3-D scapular kinematics during arm elevation: Effect of motion velocity.

F. Fayad; G. Hoffmann; S. Hanneton; Chadi Yazbeck; Mm Lefevre-Colau; S. Poiraudeau; M. Revel; A. Roby-Brami

hal-00093941, version 1

3-D scapular kinematics during arm elevation: Effect of motion velocity.
Fayad F., Hoffmann G., Hanneton S., Yazbeck C., Lefevre-Colau M., Poiraudeau S., Revel M., Roby-Brami A.
Clinical biomechanics (Bristol, Avon) Article in Press (2006) Epub ahead of print - http://hal.archives-ouvertes.fr/hal-00093941

Subject:

Life Sciences/Neurons and Cognition

Title:

3-D scapular kinematics during arm elevation: Effect of motion velocity.

Author(s):

F. Fayad^{1, 2}, G. Hoffmann¹, S. Hanneton¹, Chadi Yazbeck³, Mm Lefevre-Colau^{2, 4}, S. Poiraudeau^{2, 4}, M. Revel^{2, 4}, A. Roby-Brami^{1, 4}

Laboratory:

1:	NPSM - Neurophysique et physiologie du système moteur

http://www.neurophys.biomedicale.univ-paris5.fr

CNRS : IFR95 – Université Paris V - Paris Descartes

45 Rue des Saints-Pères 75270 PARIS CEDEX 06

France

2:	Service de Rééducation et de Réadaptation de l'appareil locomoteur et des Pathologies du Rachis

Université Paris V - Paris Descartes

Hôpital cochin, 27 Rue du Fbg St Jacques, 75014 Paris, France

France

3:	Epidémiologie et Biostatistique

http://ifr69.vjf.inserm.fr

INSERM : IFR69

Hôpital Paul Brousse 16 av Paul Vaillant Couturier 94807 VILLEJUIF CEDEX

France

4:	RFRH - Réseau fédératif de recherche sur le handicap

CNRS : IFR25 – INSERM : IFR25 – Conservatoire National des Arts et Métiers (CNAM) – INED – INST GARCHES – CTNERHI – Université de Bourgogne – Université Victor Segalen - Bordeaux II – Université Pierre et Marie Curie [UPMC] - Paris VI – Université Lille III - Sciences humaines et sociales – Université Paris V - Paris Descartes – Université Paris I - Panthéon-Sorbonne – Université Claude Bernard - Lyon I – Université Henri Poincaré - Nancy I – Université Jean Monnet - Saint-Etienne – Université de Rennes II - Haute Bretagne – Université Lille I - Sciences et technologies – Université Lille II - Droit et santé – Université Montpellier I – Université Paris VII - Paris Diderot – Université de Valenciennes et du Hainaut-Cambresis – Université de Versailles Saint-Quentin-en-Yvelines

Campus CNRS - Bât.C/Nord 7, rue Guy Môquet 94801 VILLEJUIF CEDEX

France

Abstract:

Background. No three-dimensional (3-D) data exist on the influence of motion velocity on scapular kinematics. The effect of arm elevation velocity has been studied only in a two-dimensional setting. Methods. Thirty healthy subjects performed dominant (right) arm elevation in two planes, sagittal and frontal, and at slow and fast self-selected arm speed. Scapular orientation and humeral elevation were measured at 30Hz recording frequency with use of a 6-degree-of-freedom electromagnetic system (Polhemus Fastrak(a)). Motion was computed according to the International Society of Biomechanics standards. Scapular orientation was also determined with the arm held in different static positions. Findings. We obtained a full 3-D kinematic description of scapula achieving a reliable, complex 3-D motion during humeral elevation and lowering. The maximal sagittal arm elevation showed a characteristic "M"-shape pattern of protraction/retraction curve. Scapular rotations did not differ significantly between slow and fast movements. Moreover, protraction/retraction and tilt angular values did not differ significantly between static and dynamic tasks. However, scapular lateral rotation values differed between static and dynamic measurements during sagittal and frontal arm elevation. Lateral scapular rotation appears to be less in static than in dynamic measurement, particularly in the sagittal plane. Interpretation. Interpolation of statically recorded positions of the bones cannot reflect the kinematics of the scapula.

Fulltext language:

English

Publication type:

Article in peer-reviewed journal

DOI:

10.1016/j.clinbiomech.2006.04.015

Journal:

Clinical biomechanics (Bristol, Avon)

Audience:

not specified

Publication date:

2006

Volume:

Article in Press

Page, identifiant, ...:

Epub ahead of print

Keyword(s):

Scapula – Three-dimensional kinematics – Scapulohumeral rhythm – Shoulder – Arm velocity – Electromagnetic tracking device – Biomechanics


hal-00093941, version 1
http://hal.archives-ouvertes.fr/hal-00093941
oai:hal.archives-ouvertes.fr:hal-00093941
From: Boris Lamotte D'Incamps <>
Submitted on: Thursday, 14 September 2006 10:17:23
Updated on: Friday, 16 February 2007 17:05:33