Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review

Publikation: Beiträge in ZeitschriftenÜbersichtsarbeitenForschung

Standard

Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review. / Warneke, Konstantin; Lohmann, Lars H.; Lima, Camila D. et al.
in: Sports Medicine, Jahrgang 53, Nr. 11, 11.2023, S. 2055-2075.

Publikation: Beiträge in ZeitschriftenÜbersichtsarbeitenForschung

Harvard

Warneke, K, Lohmann, LH, Lima, CD, Hollander, K, Konrad, A, Zech, A, Nakamura, M, Wirth, K, Keiner, M & Behm, DG 2023, 'Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review', Sports Medicine, Jg. 53, Nr. 11, S. 2055-2075. https://doi.org/10.1007/s40279-023-01898-x

APA

Warneke, K., Lohmann, L. H., Lima, C. D., Hollander, K., Konrad, A., Zech, A., Nakamura, M., Wirth, K., Keiner, M., & Behm, D. G. (2023). Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review. Sports Medicine, 53(11), 2055-2075. https://doi.org/10.1007/s40279-023-01898-x

Vancouver

Warneke K, Lohmann LH, Lima CD, Hollander K, Konrad A, Zech A et al. Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review. Sports Medicine. 2023 Nov;53(11):2055-2075. Epub 2023 Aug 9. doi: 10.1007/s40279-023-01898-x

Bibtex

@article{58f64a77bd804447a94414bcf16a79d8,
title = "Physiology of Stretch-Mediated Hypertrophy and Strength Increases: A Narrative Review",
abstract = "Increasing muscle strength and cross-sectional area is of crucial importance to improve or maintain physical function in musculoskeletal rehabilitation and sports performance. Decreases in muscular performance are experienced in phases of reduced physical activity or immobilization. These decrements highlight the need for alternative, easily accessible training regimens for a sedentary population to improve rehabilitation and injury prevention routines. Commonly, muscle hypertrophy and strength increases are associated with resistance training, typically performed in a training facility. Mechanical tension, which is usually induced with resistance machines and devices, is known to be an important factor that stimulates the underlying signaling pathways to enhance protein synthesis. Findings from animal studies suggest an alternative means to induce mechanical tension to enhance protein synthesis, and therefore muscle hypertrophy by inducing high-volume stretching. Thus, this narrative review discusses mechanical tension-induced physiological adaptations and their impact on muscle hypertrophy and strength gains. Furthermore, research addressing stretch-induced hypertrophy is critically analyzed. Derived from animal research, the stretching literature exploring the impact of static stretching on morphological and functional adaptations was reviewed and critically discussed. No studies have investigated the underlying physiological mechanisms in humans yet, and thus the underlying mechanisms remain speculative and must be discussed in the light of animal research. However, studies that reported functional and morphological increases in humans commonly used stretching durations of > 30 min per session of the plantar flexors, indicating the importance of high stretching volume, if the aim is to increase muscle mass and maximum strength. Therefore, the practical applicability seems limited to settings without access to resistance training (e.g., in an immobilized state at the start of rehabilitation), as resistance training seems to be more time efficient. Nevertheless, further research is needed to generate evidence in different human populations (athletes, sedentary individuals, and rehabilitation patients) and to quantify stretching intensity.",
keywords = "Physical education and sports",
author = "Konstantin Warneke and Lohmann, {Lars H.} and Lima, {Camila D.} and Karsten Hollander and Andreas Konrad and Astrid Zech and Masatoshi Nakamura and Klaus Wirth and Michael Keiner and Behm, {David G.}",
note = "Open access funding provided by University of Klagenfurt. Publisher Copyright: {\textcopyright} 2023, The Author(s).",
year = "2023",
month = nov,
doi = "10.1007/s40279-023-01898-x",
language = "English",
volume = "53",
pages = "2055--2075",
journal = "Sports Medicine",
issn = "0112-1642",
publisher = "Adis International Ltd",
number = "11",

}

RIS

TY - JOUR

T1 - Physiology of Stretch-Mediated Hypertrophy and Strength Increases

T2 - A Narrative Review

AU - Warneke, Konstantin

AU - Lohmann, Lars H.

AU - Lima, Camila D.

