No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing

No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing

The aim was to investigate the effect of training, sex, age and selected genes on physiological and performance variables and adaptations before, and during 6 months of training in well-trained cross-country skiers. National-level cross-country skiers were recruited for a 6 months observational stud...

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Main Authors: Jan-Michael Johansen, Sannija Goleva-Fjellet, Arnstein Sunde, Lars Erik Gjerløw, Lars Arne Skeimo, Baard I. Freberg, Mona Sæbø, Jan Helgerud, Øyvind Støren
Format: Article
Language:English
Published: Frontiers Media S.A. 2020-10-01
Series:Frontiers in Physiology
Subjects:
endurance training
skiing performance
training adaptations
double poling
maximal oxygen uptake
lactate threshold
Online Access:https://www.frontiersin.org/articles/10.3389/fphys.2020.581339/full
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language English
format Article
sources DOAJ
author Jan-Michael Johansen
Jan-Michael Johansen
Sannija Goleva-Fjellet
Arnstein Sunde
Lars Erik Gjerløw
Lars Arne Skeimo
Baard I. Freberg
Baard I. Freberg
Baard I. Freberg
Mona Sæbø
Jan Helgerud
Jan Helgerud
Øyvind Støren
spellingShingle Jan-Michael Johansen
Jan-Michael Johansen
Sannija Goleva-Fjellet
Arnstein Sunde
Lars Erik Gjerløw
Lars Arne Skeimo
Baard I. Freberg
Baard I. Freberg
Baard I. Freberg
Mona Sæbø
Jan Helgerud
Jan Helgerud
Øyvind Støren
No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
Frontiers in Physiology
endurance training
skiing performance
training adaptations
double poling
maximal oxygen uptake
lactate threshold
author_facet Jan-Michael Johansen
Jan-Michael Johansen
Sannija Goleva-Fjellet
Arnstein Sunde
Lars Erik Gjerløw
Lars Arne Skeimo
Baard I. Freberg
Baard I. Freberg
Baard I. Freberg
Mona Sæbø
Jan Helgerud
Jan Helgerud
Øyvind Støren
author_sort Jan-Michael Johansen
title No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
title_short No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
title_full No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
title_fullStr No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
title_full_unstemmed No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country Skiing
title_sort no change – no gain; the effect of age, sex, selected genes and training on physiological and performance adaptations in cross-country skiing
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2020-10-01
description The aim was to investigate the effect of training, sex, age and selected genes on physiological and performance variables and adaptations before, and during 6 months of training in well-trained cross-country skiers. National-level cross-country skiers were recruited for a 6 months observational study (pre – post 1 – post 2 test). All participants were tested in an outside double poling time trial (TTDP), maximal oxygen uptake in running (RUN-VO2max), peak oxygen uptake in double poling (DP-VO2peak), lactate threshold (LT) and oxygen cost of double poling (CDP), jump height and maximal strength (1RM) in half squat and pull-down. Blood samples were drawn to genetically screen the participants for the ACTN3 R577X, ACE I/D, PPARGC1A rs8192678, PPARG rs1801282, PPARA rs4253778, ACSL1 rs6552828, and IL6 rs1474347 polymorphisms. The skiers were instructed to train according to their own training programs and report all training in training diaries based on heart rate measures from May to October. 29 skiers completed all testing and registered their training sufficiently throughout the study period. At pre-test, significant sex and age differences were observed in TTDP (p < 0.01), DP-VO2peak (p < 0.01), CDP (p < 0.05), MAS (p < 0.01), LTv (p < 0.01), 1RM half squat (p < 0.01), and 1RM pull-down (p < 0.01). For sex, there was also a significant difference in RUN-VO2max (p < 0.01). No major differences were detected in physiological or performance variables based on genotypes. Total training volume ranged from 357.5 to 1056.8 min per week between participants, with a training intensity distribution of 90–5–5% in low-, moderate- and high-intensity training, respectively. Total training volume and ski-specific training increased significantly (p < 0.05) throughout the study period for the whole group, while the training intensity distribution was maintained. No physiological or performance variables improved during the 6 months of training for the whole group. No differences were observed in training progression or training adaptation between sexes or age-groups. In conclusion, sex and age affected physiological and performance variables, with only a minor impact from selected genes, at baseline. However, minor to no effect of sex, age, selected genes or the participants training were shown on training adaptations. Increased total training volume did not affect physiological and performance variables.
