Creep deformation of viscoelastic lumbar tissue during sustained submaximal trunk flexion postures

• Published in: Journal of biomechanics Vol. 155; p. 111647
• Main Authors: Kang, Sang Hyeon, Mirka, Gary A.
• Format: Journal Article
• Language: English
• Published: United States Elsevier Ltd 01.06.2023; Elsevier Limited
• Subjects: Biomechanics; Creep; Creep strength; Data analysis; Electromyography; EMG; Experiments; Kinematics; Laboratories; Low back; Muscle function; Muscles; Muscular fatigue; Posture; Sensors; Spine; Vertebrae; Viscoelastic; Viscoelasticity; United States > US; Iowa; Creep; Spine; Low back; Viscoelastic; EMG
• ISSN: 0021-9290; 1873-2380
• DOI: 10.1016/j.jbiomech.2023.111647

Most in-vivo human experiments exploring creep deformation of viscoelastic lumbar tissue have used a maximum trunk flexion posture to engage the lumbar passive tissues. Recent evidence suggests that static trunk flexion tasks requiring submaximal trunk flexion can lead to gradual changes in the lumbar lordosis and this leads to our hypothesis that maintaining submaximal trunk flexion postures may lead to significant creep deformation of the viscoelastic lumbar tissues. Sixteen participants maintained a trunk flexion posture that was ten degrees less than the trunk flexion posture eliciting flexion-relaxation phenomenon for 12 min with breaks for a maximal trunk flexion protocol every three minutes. Trunk kinematic and extensor EMG measures were captured during the static, submaximal trunk flexion protocol as well as during the maximal trunk flexion protocol to provide evidence of creep development in the lumbar passive tissues. Results revealed that 12-minutes of submaximal trunk flexion led to significant increases in peak lumbar flexion angle (1.3°) and EMG-off lumbar flexion angle for L3/L4 paraspinals (2.9°). During the submaximal trunk flexion protocol, the changes in the lumbar flexion angle at 3–6 min and 6–9 min (average Δ5.4°) were significantly greater than at 0–3 min (Δ2.0°). The contribution of this study is the demonstration that sustained submaximal trunk flexion posture (i.e., constant global system) can lead to creep deformation of the viscoelastic lumbar tissue due to the increased lumbar flexion (i.e., altered local system) and may be attributed to a reduction in lumbar lordosis as the extensor muscles fatigue.