Hay Nyborg (liftclover42)

16.90%, P = 0.101) that trended toward significance and the split drape resulted in a 99.5% decrease (0.09% vs. 16.90%, P = 0.017) that was statistically significant. Far side contamination can be reduced by using a split drape connecting the operative table to the C-Arm receiver, effectively "sealing off" contaminants. The proprietary close-fitting drape may also decrease contamination, but this was not statistically significant in this study. Use of the split drape technique will help prevent contamination and may ultimately lead to decreased infection risk. Far side contamination can be reduced by using a split drape connecting the operative table to the C-Arm receiver, effectively "sealing off" contaminants. The proprietary close-fitting drape may also decrease contamination, but this was not statistically significant in this study. Use of the split drape technique will help prevent contamination and may ultimately lead to decreased infection risk. To determine if prevalent approaches in acetabular fracture surgery provide enhanced anterior and cranial exposure in a cadaveric model. A Kocher-Langenbeck (K-L) approach (followed by a Gibson approach on the contralateral hip) was performed in the lateral position on 8 cadavers. A Steinmann pin was used to create holes outlining the bony surfaces available for instrumentation before and after a trochanteric osteotomy. All soft tissue was then removed from the pelvis, and a calibrated digital picture was taken. The surface area of the pelvis visualized through each approach was calculated and compared with the contralateral side to assess for a difference in exposure between the Gibson approach and the K-L approach. An increase in exposure of greater than 10% was considered significant. The extent of anterior exposure (with and without a trochanteric osteotomy) was then measured from the greater sciatic notch. In 2 of 8 cadavers (25%), the Gibson approach yielded an increase in exposure when compared with a K-L approach. The addition of a trochanteric osteotomy yielded on average 1.6 cm (range, 0.7-2.6 cm) of increased anterior exposure in the K-L approaches and 1.5 cm (range 0.9-3.1 cm) in the Gibson approaches. The Gibson approach did not reliably provide increased anterior exposure compared with a K-L approach in a cadaver model. A trochanteric osteotomy can be expected to add 1-2 cm of increased anterior exposure in both approaches. The Gibson approach did not reliably provide increased anterior exposure compared with a K-L approach in a cadaver model. A trochanteric osteotomy can be expected to add 1-2 cm of increased anterior exposure in both approaches. Osteoarthritis and obesity are diseases with high prevalence, and they share common etiologies. We investigated the sex-specific genetic susceptibility to hip and knee osteoarthritis necessitating total joint replacement (TJR), and how body mass index (BMI) moderated the heritability of these osteoarthritis phenotypes. We linked 29,893 twin pairs with information on BMI in the Swedish Twin Registry with the Swedish National Patient Register to identify twins who underwent primary TJR of the hip or knee combined with a concomitant diagnosis of primary osteoarthritis of these joints. Structural equation modeling was used to calculate the heritability of hip and knee osteoarthritis treated with TJR, with estimates adjusted for the first available BMI, birth year, and sex. We also investigated how heritability varied with BMI treated as a continuous variable. Similar heritability estimates for hip replacement (0.65 [95% confidence interval (CI), 0.59 to 0.70]) and knee replacement (0.57 [95% CI, 0.50 to 0.64]) were found. Heritability decreased with higher BMI in both sexes for hip replacement and in men for knee replacement. In contrast, heritability for knee replacement increased with higher BMI in women; the estimate was 0.37 (9