Orientation of the Head and Trunk During Functional Upper Limb Movement

Agnès Roby-Brami,Marie-Martine Lefèvre Colau,Francois Rannou,Sessi Acapo,Alexandra Roren,Ross Parry

doi:10.3390/app10062115

Abstract

Upper limb activities imply positioning of the head with respect to the visual target and may impact trunk posture. However, the postural constraints imposed on the neck remains unclear. We used kinematic analysis to compare head and trunk orientation during arm movements (pointing) with isolated movements of the head (heading). Ten right-handed healthy adults completed both experimental tasks. In the heading task, subjects directed their face toward eight visual targets placed over a wide frontal workspace. In the pointing task, subjects pointed to the same targets (each with their right arm). Movements were recorded using an electromagnetic spatial tracking system. Both orientation of the head and trunk in space (Euler angles) and orientation of the head relative to the trunk were extracted. The orientation of the head in space was closely related to target direction during both tasks. The trunk was relatively stable during heading but contributed to pointing, with leftward axial rotation. These findings illustrate that the neck compensates for trunk rotation during pointing, engaging in specific target-dependent 3D movement in order to preserve head orientation in space. Future studies may investigate neck kinematics of people experiencing neck pain in order to identify and correct inefficient movement patterns, particularly in athletes.

Highlights

Neck and shoulder pain is a highly prevalent complaint, with up to 50% of the population being affected at some stage in their life [1,2]
We propose that improved understanding of reciprocal movements between the head and trunk during arm movement may improve the management of sports-related neck and shoulder conditions [24]
After individual alignment of the head and trunk reference frames, the angles measuring the initial orientation of the head and trunk remained close to zero, with less than 1◦ deviation across the different movement tasks and target conditions

Summary

Introduction

Neck and shoulder pain is a highly prevalent complaint, with up to 50% of the population being affected at some stage in their life [1,2]. Those participating in sporting activities involving repetitive overhead activity such as baseball, tennis and volleyball are vulnerable to these kinds of musculoskeletal injuries [3,4,5,6,7]. Sci. 2020, 10, 2115 pain is multifactorial and complex [1,2]. Certain guidelines underscore the importance of cervical spine integrity [9,10] in sports-related neck and shoulder injuries

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Discussion

Conclusion