Resumen:
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[EN] Importance: Despite the importance of pronosupination strength, which is key in daily activities, current evaluation protocols are disparate, and results differ regarding the influence of factors such as gender, age, ...[+]
[EN] Importance: Despite the importance of pronosupination strength, which is key in daily activities, current evaluation protocols are disparate, and results differ regarding the influence of factors such as gender, age, limb dominance, or posture.
Objective: To design a reliable device to measure pronation and supination torques in different forearm positions, considering the influence of gender, age, and limb dominance.
Design: Reliability study with analysis of intrarater and interrater repeatability and examination of the influence of different factors on the strength of pronation and supination.
Setting: Biomechanical analysis laboratory of the Instituto de Biomecánica de Valencia.
Participants: Convenience sample of 39 healthy male and female participants, ages 18 to 65 yr.
Outcomes and measures: Pronation strength and supination strength were studied in five forearm positions: 30° and 60° of supination, neutral rotation, and 30° and 60° of pronation. The influence of gender, age, and limb dominance was studied using repeated-measures analysis of variance. Intrarater and interrater reliabilities were studied in 17 participants, and the intraclass correlation coefficients (ICCs) were calculated from three measurement sessions.
Results: Except for 60° of pronation, all ICCs ranged from .72 to .97. Gender, limb dominance, and posture significantly affected pronosupination strength (p < .05), with the highest supination strength at 60° of pronation and the highest pronation strength at 60° of supination.
Conclusions and relevance: In using this reliable pronosupination torque assessment device and standardized protocol in the clinical setting, clinicians must consider the influence of gender, limb dominance, and forearm posture. What This Article Adds: The results of this study will allow occupational therapists to establish differences between patients' functionality in comparison with healthy individuals and to design recovery treatments and facilitate performance of manual tasks, considering which are the most advantageous positions to exert force. Furthermore, the developed device can be used to monitor the evolution of these torques in an objective and reliable manner.
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Agradecimientos:
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This article was developed within the framework of the IBERUS project, a technological network of biomedical engineering applied to degenerative pathologies of the neuromusculoskeletal system in clinical and outpatient ...[+]
This article was developed within the framework of the IBERUS project, a technological network of biomedical engineering applied to degenerative pathologies of the neuromusculoskeletal system in clinical and outpatient settings (CER-20211003) , and the CERVERA Network, financed by the Ministry of Science and Innovation through the Center for Industrial Technological Development, charged to the General State Budgets 2021 and the Recovery, Transformation and Resilience Plan.
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