Effect of Six-Week Resistance and Sensorimotor Training on Trunk Strength and Stability in Elite Adolescent Athletes: A Randomized Controlled Pilot Trial

doi:10.3389/fphys.2022.802315

. 2022 Mar 17:13:802315.

doi: 10.3389/fphys.2022.802315. eCollection 2022.

Effect of Six-Week Resistance and Sensorimotor Training on Trunk Strength and Stability in Elite Adolescent Athletes: A Randomized Controlled Pilot Trial

Steffen Mueller^{1

2}, Juliane Mueller¹, Josefine Stoll², Frank Mayer²

Affiliations

¹ Physiotherapy, Exercise Science and Applied Biomechanics, Department Computer Science - Therapy Sciences, Trier University of Applied Sciences, Trier, Germany.
² University Outpatient Clinic, Sports Medicine and Sports Orthopaedics, University of Potsdam, Potsdam, Germany.

PMID: 35370766
PMCID: PMC8969222
DOI: 10.3389/fphys.2022.802315

Effect of Six-Week Resistance and Sensorimotor Training on Trunk Strength and Stability in Elite Adolescent Athletes: A Randomized Controlled Pilot Trial

Steffen Mueller et al. Front Physiol. 2022.

. 2022 Mar 17:13:802315.

doi: 10.3389/fphys.2022.802315. eCollection 2022.

Authors

Steffen Mueller^{1

2}, Juliane Mueller¹, Josefine Stoll², Frank Mayer²

Affiliations

¹ Physiotherapy, Exercise Science and Applied Biomechanics, Department Computer Science - Therapy Sciences, Trier University of Applied Sciences, Trier, Germany.
² University Outpatient Clinic, Sports Medicine and Sports Orthopaedics, University of Potsdam, Potsdam, Germany.

PMID: 35370766
PMCID: PMC8969222
DOI: 10.3389/fphys.2022.802315

Abstract

Intervention in the form of core-specific stability exercises is evident to improve trunk stability. The purpose was to assess the effect of an additional 6 weeks sensorimotor or resistance training on maximum isokinetic trunk strength and response to sudden dynamic trunk loading (STL) in highly trained adolescent athletes. The study was conducted as a single-blind, 3-armed randomized controlled trial. Twenty-four adolescent athletes (14f/10 m, 16 ± 1 yrs.;178 ± 10 cm; 67 ± 11 kg; training sessions/week 15 ± 5; training h/week 22 ± 8) were randomized into resistance training (RT; n = 7), sensorimotor training (SMT; n = 10), and control group (CG; n = 7). Athletes were instructed to perform standardized, center-based training for 6 weeks, two times per week, with a duration of 1 h each session. SMT consisted of four different core-specific sensorimotor exercises using instable surfaces. RT consisted of four trunk strength exercises using strength training machines, as well as an isokinetic dynamometer. All participants in the CG received an unspecific heart frequency controlled, ergometer-based endurance training (50 min at max. heart frequency of 130HF). For each athlete, each training session was documented in an individual training diary (e.g., level of SMT exercise; 1RM for strength exercise, pain). At baseline (M1) and after 6 weeks of intervention (M2), participants' maximum strength in trunk rotation (ROM:63°) and flexion/extension (ROM:55°) was tested on an isokinetic dynamometer (concentric/eccentric 30°/s). STL was assessed in eccentric (30°/s) mode with additional dynamometer-induced perturbation as a marker of core stability. Peak torque [Nm] was calculated as the main outcome. The primary outcome measurements (trunk rotation/extension peak torque: con, ecc, STL) were statistically analyzed by means of the two-factor repeated measures analysis of variance (α = 0.05). Out of 12 possible sessions, athletes participated between 8 and 9 sessions (SMT: 9 ± 3; RT: 8 ± 3; CG: 8 ± 4). Regarding main outcomes of trunk performance, experimental groups showed no significant pre-post difference for maximum trunk strength testing as well as for perturbation compensation (p > 0.05). It is concluded, that future interventions should exceed 6 weeks duration with at least 2 sessions per week to induce enhanced trunk strength or compensatory response to sudden, high-intensity trunk loading in already highly trained adolescent athletes, regardless of training regime.