AU - Hollander, Karsten

AU - Konrad, Andreas

AU - Zech, Astrid

AU - Nakamura, Masatoshi

AU - Wirth, Klaus

AU - Keiner, Michael

AU - Behm, David G.

N1 - Open access funding provided by University of Klagenfurt. Publisher Copyright: © 2023, The Author(s).

PY - 2023/11

Y1 - 2023/11

N2 - Increasing muscle strength and cross-sectional area is of crucial importance to improve or maintain physical function in musculoskeletal rehabilitation and sports performance. Decreases in muscular performance are experienced in phases of reduced physical activity or immobilization. These decrements highlight the need for alternative, easily accessible training regimens for a sedentary population to improve rehabilitation and injury prevention routines. Commonly, muscle hypertrophy and strength increases are associated with resistance training, typically performed in a training facility. Mechanical tension, which is usually induced with resistance machines and devices, is known to be an important factor that stimulates the underlying signaling pathways to enhance protein synthesis. Findings from animal studies suggest an alternative means to induce mechanical tension to enhance protein synthesis, and therefore muscle hypertrophy by inducing high-volume stretching. Thus, this narrative review discusses mechanical tension-induced physiological adaptations and their impact on muscle hypertrophy and strength gains. Furthermore, research addressing stretch-induced hypertrophy is critically analyzed. Derived from animal research, the stretching literature exploring the impact of static stretching on morphological and functional adaptations was reviewed and critically discussed. No studies have investigated the underlying physiological mechanisms in humans yet, and thus the underlying mechanisms remain speculative and must be discussed in the light of animal research. However, studies that reported functional and morphological increases in humans commonly used stretching durations of > 30 min per session of the plantar flexors, indicating the importance of high stretching volume, if the aim is to increase muscle mass and maximum strength. Therefore, the practical applicability seems limited to settings without access to resistance training (e.g., in an immobilized state at the start of rehabilitation), as resistance training seems to be more time efficient. Nevertheless, further research is needed to generate evidence in different human populations (athletes, sedentary individuals, and rehabilitation patients) and to quantify stretching intensity.

AB - Increasing muscle strength and cross-sectional area is of crucial importance to improve or maintain physical function in musculoskeletal rehabilitation and sports performance. Decreases in muscular performance are experienced in phases of reduced physical activity or immobilization. These decrements highlight the need for alternative, easily accessible training regimens for a sedentary population to improve rehabilitation and injury prevention routines. Commonly, muscle hypertrophy and strength increases are associated with resistance training, typically performed in a training facility. Mechanical tension, which is usually induced with resistance machines and devices, is known to be an important factor that stimulates the underlying signaling pathways to enhance protein synthesis. Findings from animal studies suggest an alternative means to induce mechanical tension to enhance protein synthesis, and therefore muscle hypertrophy by inducing high-volume stretching. Thus, this narrative review discusses mechanical tension-induced physiological adaptations and their impact on muscle hypertrophy and strength gains. Furthermore, research addressing stretch-induced hypertrophy is critically analyzed. Derived from animal research, the stretching literature exploring the impact of static stretching on morphological and functional adaptations was reviewed and critically discussed. No studies have investigated the underlying physiological mechanisms in humans yet, and thus the underlying mechanisms remain speculative and must be discussed in the light of animal research. However, studies that reported functional and morphological increases in humans commonly used stretching durations of > 30 min per session of the plantar flexors, indicating the importance of high stretching volume, if the aim is to increase muscle mass and maximum strength. Therefore, the practical applicability seems limited to settings without access to resistance training (e.g., in an immobilized state at the start of rehabilitation), as resistance training seems to be more time efficient. Nevertheless, further research is needed to generate evidence in different human populations (athletes, sedentary individuals, and rehabilitation patients) and to quantify stretching intensity.

KW - Physical education and sports

UR - http://www.scopus.com/inward/record.url?scp=85167345869&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/8c174b5c-77c9-3b3a-8ec9-7756ed76e31f/

U2 - 10.1007/s40279-023-01898-x

DO - 10.1007/s40279-023-01898-x

M3 - Scientific review articles

C2 - 37556026

AN - SCOPUS:85167345869

VL - 53

SP - 2055

EP - 2075

JO - Sports Medicine

JF - Sports Medicine

SN - 0112-1642

IS - 11

ER -

DOI