Effect of sitting posture on 3-dimensional scapular kinematics measured by skin-mounted electromagnetic tracking sensors

M.A. Finley, R.Y.W. Lee

Research output: Contribution to journalArticle

Abstract

Objective: To determine the effect of trunk sitting posture on scapular kinematics during humeral elevation by using skin-mounted electromagnetic tracking sensors. Design: Repeated-measures design contrasting scapular kinematics in 2 different sitting postures. Setting: A biomechanics laboratory in Hong Kong with a real-time, 3-dimensional electromagnetic tracking device for measuring movements of the scapula. Participants: A sample of 16 healthy adults (12 women, 4 men; age, 21.6[plusmn]3.92y) with full, pain-free shoulder range of motion and no history of shoulder pathology. Interventions: Not applicable. Main Outcome Measures: Movements of the scapula were measured while each subject performed humeral elevation in an upright seated position and a slouched seated position. Results: In both postures, posterior tip, lateral and upward rotation of the scapula, and lateral rotation of the humerus were observed during humeral elevation. When the slouched posture was adopted, there were significant decreases in the posterior tip and lateral rotation of the scapula, but there was no significant change in the magnitude of the upward rotation of the scapula. Conclusion: Increased thoracic kyphosis significantly alters the kinematics of the scapula during humeral elevation.
Original languageEnglish
Pages (from-to)563-568
Number of pages6
JournalArchives of Physical Medicine and Rehabilitation
Volume84
Issue number4
Publication statusPublished - Apr 2003

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Scapula
Electromagnetic Phenomena
Posture
Biomechanical Phenomena
Skin
Kyphosis
Humerus
Hong Kong
Articular Range of Motion
Thorax
Outcome Assessment (Health Care)
Pathology
Equipment and Supplies

Cite this

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title = "Effect of sitting posture on 3-dimensional scapular kinematics measured by skin-mounted electromagnetic tracking sensors",
abstract = "Objective: To determine the effect of trunk sitting posture on scapular kinematics during humeral elevation by using skin-mounted electromagnetic tracking sensors. Design: Repeated-measures design contrasting scapular kinematics in 2 different sitting postures. Setting: A biomechanics laboratory in Hong Kong with a real-time, 3-dimensional electromagnetic tracking device for measuring movements of the scapula. Participants: A sample of 16 healthy adults (12 women, 4 men; age, 21.6[plusmn]3.92y) with full, pain-free shoulder range of motion and no history of shoulder pathology. Interventions: Not applicable. Main Outcome Measures: Movements of the scapula were measured while each subject performed humeral elevation in an upright seated position and a slouched seated position. Results: In both postures, posterior tip, lateral and upward rotation of the scapula, and lateral rotation of the humerus were observed during humeral elevation. When the slouched posture was adopted, there were significant decreases in the posterior tip and lateral rotation of the scapula, but there was no significant change in the magnitude of the upward rotation of the scapula. Conclusion: Increased thoracic kyphosis significantly alters the kinematics of the scapula during humeral elevation.",
author = "M.A. Finley and R.Y.W. Lee",
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Effect of sitting posture on 3-dimensional scapular kinematics measured by skin-mounted electromagnetic tracking sensors. / Finley, M.A.; Lee, R.Y.W.

In: Archives of Physical Medicine and Rehabilitation, Vol. 84, No. 4, 04.2003, p. 563-568.

Research output: Contribution to journalArticle

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AU - Finley, M.A.

AU - Lee, R.Y.W.

PY - 2003/4

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N2 - Objective: To determine the effect of trunk sitting posture on scapular kinematics during humeral elevation by using skin-mounted electromagnetic tracking sensors. Design: Repeated-measures design contrasting scapular kinematics in 2 different sitting postures. Setting: A biomechanics laboratory in Hong Kong with a real-time, 3-dimensional electromagnetic tracking device for measuring movements of the scapula. Participants: A sample of 16 healthy adults (12 women, 4 men; age, 21.6[plusmn]3.92y) with full, pain-free shoulder range of motion and no history of shoulder pathology. Interventions: Not applicable. Main Outcome Measures: Movements of the scapula were measured while each subject performed humeral elevation in an upright seated position and a slouched seated position. Results: In both postures, posterior tip, lateral and upward rotation of the scapula, and lateral rotation of the humerus were observed during humeral elevation. When the slouched posture was adopted, there were significant decreases in the posterior tip and lateral rotation of the scapula, but there was no significant change in the magnitude of the upward rotation of the scapula. Conclusion: Increased thoracic kyphosis significantly alters the kinematics of the scapula during humeral elevation.

AB - Objective: To determine the effect of trunk sitting posture on scapular kinematics during humeral elevation by using skin-mounted electromagnetic tracking sensors. Design: Repeated-measures design contrasting scapular kinematics in 2 different sitting postures. Setting: A biomechanics laboratory in Hong Kong with a real-time, 3-dimensional electromagnetic tracking device for measuring movements of the scapula. Participants: A sample of 16 healthy adults (12 women, 4 men; age, 21.6[plusmn]3.92y) with full, pain-free shoulder range of motion and no history of shoulder pathology. Interventions: Not applicable. Main Outcome Measures: Movements of the scapula were measured while each subject performed humeral elevation in an upright seated position and a slouched seated position. Results: In both postures, posterior tip, lateral and upward rotation of the scapula, and lateral rotation of the humerus were observed during humeral elevation. When the slouched posture was adopted, there were significant decreases in the posterior tip and lateral rotation of the scapula, but there was no significant change in the magnitude of the upward rotation of the scapula. Conclusion: Increased thoracic kyphosis significantly alters the kinematics of the scapula during humeral elevation.

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JO - Archives of Physical Medicine and Rehabilitation

JF - Archives of Physical Medicine and Rehabilitation

SN - 0003-9993

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