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Main Authors: Zoufaly, Ondrej, Chadwick, Edward K., Blana, Dimitra, Daniel, Matej
Format: Preprint
Published: 2026
Subjects:
Online Access:https://arxiv.org/abs/2604.01124
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author Zoufaly, Ondrej
Chadwick, Edward K.
Blana, Dimitra
Daniel, Matej
author_facet Zoufaly, Ondrej
Chadwick, Edward K.
Blana, Dimitra
Daniel, Matej
contents Scapulohumeral rhythm (SHR), the coordinated motion between the scapula and humerus during arm elevation, is frequently altered in rotator cuff pathologies, yet the mechanical principles underlying coordination redistribution remain difficult to explain from experimental data alone. This study presents a predictive optimal control framework for investigating scapulohumeral coordination, combining a quaternion-based shoulder model with EMG-informed muscle parameter calibration. The quaternion formulation eliminated kinematic singularities and associated non-physiological activation artifacts observed in the Euler-angle model, while maintaining comparable tracking accuracy. EMG-informed calibration reduced discrepancies between predicted and measured muscle excitations by up to 60% on independent validation tasks. In predictive simulations where only thoracohumeral elevation was prescribed, scapular and clavicular kinematics emerged from musculoskeletal mechanics and minimization of muscular effort, producing SHR values consistent with established experimental ranges. Simulated rotator cuff deficiency resulted in increased reliance on glenohumeral rotation. The proposed framework may serve as a tool for understanding impaired coordination patterns across a broad range of shoulder pathologies, with potential to inform personalized rehabilitation strategies and the design of assistive and prosthetic devices.
format Preprint
id arxiv_https___arxiv_org_abs_2604_01124
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Quaternion-Based Predictive Framework for Scapulohumeral Coordination
Zoufaly, Ondrej
Chadwick, Edward K.
Blana, Dimitra
Daniel, Matej
Medical Physics
Scapulohumeral rhythm (SHR), the coordinated motion between the scapula and humerus during arm elevation, is frequently altered in rotator cuff pathologies, yet the mechanical principles underlying coordination redistribution remain difficult to explain from experimental data alone. This study presents a predictive optimal control framework for investigating scapulohumeral coordination, combining a quaternion-based shoulder model with EMG-informed muscle parameter calibration. The quaternion formulation eliminated kinematic singularities and associated non-physiological activation artifacts observed in the Euler-angle model, while maintaining comparable tracking accuracy. EMG-informed calibration reduced discrepancies between predicted and measured muscle excitations by up to 60% on independent validation tasks. In predictive simulations where only thoracohumeral elevation was prescribed, scapular and clavicular kinematics emerged from musculoskeletal mechanics and minimization of muscular effort, producing SHR values consistent with established experimental ranges. Simulated rotator cuff deficiency resulted in increased reliance on glenohumeral rotation. The proposed framework may serve as a tool for understanding impaired coordination patterns across a broad range of shoulder pathologies, with potential to inform personalized rehabilitation strategies and the design of assistive and prosthetic devices.
title Quaternion-Based Predictive Framework for Scapulohumeral Coordination
topic Medical Physics
url https://arxiv.org/abs/2604.01124