Keywords: core; exercise; perturbation; training intervention; trunk stability.

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Conflict of interest statement

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.

Figures

**Figure 2**
Sensorimotor training (SMT) intervention exercises.

**Figure 3**
Absolute values of mean (mean ± SD) peak torque [Nm] for baseline (M1) and post-intervention measurements (M2) for each group in trunk rotation isokinetic concentric, eccentric, and sudden trunk loading (STL) testing.

**Figure 4**
Absolute values of mean (mean ± SD) peak torque [Nm] for baseline (M1) and post-intervention measurements (M2) for each group in trunk extension isokinetic concentric, eccentric, and sudden trunk loading (STL).

See this image and copyright information in PMC

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[1] American College of Sports Medicine (2009). American College of Sports Medicine position stand: progression models in resistance training for healthy adults. Med. Sci. Sports Exerc. 41, 687–708. doi: 10.1249/MSS.0b013e3181915670 - DOI - PubMed

[2] American College of Sports Medicine (2009). American College of Sports Medicine position stand: progression models in resistance training for healthy adults. Med. Sci. Sports Exerc. 41, 687–708. doi: 10.1249/MSS.0b013e3181915670 - DOI - PubMed

[3] Arampatzis A., Laube G., Schroll A., Frank J., Bohm S., Mersmann F. (2021). Perturbation-based exercise for prevention of low-back pain in adolescent athletes. Transl. Sports Med. 2021, 128–137.

[4] Arampatzis A., Laube G., Schroll A., Frank J., Bohm S., Mersmann F. (2021). Perturbation-based exercise for prevention of low-back pain in adolescent athletes. Transl. Sports Med. 2021, 128–137.

[5] Arampatzis A., Schroll A., Catala M. M., Laube G., Schüler S., Dreinhöfer K. (2017). A random-perturbation therapy in chronic non-specific low-back pain patients: a randomised controlled trial. Eur. J. Appl. Physiol. 117, 2547–2560. doi: 10.1007/s00421-017-3742-6, PMID: - DOI - PubMed

[6] Arampatzis A., Schroll A., Catala M. M., Laube G., Schüler S., Dreinhöfer K. (2017). A random-perturbation therapy in chronic non-specific low-back pain patients: a randomised controlled trial. Eur. J. Appl. Physiol. 117, 2547–2560. doi: 10.1007/s00421-017-3742-6, PMID: - DOI - PubMed

[7] Borghuis J., Hof A. L., Lemmink K. A. P. M. (2008). The importance of sensory-motor control in providing core stability: implications for measurement and training. Sports Med. 38, 893–916. doi: 10.2165/00007256-200838110-00002, PMID: - DOI - PubMed

[8] Borghuis J., Hof A. L., Lemmink K. A. P. M. (2008). The importance of sensory-motor control in providing core stability: implications for measurement and training. Sports Med. 38, 893–916. doi: 10.2165/00007256-200838110-00002, PMID: - DOI - PubMed

[9] Calatayud J., Borreani S., Martin J., Martin F., Flandez J., Colado J. C. (2015). Core muscle activity in a series of balance exercises with different stability conditions. Gait Posture 42, 186–192. doi: 10.1016/j.gaitpost.2015.05.008, PMID: - DOI - PubMed

[10] Calatayud J., Borreani S., Martin J., Martin F., Flandez J., Colado J. C. (2015). Core muscle activity in a series of balance exercises with different stability conditions. Gait Posture 42, 186–192. doi: 10.1016/j.gaitpost.2015.05.008, PMID: - DOI - PubMed

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Effect of Six-Week Resistance and Sensorimotor Training on Trunk Strength and Stability in Elite Adolescent Athletes: A Randomized Controlled Pilot Trial

Affiliations

Effect of Six-Week Resistance and Sensorimotor Training on Trunk Strength and Stability in Elite Adolescent Athletes: A Randomized Controlled Pilot Trial

Authors

Affiliations

Abstract

Conflict of interest statement

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References

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