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General Orthopaedics

ASSESSING ACETABULAR COMPONENT ORIENTATION FROM CONVENTIONAL POST-OP RADIOGRAPHS

The International Society for Technology in Arthroplasty (ISTA), 28th Annual Congress, 2015. PART 3.



Abstract

Introduction

Proper acetabular component orientation is an important part of successful total hip replacement surgery. Poorly positioned implants can lead to early complications, such as dislocation. Mal-positioned acetabular components can also generate increase wear debris due to edge loading which can cause pre-mature loosening. It is essential to be able to measure post-operative implant orientation accurately to assure that implants are positioned properly.

It is difficult and potentially inaccurate to manually measure implant orientation on a post-op radiograph. This is particularly true for the immediate post-op radiograph where the patient is not as well aligned relative to the x-ray beam. However, the best time to determine if an acetabular component is mal-aligned is immediately following surgery so the patient could be taken back to the OR for immediate revision. Taking post-op CT scans is expensive and subjects the patient to increased radiation exposure, so using CT post-operatively is not done routinely. With the increased use of robotics and computer navigation at surgery there are often pre-op CT scans for total hip replacement patients. Current radiological tools do not take advantage of this pre-op CT scan for assessment of acetabular component orientation. A new software module for Mimics medical imaging software (Materialise, Leuven, Belgium) is able to overlay 3D CT data onto radiographs. We used this x-ray module to see if we could measure acetabular component orientation using the pre-op CT scan and the routine post-op x-ray that is taken immediately following total hip arthroplasty at our institution.

Methods

From a prior study, we had pre-op, and post-op CT scans of a group of twenty patients who received a total hip replacement. The post-op scan was used to measure the actual acetabular component orientation, both inclination and anteversion (Figure 1). We then measured component orientation using only the pre-op CT scan and the initial post-op x-ray using the Mimics x-ray module. We created a 3D model of the pelvis from the pre-op CT using Mimics. Then, the x-ray module was used to import the post-op radiograph into the Mimics file. Using the software, the x-ray was registered to the pre-op 3D pelvis. A 3D .stl file of the acetabular component used at surgery was then imported into the Mimics file and also registered according to the post-op radiograph (Figures 2 and 3). Once the cup and pelvis were both registered to the post-op radiograph, they were exported as .stl files and the acetabular anteversion and inclination were measured using the same method we used for the post-op scan. We then compared the results of our measurements from the post-op 3D reconstruction to the 2D overlay method to determine the accuracy of this new measurement technique.

Results

The average error for anteversion and inclination was 1.5±1.5 and −0.8±1.6 degrees respectively. Maximum error for anteversion and inclination was 5.7 and −5.0 degrees respectively.

Conclusion

The x-ray module could be a powerful tool in the assessment of post-operative orientation of the acetabular component in total hip arthroplasty.


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