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"Köpfe" der aktuellen Meldungen:

Theresa Helena Benezeder

Andrea Renate Teufelberger

Natascha Berger

Bettina Amtmann

Katharina Artinger

Martina Kollmann

Natalie Bordag

Ursula Hiden

Isabella Perchthaler

Regina Roller-Wirnsberger

Johannes Nikolaus Woltsche

Mahmoud Abdellatif

Christoph Suppan

Clemens Painsi

Alexander Mahnert

Amin El-Heliebi

Martin Hönigl

Robert Sucher

Harald Sourij

Simon Sedej

Michael Khalil

Christian Enzinger

Wolfgang Weger

Slave Trajanoski

Philipp Metnitz

Peter Wolf

Gewählte Publikation:

SHR Neuro Krebs Kardio Lipid Stoffw Microb

Warneke, K; Afonso, J; Thomas, E; Rittweger, J; Konrad, A; Moser, O; Lohmann, LH; Zech, A; Schoenfeld, BJ; Behm, DG.
Implications and Applications of Stretch-Mediated Hypertrophy in Therapy, Rehabilitation and Athletic Training-An Outlook to Future Potential Applications.
Sports Med. 2025; Doi: 10.1007/s40279-025-02237-y
Web of Science PubMed FullText FullText_MUG

 

Co-Autor*innen der Med Uni Graz

Moser Othmar

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Abstract:

Muscle strength and hypertrophy are of high importance for almost every sport, but also for more general prevention and therapeutical approaches. While the most common way to enhance functional and structural muscle capacities is resistance training, there are scenarios in which a resistance training routine may not be feasible or may even be contraindicated. Recently published works showed the potential of high-volume static stretching programs when it comes to promoting muscle strength and hypertrophy, albeit with comparatively long stretching durations per bout in comparison with resistance training. Therefore, there is limited practical applicability of this training approach for healthy participants with access to dynamic training facilities and supervised training. However, there are potential settings in which stretch-mediated hypertrophy could be useful and should be investigated. This current opinion paper explores such potential settings, including in immobilization-induced atrophy, in patients with type 2 diabetes, and as a supplement to common resistance training routines to increase the accumulated volume of mechanical overload of the muscle in healthy or athletic populations. Static stretching might also be used to counteract atrophy in spaceflight because other forms of training that may induce sufficient levels of mechanical strain seem infeasible or impractical. Thus, we explore the potential applications of static stretching routines while considering the feasibility and opportunity for their practical implementation. Consequently, this current opinion paper provides a demand for further investigations of static stretch-mediated adaptations as a potential passive alternative with a focus on therapy and prevention.

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