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Oxygen uptake during moderate intensity running: response following a single bout of interval training (1998)

James, David V. B. ; Doust, Jonathan H.

Springer

European journal of applied physiology 77 (1998), S. 551-555

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ISSN: 1439-6327

Keywords: Key words Oxygen uptake ; Running ; Training ; Fatigue

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Eight male endurance runners [mean ± (SD): age 25 (6) years; height 1.79 (0.06) m; body mass 70.5 (6.0) kg; % body fat 12.5 (3.2); maximal oxygen consumption (V˙O2max 62.9 (1.7) ml · kg−1 · min−1] performed an interval training session, preceded immediately by test 1, followed after 1 h by test 2, and after 72 h by test 3. The training session was six 800-m intervals at 1 km · h−1 below the velocity achieved at V˙O2max with 3 min of recovery between each interval. Tests 1, 2 and 3 were identical, and included collection of expired gas, measurement of ventilatory frequency (f v ), heart rate (f c), rate of perceived exertion (RPE), and blood lactate concentration ([La−]B) during the final 5 min of 15 min of running at 50% of the velocity achieved at V˙O2max (50% −V˙O2max).␣Oxygen uptake (V˙O2), ventilation (V˙ E ), and respiratory exchange ratio (R) were subsequently determined from duplicate expired gas collections. Body mass and plasma volume changes were measured preceding and immediately following the training session, and before tests 1–3. Subjects ingested water immediately following the training session, the volume of which was determined from the loss of body mass during the session. Repeated measures analysis of variance with multiple comparison (Tukey) was used to test differences between results. No significant differences in body mass or plasma volume existed between the three test stages, indicating that the differences recorded for the measured parameters could not be attributed to changes in body mass or plasma volume between tests, and that rehydration after the interval training session was successful. A significant (P 〈 0.05) increase was found from test 1 to test 2 [mean (SD)] for V˙O2 [2.128 (0.147) to 2.200 (0.140) 1 · min−1], f c [125 (17) to 132 (16) beats · min−1], and RPE [9 (2) to 11 (2)]. A significant (P 〈 0.05) decrease was found for submaximal R [0.89 (0.03) to 0.85 (0.04)]. These results suggest that alterations in V˙O2 during moderate-intensity, constant-velocity running do occur following heavy-intensity endurance running training, and that this is due to factors in addition to changed substrate metabolism towards greater fat utilisation, which could explain only 31% of the increase in V˙O2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050375

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Oxygen uptake during high-intensity running: response following a single bout of interval training (1999)

James, David V. B. ; Doust, Jonathan H.

Springer

European journal of applied physiology 79 (1999), S. 237-243

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Details

ISSN: 1439-6327

Keywords: Key words Oxygen uptake ; Running ; Training ; Fatigue

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Elevated oxygen uptake (V˙O2) during moderate-intensity running following a bout of interval running training has been studied previously. To further investigate this phenomenon, the V˙O2 response to high-intensity exercise was examined following a bout of interval running. Well-trained endurance runners were split into an experimental group [maximum oxygen uptake, V˙O2 max 4.73 (0.39) l · min−1] and a reliability group [V˙O2 max 4.77 (0.26) l · min−1]. The experimental group completed a training session (4 × 800 m at 1 km · h−1 below speed at V˙O2 max , with 3 min rest between each 800-m interval). Five minutes prior to, and 1 h following the training session, subjects completed 6 min 30 s of constant speed, high-intensity running designed to elicit 40% Δ (where Δ is the difference between V˙O2 at ventilatory threshold and V˙O2 max ; tests 1 and 2, respectively). The slow component of V˙O2 kinetics was quantified as the difference between the V˙O2 at 6 min and the V˙O2 at 3 min of exercise, i.e. ΔV˙O2(63). The ΔV˙O2(63) was the same in two identical conditions in the reliability group [mean (SD): 0.30 (0.10) l · min−1 vs 0.32 (0.13) l · min−1]. In the experimental group, the magnitude of the slow component of V˙O2 kinetics was increased in test 2 compared with test 1 by 24.9% [0.27 (0.14) l · min−1 vs 0.34 (0.08) l · min−1, P 〈 0.05]. The increase in ΔV˙O2(63) in the experimental group was observed in the absence of any significant change in body mass, core temperature or blood lactate concentration, either at the start or end of tests 1 or 2. It is concluded that similar mechanisms may be responsible for the slow component of V˙O2 kinetics and for the fatigue following the training session. It has been suggested previously that this mechanism may be linked primarily to changes within the active limb, with the recruitment of alternative and/or additional less efficient fibres.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004210050501

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