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Article type: Research Article
Authors: Bastos de Oliveira, Vivianea | Albuquerque Brandão, Maria Claraa; * | Coelho de Albuquerque Pereira, Wagnera | Fernandes de Oliveira, Liliama; b
Affiliations: [a] Programa de Engenharia Biomédica, COPPE/Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil | [b] Departamento de Biociência, Escola de Educação Física e Desportos, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil
Correspondence: [*] Corresponding author: Maria Clara Albuquerque Brandão, Msc, Avenida Horácio de Macedo, 2030, Centro de Tecnologia, Bloco H, Sala 327, Rio de Janeiro 21949-900, Brazil. E-mail: [email protected]. ORCID: 0000-0002-6696-246X.
Abstract: BACKGROUND: Multifidus is an important lumbar muscle with distinct superficial and deep fibers responsible for torque production and stabilization, respectively. Its mechanical properties change when transitioning from lying to sitting positions, necessitating enhanced stability. It holds crucial clinical relevance to assess these layers separately, especially in the sitting posture, which demands increased neuromuscular control compared to the prone position. OBJECTIVE: To compare lumbar multifidus stiffness in lying versus sitting postures, analyzing both superficial and deep layers. METHODS: Supersonic Shear Imaging captured elastographic images from 26 asymptomatic volunteers in prone and seated positions. RESULTS: Left multifidus shear modulus in lying: 5.98 ± 1.80/7.96 ± 1.59 kPa (deep/superficial) and sitting: 12.58 ± 4.22/16.04 ± 6.65 kPa. Right side lying: 6.08 ± 1.97/7.80 ± 1.76 kPa and sitting: 13.25 ± 4.61/17.95 ± 7.12 kPa. No side differences (lying p= 0.99, sitting p= 0.43). However, significant inter-postural differences occurred. CONCLUSION: Lumbar multifidus exhibits increased stiffness in sitting, both layers affected, with superior stiffness in superficial versus deep fibers. Applying these findings could enhance assessing multifidus stiffness changes, for classifying tension-induced low back pain stages.
Keywords: Shear modulus, mechanical properties, ergonomic, ultrasound, muscle
DOI: 10.3233/BMR-230333
Journal: Journal of Back and Musculoskeletal Rehabilitation, vol. 37, no. 5, pp. 1241-1248, 2024
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