }$$ is the steady-rate increment above resting $$\dot V_{{\text{O}}_{\text{2}} }$$ . Kinetic analysis revealed a range of $$\dot V_{{\text{O}}_{\text{2}} }$$ half times from 21.6 to 36.0 s across subjects with a correlation coefficient of r=−0.80 (p〈0.05) between $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ and $$\dot V_{{\text{O}}_{\text{2}} }$$ half time. These data suggest that in highly trained indicivuals with similar training habits, those with a higher $$\dot V_{{\text{O}}_{{\text{2max}}} }$$ achieve a more rapid $$\dot V_{{\text{O}}_{\text{2}} }$$ adjustment at the onset of work.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00426150

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