Does the Order of Submaximal Lactate Threshold and Maximal Oxygen Uptake Testing Influence Test Outcomes?
The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures...
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| Published in | Sports (Basel) Vol. 8; no. 6; p. 75 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
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26.05.2020
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| Online Access | Get full text |
| ISSN | 2075-4663 2075-4663 |
| DOI | 10.3390/sports8060075 |
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| Abstract | The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (VO2max) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included VO2, blood lactate (La-b), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: VO2max (74.23 vs. 73.91 mL∙min−1∙kg−1), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same La-b at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that VO2, HR and La-b were higher in the first two stages of the LT test when VO2max was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar VO2max and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single VO2max or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the VO2max test can influence levels of VO2, HR and La-b at the first two stages of the LT test. |
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| AbstractList | The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (VO
) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included VO
, blood lactate (La
), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: VO
(74.23 vs. 73.91 mL∙min
∙kg
), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same La
at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that VO
, HR and La
were higher in the first two stages of the LT test when VO
was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar VO
and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single VO
or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the VO
test can influence levels of VO
, HR and La
at the first two stages of the LT test. The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (VO2max) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included VO2, blood lactate (La-b), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: VO2max (74.23 vs. 73.91 mL∙min-1∙kg-1), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same La-b at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that VO2, HR and La-b were higher in the first two stages of the LT test when VO2max was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar VO2max and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single VO2max or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the VO2max test can influence levels of VO2, HR and La-b at the first two stages of the LT test.The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (VO2max) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included VO2, blood lactate (La-b), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: VO2max (74.23 vs. 73.91 mL∙min-1∙kg-1), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same La-b at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that VO2, HR and La-b were higher in the first two stages of the LT test when VO2max was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar VO2max and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single VO2max or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the VO2max test can influence levels of VO2, HR and La-b at the first two stages of the LT test. The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (VO2max) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included VO2, blood lactate (La-b), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: VO2max (74.23 vs. 73.91 mL∙min−1∙kg−1), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same La-b at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that VO2, HR and La-b were higher in the first two stages of the LT test when VO2max was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar VO2max and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single VO2max or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the VO2max test can influence levels of VO2, HR and La-b at the first two stages of the LT test. The aim of this study was to investigate if the order of submaximal lactate threshold and maximal oxygen uptake testing would influence test outcomes. Twelve well-trained male cross-country skiers (mean age 19.6 years) performed two test sessions within a week in a within-subjects repeated measures with cross-over design study. A maximal oxygen uptake test (V[O.sub.2max]) followed by a lactate threshold (LT) test and vice versa, were performed. The test data included V[O.sub.2], blood lactate ([La.sup.-.sub.b]), heart rate (HR), performance speed, Borg scale (RPE) at all stages and lactate accumulation throughout the whole test protocol including the breaks. No significant effect of testing order was found for: V[O.sub.2max] (74.23 vs. 73.91 mL*[min.sup.-1][kg.sup.-1]), maximal HR (190.7 vs. 189.9 bpm) and speed at LT during uphill running. Three out of four common definitions of LT resulted in the same [La.sup.-.sub.b] at the last two steps, 11 and 12 km/h respectively, in the two protocols. It is worth noting that V[O.sub.2], HR and [La.sup.-.sub.b] were higher in the first two stages of the LT test when V[O.sub.2max] was tested first in the protocol. Well-trained cross-country skiers conclusively attained a similar V[O.sub.2max] and LT in both protocols, and the two tests did not seem to influence each other in terms of the degree of exhaustion that occurs in a single V[O.sub.2max] or an incremental LT test. However, when using a curvilinear function to define the LT, it is important to know that the V[O.sub.2max] test can influence levels of V[O.sub.2], HR and [La.sup.-.sub.b] at the first two stages of the LT test. |
| Audience | Academic |
| Author | van den Tillaar, Roland Iversen, Gaute Torvik, Per-Øyvind |
| AuthorAffiliation | Department of Sports Sciences and Physical Education, Nord University, 7600 Levanger, Norway; roland.v.tillaar@nord.no (R.v.d.T.); gaupaiversen@hotmail.com (G.I.) |
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| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/32466372$$D View this record in MEDLINE/PubMed |
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| Cites_doi | 10.1249/mss.0b013e3180304570 10.1111/j.1600-0838.1991.tb00267.x 10.1016/j.jsams.2018.11.018 10.1007/s40279-013-0045-x 10.1034/j.1600-0838.2002.01161.x 10.1097/00005768-200108000-00020 10.1113/jphysiol.2007.147629 10.1002/9780470693834 10.1139/h03-023 10.1249/00005768-199201000-00007 10.24985/ijass.2011.23.1.212 10.1111/sms.12666 10.1016/S0735-1097(00)01054-8 10.1097/00005768-200001000-00012 10.1378/chest.111.3.787 10.1249/00005768-198205000-00012 |
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| Keywords | lactate threshold exercise physiology maximal oxygen uptake test protocol |
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| SubjectTerms | Analysis Exercise physiology Exercise tests Health aspects lactate threshold Lactates Lung volume measurement maximal oxygen uptake Methods Physiological aspects Physiological research test protocol |
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| Title | Does the Order of Submaximal Lactate Threshold and Maximal Oxygen Uptake Testing Influence Test Outcomes? |
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