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Trunk motor control deficits in acute and subacute low back pain are not associated with pain or fear of movement
Journal article   Open access   Peer reviewed

Trunk motor control deficits in acute and subacute low back pain are not associated with pain or fear of movement

Won Sung, Mathew Abraham, Christopher Plastaras and Sheri P. Silfies
The spine journal, v 15(8), pp 1772-1782
01 Aug 2015
DOI: https://doi.org/10.1016/j.spinee.2015.04.010
PMID: 25862508
Featured in Collection :   UN Sustainable Development Goals @ Drexel
url
https://europepmc.org/articles/pmc4516579View
Accepted (AM)Open Access (License Unspecified) Open

Abstract

Low back pain Motor control Movement control Movement coordination impairment Postural control Proprioception
A subgroup of patients with acute to subacute low back pain (LBP) presenting with trunk movement control deficits, pain provocation with segmental testing, and segmental hypermobility have been clinically identified as having movement coordination impairments (MCIs) of the trunk. It is hypothesized that these patients have proprioceptive, postural, and movement control impairments of the trunk associated with LBP. Although trunk control impairments have been identified in patients with chronic LBP, they have not been investigated in this subgroup or closer to symptom onset. The purpose of the study was to identify trunk motor control (postural control and movement precision) impairments in a subgroup of patients with acute to subacute LBP who have been clinically identified to have MCIs and determine association of these impairments with pain and fear of movement. The study design includes observational design, university biomechanics laboratory, and clinical practice. Thirty-three patients with acute to subacute LBP presenting with trunk MCIs and 33 healthy controls matched with gender, age, and body mass index were identified. Self-report measures included Numeric Pain Rating Scale, Oswestry Disability Index Questionnaire, and Fear-Avoidance Beliefs Questionnaire and physiologic measures included postural control and movement precision. Center-of-pressure movement was measured while subjects attempted to volitionally control trunk posture and movement while sitting on a platform with a hemisphere mounted underneath. This created an unstable surface that required coordinated trunk control to maintain an upright seated posture. Postural control was tested using eyes-open and -closed balance protocols. Movement precision was tested with a dynamic control test requiring movement of the center of pressure along a discrete path. Group trunk motor control performance was compared with analysis of variance and t test. Performance association with pain and fear of movement were assessed with Pearson correlations. Patients’ postural control in the eyes-closed condition (p=.02) and movement precision (p=.04) were significantly impaired compared with healthy controls, with moderate-to-large group difference effect sizes. These trunk motor control impairments were not significantly associated with the patients self-reported pain characteristics and fear of movement. Patients with clinical identification of trunk MCIs demonstrated decreased trunk motor control, suggesting that impairments in proprioception, motor output, or central processing occur early in the back pain episode. This information may help to guide interventions to address these specific limitations, improving delivery of care.

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48 citations in Web of Science
49 citations in Scopus

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UN Sustainable Development Goals (SDGs)

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Collaboration types
Domestic collaboration
Web of Science research areas
Clinical Neurology
Orthopedics
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