Farid Amirouche1, Giovanni F Solitro2, Brenden P Magnan3. 1. Department of Mechanical Engineering, University of Illinois at Chicago, 835 South Wolcott Ave., Chicago, IL, 60612, USA; Department of Orthopaedics, University of Illinois at Chicago, 835 South Wolcott Ave., Chicago, IL, 60612, USA. Electronic address: amirouch@uic.edu. 2. Department of Orthopaedics, University of Illinois at Chicago, 835 South Wolcott Ave., Chicago, IL, 60612, USA. 3. College of Medicine, University of Illinois at Chicago, 835 South Wolcott Ave., Chicago, IL, 60612, USA.
Abstract
STUDY DESIGN: Analysis of insertion angle and bone density on the pedicle screw fixation strength with a novel testing protocol that accounts for the articular processes. OBJECTIVE: To analyze the relationship between pedicle screw fixation strength and bone mineral density for different transverse screw insertion angles. SUMMARY OF BACKGROUND DATA: The stability of the screw can become compromised by demineralization of the vertebral bone due to diseases such as osteoporosis. A weakening of the bone-screw interface, and therefore, a decrease in the fixation strength of the screw, leads to an increased probability of instrument failure, most commonly by screw loosening or screw pullout. METHODS: Using the ASTM F543 as reference, we performed pullout tests with an Instron mechanical testing machine of a posterior fixation construct mimicking two pedicle screws connected at a distance of 40 mm as suggested by the ASTM F1717 on four densities of polyurethane foam in accordance with the ASTM F1839-08 standard to simulate bone densities ranging from osteoporotic (5 pcf) to higher than normal (20 pcf) in four transverse insertion angles. RESULTS: A linear regression with two independent variables was found to be Y = -354.8812 + 91.8102 × X1 - 6.8747 × X2 (X1 = density [pcf], X2 = angle [degrees]), with a correlation coefficient of 0.95 for all the experimental data. CONCLUSIONS: Pedicle screw insertion angle and bone density are critical to pullout strength. However, in osteoporotic bone, the insertion angle has only a marginal influence on pullout strength. LEVEL OF EVIDENCE: V.
STUDY DESIGN: Analysis of insertion angle and bone density on the pedicle screw fixation strength with a novel testing protocol that accounts for the articular processes. OBJECTIVE: To analyze the relationship between pedicle screw fixation strength and bone mineral density for different transverse screw insertion angles. SUMMARY OF BACKGROUND DATA: The stability of the screw can become compromised by demineralization of the vertebral bone due to diseases such as osteoporosis. A weakening of the bone-screw interface, and therefore, a decrease in the fixation strength of the screw, leads to an increased probability of instrument failure, most commonly by screw loosening or screw pullout. METHODS: Using the ASTM F543 as reference, we performed pullout tests with an Instron mechanical testing machine of a posterior fixation construct mimicking two pedicle screws connected at a distance of 40 mm as suggested by the ASTM F1717 on four densities of polyurethane foam in accordance with the ASTM F1839-08 standard to simulate bone densities ranging from osteoporotic (5 pcf) to higher than normal (20 pcf) in four transverse insertion angles. RESULTS: A linear regression with two independent variables was found to be Y = -354.8812 + 91.8102 × X1 - 6.8747 × X2 (X1 = density [pcf], X2 = angle [degrees]), with a correlation coefficient of 0.95 for all the experimental data. CONCLUSIONS: Pedicle screw insertion angle and bone density are critical to pullout strength. However, in osteoporotic bone, the insertion angle has only a marginal influence on pullout strength. LEVEL OF EVIDENCE: V.