Hip Resurfacing - in Colorado (for Colorado Springs Residents)
The BIRMINGHAM HIP™ Resurfacing System (BHR™) is the global leading hip resurfacing system with more than 100,000 implantations worldwide. Introduced in 1997, the BIRMINGHAM HIP Resurfacing System was designed using knowledge gained from earlier metal-on-metal total hips and a thorough understanding of hip resurfacing principles.
This successful, bone conserving total hip system is well documented through independent clinical and laboratory studies. Additional clinical evidence supporting the BIRMINGHAM HIP Resurfacing System is published in multiple journals.
This bone conserving procedure, combined with the virtual elimination of dislocation and excellent survivorship make the BIRMINGHAM HIP Resurfacing ideal for the younger or more active patient.
An orthopedic surgeon for over 25 years, Dr. James Rector has extensive experience in hip and knee replacement procedures. When Birmingham Hip Resurfacing became available in the United States in May 2006, Dr. Rector was excited to be the first Colorado surgeon to offer it.
He has performed more than 900 Birmingham Hip Resurfacing surgeries since June 2006. Birmingham Hip Resurfacing offers younger patients the possibility of returning to more active lifestyles. In Dr. Rector’s practice, early results have been as good or better than those for conventional total hip replacements.
If you’re interested in hip resurfacing, contact Dr. Rector at Boulder Orthopedics (not far from Colorado Springs) today for more information and a consultation.
Now there's a way for the young and active to become pain free a little sooner, with a solution that can last for decades. It's called Birmingham Hip Resurfacing (BHR) - a revolutionary new alternative to total hip replacement now available from Dr. James Rector of Boulder, Colorado.
“The BIRMINGHAM HIP™ Resurfacing (BHR™) has demonstrated exceptional clinical results around the world. High survival rates of 98% or better were achieved in clinical centres worldwide.
In addition, the published Australian Orthopaedic Association National Joint Replacement Registry reports BHR as having the lowest revisions per 100 observed 'component' years when comparing all resurfacing implants used.
Other clinical studies have focused on predictive measurements to project long-term survivorship of the resurfaced femoral head. Researchers at the University of Oxford used roentgen stereophotogrammetric analysis (RSA) to measure the stability of the femoral head. At 24 months, the total three-dimensional migration of the head was not statistically significant at 0.2mm.
Previous studies have shown that implants that loosen quickly have rapid early migration. According to the authors, these results suggest the BHR femoral component is an inherently stable device predicting a good long-term performance.
It is widely accepted that the Bone Mineral Density of the proximal femur generally decreases after cementless THA using standard designs of femoral components. However, BMD studies conducted at Osaka University reported the post-operative BMD in the proximal femur was significantly greater in patients treated with the BHR system compared to the conventional system. The patients treated with the BHR system demonstrated preservation of the BMD in Gruen zone 1 and an increase in zone 7.
These results suggest that transfer of load to the proximal femur was more normal after surface replacement with the BHR system. These findings also show the BHR system preserves the bone stock of the proximal femur after surgery.”