Effect of increased and maintained frequency of speed endurance training on performance and muscle adaptations in runners
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Effect of increased and maintained frequency of speed endurance training on performance and muscle adaptations in runners. / Skovgaard, Casper; Almquist, Nicki Winfield; Bangsbo, Jens.
In: Journal of Applied Physiology, Vol. 122, No. 1, 2017, p. 48-59.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Effect of increased and maintained frequency of speed endurance training on performance and muscle adaptations in runners
AU - Skovgaard, Casper
AU - Almquist, Nicki Winfield
AU - Bangsbo, Jens
N1 - CURIS 2017 NEXS 018
PY - 2017
Y1 - 2017
N2 - The aim of the study was, in runners accustomed to speed endurance training (SET), to examine the effect of increased and maintained frequency of SET on performance and muscular adaptations. After familiarization (FAM) to SET, eighteen male (n=14) and female (n=4) runners (VO2-max: 57.3±3.4 ml·min(-1); mean±SD) completed twenty sessions of maintained low-frequency (LF; every fourth day; n=7) or high-frequency (HF; every second day; n=11) SET (intervention period; INT). Before FAM as well as before and after INT, subjects completed a series of running tests and a biopsy from m. vastus lateralis was collected. 10-km performance improved (P<0.05) ~3.5% during FAM with no further change during INT. Time to exhaustion at 90% vVO2-max was 15% and 22% longer (P<0.05) during FAM and a further 12% and 16% longer (P<0.05) during INT in HF and LF, respectively. During FAM muscle expression of NHE1 and maximal activity of CS and PFK increased (P<0.05), running economy (RE) improved (P<0.05), and VO2-max was unchanged. During INT both HF and LF increased (P<0.05) muscle expression of NKAβ1 whereas maximal activity of CS and PFK, RE and VO2-max were unchanged. Furthermore, during INT, muscle expression of FXYD1 and SERCA1, and FXYD1 activity increased (P<0.05) in HF, while muscle expression of SERCA2 decreased (P<0.05) in LF. Thus, increased or maintained frequency of SET leads to further improvements in short-term exercise capacity, but not in 10-km running performance. The better short-term exercise capacity may be associated with elevated expression of muscle proteins related to Na(+)/K(+) transportation and Ca(2+) re-uptake.
AB - The aim of the study was, in runners accustomed to speed endurance training (SET), to examine the effect of increased and maintained frequency of SET on performance and muscular adaptations. After familiarization (FAM) to SET, eighteen male (n=14) and female (n=4) runners (VO2-max: 57.3±3.4 ml·min(-1); mean±SD) completed twenty sessions of maintained low-frequency (LF; every fourth day; n=7) or high-frequency (HF; every second day; n=11) SET (intervention period; INT). Before FAM as well as before and after INT, subjects completed a series of running tests and a biopsy from m. vastus lateralis was collected. 10-km performance improved (P<0.05) ~3.5% during FAM with no further change during INT. Time to exhaustion at 90% vVO2-max was 15% and 22% longer (P<0.05) during FAM and a further 12% and 16% longer (P<0.05) during INT in HF and LF, respectively. During FAM muscle expression of NHE1 and maximal activity of CS and PFK increased (P<0.05), running economy (RE) improved (P<0.05), and VO2-max was unchanged. During INT both HF and LF increased (P<0.05) muscle expression of NKAβ1 whereas maximal activity of CS and PFK, RE and VO2-max were unchanged. Furthermore, during INT, muscle expression of FXYD1 and SERCA1, and FXYD1 activity increased (P<0.05) in HF, while muscle expression of SERCA2 decreased (P<0.05) in LF. Thus, increased or maintained frequency of SET leads to further improvements in short-term exercise capacity, but not in 10-km running performance. The better short-term exercise capacity may be associated with elevated expression of muscle proteins related to Na(+)/K(+) transportation and Ca(2+) re-uptake.
KW - Faculty of Science
KW - Speed endurance training
KW - Performance
KW - Muscular adaptations
KW - Exercise capacity
KW - Na+
KW - K+ ATPase
KW - SERCA
U2 - 10.1152/japplphysiol.00537.2016
DO - 10.1152/japplphysiol.00537.2016
M3 - Journal article
C2 - 27856713
VL - 122
SP - 48
EP - 59
JO - Journal of Applied Physiology
JF - Journal of Applied Physiology
SN - 8750-7587
IS - 1
ER -
ID: 169157889