topic endurance training
skiing performance
training adaptations
double poling
maximal oxygen uptake
lactate threshold
url https://www.frontiersin.org/articles/10.3389/fphys.2020.581339/full
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spelling doaj-6c66139d6d35469ca68ea3d44aa28bef2020-11-25T03:56:34ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2020-10-011110.3389/fphys.2020.581339581339No Change – No Gain; The Effect of Age, Sex, Selected Genes and Training on Physiological and Performance Adaptations in Cross-Country SkiingJan-Michael Johansen0Jan-Michael Johansen1Sannija Goleva-Fjellet2Arnstein Sunde3Lars Erik Gjerløw4Lars Arne Skeimo5Baard I. Freberg6Baard I. Freberg7Baard I. Freberg8Mona Sæbø9Jan Helgerud10Jan Helgerud11Øyvind Støren12Department of Natural Sciences and Environmental Health, University of South-Eastern Norway, Bø, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayDepartment of Natural Sciences and Environmental Health, University of South-Eastern Norway, Bø, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayLandslagslegen.no, Top Sports Medical Office, Tønsberg, NorwayThe Norwegian Biathlon Association, Oslo, NorwayDepartment of Natural Sciences and Environmental Health, University of South-Eastern Norway, Bø, NorwayDepartment of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, NorwayMyworkout, Medical Rehabilitation Centre, Trondheim, NorwayDepartment of Sports, Physical Education and Outdoor Studies, University of South-Eastern Norway, Bø, NorwayThe aim was to investigate the effect of training, sex, age and selected genes on physiological and performance variables and adaptations before, and during 6 months of training in well-trained cross-country skiers. National-level cross-country skiers were recruited for a 6 months observational study (pre – post 1 – post 2 test). All participants were tested in an outside double poling time trial (TTDP), maximal oxygen uptake in running (RUN-VO2max), peak oxygen uptake in double poling (DP-VO2peak), lactate threshold (LT) and oxygen cost of double poling (CDP), jump height and maximal strength (1RM) in half squat and pull-down. Blood samples were drawn to genetically screen the participants for the ACTN3 R577X, ACE I/D, PPARGC1A rs8192678, PPARG rs1801282, PPARA rs4253778, ACSL1 rs6552828, and IL6 rs1474347 polymorphisms. The skiers were instructed to train according to their own training programs and report all training in training diaries based on heart rate measures from May to October. 29 skiers completed all testing and registered their training sufficiently throughout the study period. At pre-test, significant sex and age differences were observed in TTDP (p < 0.01), DP-VO2peak (p < 0.01), CDP (p < 0.05), MAS (p < 0.01), LTv (p < 0.01), 1RM half squat (p < 0.01), and 1RM pull-down (p < 0.01). For sex, there was also a significant difference in RUN-VO2max (p < 0.01). No major differences were detected in physiological or performance variables based on genotypes. Total training volume ranged from 357.5 to 1056.8 min per week between participants, with a training intensity distribution of 90–5–5% in low-, moderate- and high-intensity training, respectively. Total training volume and ski-specific training increased significantly (p < 0.05) throughout the study period for the whole group, while the training intensity distribution was maintained. No physiological or performance variables improved during the 6 months of training for the whole group. No differences were observed in training progression or training adaptation between sexes or age-groups. In conclusion, sex and age affected physiological and performance variables, with only a minor impact from selected genes, at baseline. However, minor to no effect of sex, age, selected genes or the participants training were shown on training adaptations. Increased total training volume did not affect physiological and performance variables.https://www.frontiersin.org/articles/10.3389/fphys.2020.581339/fullendurance trainingskiing performancetraining adaptationsdouble polingmaximal oxygen uptakelactate threshold

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