Training-Induced Acute Neuromuscular Responses to Military Specific Test during a Six-Month Military Operation
Pihlainen, Kai; Pesola, Arto J.; Helén, Joonas; Häkkinen, Keijo; Finni, Taija; Ojanen, Tommi; Vaara, Jani P.; Santtila, Matti; Raitanen, Jani; Kyröläinen, Heikki (2021)
Pihlainen, Kai
Pesola, Arto J.
Helén, Joonas
Häkkinen, Keijo
Finni, Taija
Ojanen, Tommi
Vaara, Jani P.
Santtila, Matti
Raitanen, Jani
Kyröläinen, Heikki
2021
Tiivistelmä
Limited data are available regarding strength and endurance training adaptations to
occupational physical performance during deployment. This study assessed acute training-induced
changes in neuromuscular (electromyography; EMG) and metabolic (blood lactate, BLa) responses
during a high-intensity military simulation test (MST), performed in the beginning (PRE) and at
the end (POST) of a six-month crisis-management operation. MST time shortened (145 ± 21 vs.
129 ± 16 s, −10 ± 7%, p < 0.001) during the operation. Normalized muscle activity increased from
PRE to POST in the hamstring muscles by 87 ± 146% (116 ± 52 vs. 195 ± 139%EMGMVC, p < 0.001)
and in the quadriceps by 54 ± 81% (26 ± 8 vs. 40 ± 20%EMGMVC, p < 0.001). In addition, higher acute
BLa values were measured after MST during POST. Changes in BLa and EMG suggested an increased
neural input and metabolic rate during POST MST, likely leading to faster performance times at
the end of the operation. High EMG values throughout the different phases of MST suggested that
despite the anaerobic nature of the test, the soldiers were able to maintain their voluntary muscle
activation level until the end of the test. This indicates only limited neural fatigue during the two minute high-intensity military specific performance. While learning effect may explain some part of
the improvement in the MST performance times, combined strength and endurance training three
times per week may improve neuromuscular performance in occupationally relevant tasks.
Keywords: readiness; physical fitness; soldier; occupational performance; electromyography
occupational physical performance during deployment. This study assessed acute training-induced
changes in neuromuscular (electromyography; EMG) and metabolic (blood lactate, BLa) responses
during a high-intensity military simulation test (MST), performed in the beginning (PRE) and at
the end (POST) of a six-month crisis-management operation. MST time shortened (145 ± 21 vs.
129 ± 16 s, −10 ± 7%, p < 0.001) during the operation. Normalized muscle activity increased from
PRE to POST in the hamstring muscles by 87 ± 146% (116 ± 52 vs. 195 ± 139%EMGMVC, p < 0.001)
and in the quadriceps by 54 ± 81% (26 ± 8 vs. 40 ± 20%EMGMVC, p < 0.001). In addition, higher acute
BLa values were measured after MST during POST. Changes in BLa and EMG suggested an increased
neural input and metabolic rate during POST MST, likely leading to faster performance times at
the end of the operation. High EMG values throughout the different phases of MST suggested that
despite the anaerobic nature of the test, the soldiers were able to maintain their voluntary muscle
activation level until the end of the test. This indicates only limited neural fatigue during the two minute high-intensity military specific performance. While learning effect may explain some part of
the improvement in the MST performance times, combined strength and endurance training three
times per week may improve neuromuscular performance in occupationally relevant tasks.
Keywords: readiness; physical fitness; soldier; occupational performance; electromyography
Kokoelmat
- Artikkelit [117]