Options
Shear strength of the human lumbar spine
Publikationstyp
Journal Article
Date Issued
2012-08-01
Sprache
English
Journal
Volume
27
Issue
7
Start Page
646
End Page
651
Citation
Clinical Biomechanics 27 (7): 646-651 (2012)
Publisher DOI
Scopus ID
Publisher
Elsevier
Background: Shear loading is recognised as a risk factor for lower back pain. Previous studies of shear loading have either not addressed the influence of age, bone mineral density, axial height loss due to creep or were performed on animal specimens. Methods: Intact human lumbar motion segments (L2-3) were tested in shear using a modified materials testing machine, while immersed in a Ringer bath at 37 °C. Vertebrae were rigidly embedded in neutral posture (0° flexion) and subjected to a constant axial compression load of 500 N. Shear was applied to three groups: 'Young-No-Creep' (20-42 years), 'Young-Creep' (22-38 years, creep 1000 N for 1 h) and 'Old-No-Creep' (44-64 years). Failure was induced by up to 15 mm of anterior shear displacement at a rate of 0.5 mm/s. The trabecular and apophyseal joint bone mineral densities were evaluated from computed tomography images of the intact lumbar spines. Findings: Peak shear force correlated positively with trabecular bone mineral density for specimens tested without axial creep. No significant differences were observed with respect to age. During shear overload specimens increased in height in the axial direction. Interpretation: Trabecular bone mineral density can be used to predict the peak force of lumbar spine in shear in neutral posture.
Subjects
Age
Apophyseal joint BMD
Axial creep
Human lumbar spine
In vitro
Shear
Stiffness
Strength
Trabecular BMD
DDC Class
610: Medicine, Health