Are component positioning and prosthesis size associated with hip resurfacing failure?

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2010-10-02

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Abstract

BACKGROUND: Recent studies suggest that there is a learning curve for metal-on-metal hip resurfacing. The purpose of this study was to assess whether implant positioning changed with surgeon experience and whether positioning and component sizing were associated with implant longevity. METHODS: We evaluated the first 361 consecutive hip resurfacings performed by a single surgeon, which had a mean follow-up of 59 months (range, 28 to 87 months). Pre and post-operative radiographs were assessed to determine the inclination of the acetabular component, as well as the sagittal and coronal femoral stem-neck angles. Changes in the precision of component placement were determined by assessing changes in the standard deviation of each measurement using variance ratio and linear regression analysis. Additionally, the cup and stem-shaft angles as well as component sizes were compared between the 31 hips that failed over the follow-up period and the surviving components to assess for any differences that might have been associated with an increased risk for failure. RESULTS: Surgeon experience was correlated with improved precision of the antero-posterior and lateral positioning of the femoral component. However, femoral and acetabular radiographic implant positioning angles were not different between the surviving hips and failures. The failures had smaller mean femoral component diameters as compared to the non-failure group (44 versus 47 millimeters). CONCLUSIONS: These results suggest that there may be differences in implant positioning in early versus late learning curve procedures, but that in the absence of recognized risk factors such as intra-operative notching of the femoral neck and cup inclination in excess of 50 degrees, component positioning does not appear to be associated with failure. Nevertheless, surgeons should exercise caution in operating patients with small femoral necks, especially when they are early in the learning curve.

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10.1186/1471-2474-11-227

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Marker, David R, Michael G Zywiel, Aaron J Johnson, Thorsten M Seyler and Michael A Mont (2010). Are component positioning and prosthesis size associated with hip resurfacing failure?. BMC Musculoskelet Disord, 11. p. 227. 10.1186/1471-2474-11-227 Retrieved from https://hdl.handle.net/10161/10410.

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Seyler

Thorsten Markus Seyler

Associate Professor of Orthopaedic Surgery

Based on a recent market research survey, the U.S. demand for implantable medical devices is forecast to increase 7.7% annually to $52 billion in 2015. While orthopedic implants remain the largest segment, implantable devices are frequently used in urology, cardiovascular specialties, neurology, gynecology, and otolaryngology. With the increased usage of implantable devices, the number of biofilm-associated infections has emerged as a significant clinical problem because biofilms are often resistant to traditional antimicrobial therapy and difficult to eradicate. In fact, biofilm cells show as much as a 1000-fold more resistance to traditional antimicrobial therapy than their planktonic cell counterparts and biofilm-based microbial infections make up to 80% of all infections in patients, leading the CDC to declare biofilms to be one of the most important medical hurdles of the century. 

Since microbial biofilms are a major clinical concern, my lab seeks to (a) advance the ability to diagnose biofilm-associated infections, (b) understanding of the formation of biofilms, and (c) develop/use novel treatment approaches to prevent and treat biofilm-associated infections. 


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