Introduction: Climbing imposes substantial demands on the upper limbs and understanding the mechanical loads experienced by the joints during climbing movements is crucial for injury prevention and optimizing training protocols. This study aimed to quantify and compare upper limb joint loads and muscle activations during isometric finger hanging exercises with different arm lock-off positions.Methods: Seventeen recreational climbers performed six finger dead hangs with arm lock-offs at 90 degrees and 135 degrees of elbow flexion, as well as arms fully extended. Upper limb joint moments were calculated using personalized models in OpenSim, based on three-dimensional motion capture data and forces measured on an instrumented hang board. Muscle activations of upper limb muscles were recorded with surface electromyography electrodes.Results: Results revealed that the shoulder exhibited higher flexion moments during arm lock-offs at 90 degrees compared to full extension (p = 0.006). The adduction moment was higher at 135 degrees and 90 degrees compared to full extension (p < 0.001), as well as the rotation moments (p < 0.001). The elbows exhibited increasing flexion moments with the increase in the arm lock-off angle (p < 0.001). Muscle activations varied across conditions for biceps brachii (p < 0.001), trapezius (p < 0.001), and latissimus dorsi, except for the finger flexors (p = 0.15).Discussion: Our findings indicate that isometric finger dead hangs with arms fully extended are effective for training forearm force capacities while minimizing stress on the elbow and shoulder joints. These findings have important implications for injury prevention and optimizing training strategies in climbing.
Neuromechanics of finger hangs with arm lock-offs: analyzing joint moments and muscle activations to improve practice guidelines for climbing / Exel, Juliana; Deimel, David; Koller, Willi; Werle, Cäcilia; Baca, Arnold; Maffiodo, Daniela; Sesana, Raffaella; Colombo, Alessandro; Kainz, Hans. - In: FRONTIERS IN SPORTS AND ACTIVE LIVING. - ISSN 2624-9367. - ELETTRONICO. - 5:(2023), p. 1251089. [10.3389/fspor.2023.1251089]
Neuromechanics of finger hangs with arm lock-offs: analyzing joint moments and muscle activations to improve practice guidelines for climbing
Maffiodo, Daniela;Sesana, Raffaella;
2023
Abstract
Introduction: Climbing imposes substantial demands on the upper limbs and understanding the mechanical loads experienced by the joints during climbing movements is crucial for injury prevention and optimizing training protocols. This study aimed to quantify and compare upper limb joint loads and muscle activations during isometric finger hanging exercises with different arm lock-off positions.Methods: Seventeen recreational climbers performed six finger dead hangs with arm lock-offs at 90 degrees and 135 degrees of elbow flexion, as well as arms fully extended. Upper limb joint moments were calculated using personalized models in OpenSim, based on three-dimensional motion capture data and forces measured on an instrumented hang board. Muscle activations of upper limb muscles were recorded with surface electromyography electrodes.Results: Results revealed that the shoulder exhibited higher flexion moments during arm lock-offs at 90 degrees compared to full extension (p = 0.006). The adduction moment was higher at 135 degrees and 90 degrees compared to full extension (p < 0.001), as well as the rotation moments (p < 0.001). The elbows exhibited increasing flexion moments with the increase in the arm lock-off angle (p < 0.001). Muscle activations varied across conditions for biceps brachii (p < 0.001), trapezius (p < 0.001), and latissimus dorsi, except for the finger flexors (p = 0.15).Discussion: Our findings indicate that isometric finger dead hangs with arms fully extended are effective for training forearm force capacities while minimizing stress on the elbow and shoulder joints. These findings have important implications for injury prevention and optimizing training strategies in climbing.File | Dimensione | Formato | |
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https://hdl.handle.net/11583/2984193