A Two Joint Neck Model to Identify Malposition of the Head Relative to the Thorax

Overview

Journal Sensors (Basel)

Publisher MDPI

Specialty Biotechnology

Date 2021 Jun 2

PMID 34068778

Citations 2

Authors

Philipp M Schmid

Christoph M Bauer

Markus J Ernst

Bettina Sommer

Lars Lunenburger

Martin Weisenhorn

Affiliations

Soon will be listed here.

Abstract

Neck pain is a frequent health complaint. Prolonged protracted malpositions of the head are associated with neck pain and headaches and could be prevented using biofeedback systems. A practical biofeedback system to detect malpositions should be realized with a simple measurement setup. To achieve this, a simple biomechanical model representing head orientation and translation relative to the thorax is introduced. To identify the parameters of this model, anthropometric data were acquired from eight healthy volunteers. In this work we determine (i) the accuracy of the proposed model when the neck length is known, (ii) the dependency of the neck length on the body height, and (iii) the impact of a wrong neck length on the models accuracy. The resulting model is able to describe the motion of the head with a maximum uncertainty of 5 mm only. To achieve this high accuracy the effective neck length must be known a priory. If however, this parameter is assumed to be a linear function of the palpable neck length, the measurement error increases. Still, the resulting accuracy can be sufficient to identify and monitor a protracted malposition of the head relative to the thorax.

Citing Articles

Usability of a visual feedback system to assess and improve movement disorders related to neck pain: Perceptions of physical therapists and patients.

Nast I, Scheermesser M, Ernst M, Sommer B, Schmid P, Weisenhorn M Heliyon. 2024; 10(5):e26931.

PMID: 38434337 PMC: 10907800. DOI: 10.1016/j.heliyon.2024.e26931.

Heart Rate Variability Control Using a Biofeedback and Wearable System.

Viera E, Kaschel H, Valencia C Sensors (Basel). 2022; 22(19).

PMID: 36236257 PMC: 9572135. DOI: 10.3390/s22197153.

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