Selecting Arthroplasty Fixation Approach Based on Greater Trochanter Fracture Type in Unstable Intertrochanteric Fractures / 대한고관절학회지

PURPOSE: To evaluate the success rate of fixation approaches for greater trochanter (GT) fracture types in those with unstable intertrochnateric fractures. MATERIALS AND METHODS: Forty-four patients who underwent arthroplasty for unstable intertrochanteric fractures between January 2015 and November 2017 and followed-up more than six months were included in this study. The fractures of GT were classified into one of four types (i.e., A, B, C, and D) and fixed using either figure-8 wiring or cerclage wiring according to fracture type. Fractures were type A (n=7), type B (n=20), type C (n=6), and type D (n=11). Type A and B, which are fractures located above the inferior border of GT were fixed using figure-8 wiring and/or adding cerclage wiring. On the other hand, all type C and D fractures, which were located below the inferior border, were fixed using cerclage wiring. Fixation failure was defined as breakage of wire and progressive migration of GT fragment greater than 5 mm on follow-up radiographs. RESULTS: The most common GT fracture types were B and D, both of which are longitudinal fractures. The success rates of fixation were 85.7% (6 out of 7 cases) for the treatment of type A, 90.0% (18 out of 20 cases) for the treatment of type B, and 100% for the treatment of types C (6 out of 6 cases) and D (11 out of 11 cases). CONCLUSION: We note high success rates following fixation methods were selected based on the GT fracture type.

Relationship between Lumbar Extensor Muscle Degeneration Classification and Osteoporotic Vertebral Compression Fracture

OBJECTIVES@#To investigate the reliability of the lumbar extensor muscle degeneration classification as an indicator of potential risk for osteoporotic vertebral compression fractures (OVCF).SUMMARY OF LITERATURE REVIEW: Fatty degeneration of lumbar extensor muscles has attracted increased interest in the literature as a risk factor for OVCF.@*MATERIALS AND METHODS@#Ninety-one patients with OVCF (group 1) and 60 patients without OVCF (group 2) were investigated. Magnetic resonance imaging was used to measure and to analyze the muscle mass and fatty degeneration of the lumbar extensor muscle. The degree of fatty degeneration of the lumbar extensor muscle was classified into 4 stages: less than 10%, 10%–25%, 25%–50%, and more than 50%.@*RESULTS@#Fatty degeneration of the lumbar extensor muscle and the bone mineral density T-score were 29.66%±12.28% and −3.56±1.13 in group 1 and 24.04%±13.29% and −2.27±1.46 in group 2, which were statistically significant differences (p < 0.05). Logistic regression analysis revealed that as the fatty degeneration of the lumbar extensor muscle increased, the risk of OVCF increased (odds ratio [OR]=1.21; p=0.01). The risk of OVCF increased as the lumbar extensor muscle degeneration classification scores increased (OR=13.53; p=0.02). Furthermore, as the muscle mass of the multifidus decreased, lumbar lordosis and sacral inclination decreased (β=0.33; p=0.01 and β=0.25; p=0.04, respectively). However, no factor affected thoracic kyphosis.@*CONCLUSIONS@#Fatty degeneration of the lumbar extensor muscle was correlated with OVCF. A lumbar extensor muscle degeneration classification higher than stage 3 should be considered a risk factor of OVCF.

Relationship between Lumbar Extensor Muscle Degeneration Classification and Osteoporotic Vertebral Compression Fracture

STUDY DESIGN: Retrospective study. OBJECTIVES: To investigate the reliability of the lumbar extensor muscle degeneration classification as an indicator of potential risk for osteoporotic vertebral compression fractures (OVCF). SUMMARY OF LITERATURE REVIEW: Fatty degeneration of lumbar extensor muscles has attracted increased interest in the literature as a risk factor for OVCF. MATERIALS AND METHODS: Ninety-one patients with OVCF (group 1) and 60 patients without OVCF (group 2) were investigated. Magnetic resonance imaging was used to measure and to analyze the muscle mass and fatty degeneration of the lumbar extensor muscle. The degree of fatty degeneration of the lumbar extensor muscle was classified into 4 stages: less than 10%, 10%–25%, 25%–50%, and more than 50%. RESULTS: Fatty degeneration of the lumbar extensor muscle and the bone mineral density T-score were 29.66%±12.28% and −3.56±1.13 in group 1 and 24.04%±13.29% and −2.27±1.46 in group 2, which were statistically significant differences (p < 0.05). Logistic regression analysis revealed that as the fatty degeneration of the lumbar extensor muscle increased, the risk of OVCF increased (odds ratio [OR]=1.21; p=0.01). The risk of OVCF increased as the lumbar extensor muscle degeneration classification scores increased (OR=13.53; p=0.02). Furthermore, as the muscle mass of the multifidus decreased, lumbar lordosis and sacral inclination decreased (β=0.33; p=0.01 and β=0.25; p=0.04, respectively). However, no factor affected thoracic kyphosis. CONCLUSIONS: Fatty degeneration of the lumbar extensor muscle was correlated with OVCF. A lumbar extensor muscle degeneration classification higher than stage 3 should be considered a risk factor of OVCF.