Relationships between muscle activation and thoraco-lumbar kinematics in direction-specific low back pain subgroups during everyday tasks
Relationships between muscle activation and thoraco-lumbar kinematics in direction-specific low back pain subgroups during everyday tasks
Background/objectives: the assessment of relationships between trunk muscle activity and thoraco-lumbar movements during sagittal bending has demonstrated that low back pain (LBP) subgroups (flexion pattern and active extension pattern motor control impairment) reveal distinct relationships that differentiate these subgroups from control groups. The study objective was to establish whether such relationships exist during various daily activities.
Methods: fifty participants with non-specific chronic low back pain (NSCLBP) (27 flexion pattern (FP), 23 active extension pattern (AEP)) and 28 healthy controls were recruited. Spinal kinematics were analysed using 3D motion analysis (Vicon™, Oxford, UK) and the muscle activity recorded via surface electromyography during a range of activities (box lift, box replace, reach up, step up, step down, stand-to-sit, and sit-to-stand). The mean sagittal angles for upper and lower thoracic and lumbar regions were correlated with normalised mean amplitude electromyography of bilateral transversus abdominis/internal oblique (IO), external oblique (EO), superficial lumbar multifidus (LM), and erector spinae (ES). Relationships were assessed via Pearson correlations (significance p < 0.01).
Results: in the AEP group, increased spinal extension was associated with altered LM activity during box-replace, reach-up, step-up, and step-down tasks. In the FP group, increased lower lumbar spinal flexion was associated with reduced muscle activation, while increased lower thoracic flexion was associated with increased muscle activation. The control group elicited no significant associations. Correlations ranged between −0.812 and 0.754.
Conclusions: differential relationships between muscle activity and spinal kinematics exist in AEP, FP, and pain-free control groups, reinforcing previous observations that flexion or extension-related LBP involves distinct motor control strategies during different activities. These insights could inform targeted intervention approaches, such as movement-based interventions and wearable technologies, for these groups.
NSCLBP, functional activities, functional movement, kinematics, lumbar, muscle activity, non-specific chronic low back pain, thoracic, trunk muscle
Hemming, Rebecca
8adaea4e-16e2-446a-90f8-aa55edb2a513
Rose, Alister du
2384add6-912d-4fa0-aab0-58217c8cba55
Sheeran, Liba
ad753e79-56c8-483f-aae5-dd992496bee2
Sparkes, Valerie
7ddd0ce0-29db-4fdf-8a6c-140352979eb6
19 June 2025
Hemming, Rebecca
8adaea4e-16e2-446a-90f8-aa55edb2a513
Rose, Alister du
2384add6-912d-4fa0-aab0-58217c8cba55
Sheeran, Liba
ad753e79-56c8-483f-aae5-dd992496bee2
Sparkes, Valerie
7ddd0ce0-29db-4fdf-8a6c-140352979eb6
Hemming, Rebecca, Rose, Alister du, Sheeran, Liba and Sparkes, Valerie
(2025)
Relationships between muscle activation and thoraco-lumbar kinematics in direction-specific low back pain subgroups during everyday tasks.
Biomechanics, 5 (2), [42].
(doi:10.3390/biomechanics5020042).
Abstract
Background/objectives: the assessment of relationships between trunk muscle activity and thoraco-lumbar movements during sagittal bending has demonstrated that low back pain (LBP) subgroups (flexion pattern and active extension pattern motor control impairment) reveal distinct relationships that differentiate these subgroups from control groups. The study objective was to establish whether such relationships exist during various daily activities.
Methods: fifty participants with non-specific chronic low back pain (NSCLBP) (27 flexion pattern (FP), 23 active extension pattern (AEP)) and 28 healthy controls were recruited. Spinal kinematics were analysed using 3D motion analysis (Vicon™, Oxford, UK) and the muscle activity recorded via surface electromyography during a range of activities (box lift, box replace, reach up, step up, step down, stand-to-sit, and sit-to-stand). The mean sagittal angles for upper and lower thoracic and lumbar regions were correlated with normalised mean amplitude electromyography of bilateral transversus abdominis/internal oblique (IO), external oblique (EO), superficial lumbar multifidus (LM), and erector spinae (ES). Relationships were assessed via Pearson correlations (significance p < 0.01).
Results: in the AEP group, increased spinal extension was associated with altered LM activity during box-replace, reach-up, step-up, and step-down tasks. In the FP group, increased lower lumbar spinal flexion was associated with reduced muscle activation, while increased lower thoracic flexion was associated with increased muscle activation. The control group elicited no significant associations. Correlations ranged between −0.812 and 0.754.
Conclusions: differential relationships between muscle activity and spinal kinematics exist in AEP, FP, and pain-free control groups, reinforcing previous observations that flexion or extension-related LBP involves distinct motor control strategies during different activities. These insights could inform targeted intervention approaches, such as movement-based interventions and wearable technologies, for these groups.
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biomechanics-05-00042
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Accepted/In Press date: 11 June 2025
Published date: 19 June 2025
Keywords:
NSCLBP, functional activities, functional movement, kinematics, lumbar, muscle activity, non-specific chronic low back pain, thoracic, trunk muscle
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Local EPrints ID: 503459
URI: http://eprints.soton.ac.uk/id/eprint/503459
PURE UUID: 841a4bc6-24d1-40d4-b53b-40b06639a5b5
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Date deposited: 01 Aug 2025 16:36
Last modified: 22 Aug 2025 02:49
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Author:
Rebecca Hemming
Author:
Alister du Rose
Author:
Liba Sheeran
Author:
Valerie Sparkes
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