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General Orthopaedics

Combined Version for Stem-First-Technique in Minimal-Invasive Total Hip Arthroplasty: Rationale and Clinical Application

International Society for Technology in Arthroplasty (ISTA)



Abstract

Introduction:

Dislocation is still one of the major complications in total hip arthroplasty. Among other factors, it is important to maximize the intended range of movement (iROM) in order to reduce the risk for prosthetic impingement and to prevent edge loading in order to avoid surface damage and squeaking. Therefore, both components should be positioned in accordance to the new combined safe-zone for correct combined version and inclination aiming for an optimal relative orientation of both components. This study shows how this optimal combined orientation of both components can be determined for a specific total hip prosthetic system and how the result can be transferred to surgery and accomplished intraoperatively using minimal-invasive stem-first technique.

Material and Methods:

829 minimal-invasive total hip arthroplasties have been performed from 2007 to 2013 in our institution. In all of these surgeries a minimal-invasive direct anterior approach (DAA) was applied. All patients were positioned supine on a proprietary orthopedic table. In 168 cases a system-specific mechanical aiming device was used intraoperatively in order to control the combined version and inclination according to the specific safe-zone by orienting the prosthetic socket in relation to the prosthetic stem. This is called “stem-first technique” meaning that the prosthetic stem dictates the orientation of the socket. It does not mean the sequence of implantation. It's specific advantage is that the stem redirects the socket if it's position is modified. It equally applies to standard, anatomic (Fig. 1) or short stems (Fig. 2). The socket orientation is not primarily referred to bony landmarks of the pelvis but to the neck of the stem. Nevertheless the surgeon has to look for sufficient fixation of the socket within the acetabular bone. Leg length was measured in the surgical field additionally and prosthetic offset was adjusted according to the preoperative planning. All other patients were operated on in our standard minimal-invasive DAA-procedure. The majority of the patients suffered from osteoarthritis, their mean age was 68 years.

Results:

Optimal component orientation for each prosthesis system was derived from its 3D-model by simulating hip joint motion in the physiologic range of motion. Optimal component orientation means maximizing the area of the combined safe-zone. In the stem-first group cup orientation was in the new combined safe-zone in 94% of the cases and no squeaking or prosthetic impingement did occur in any of these patients. Leg length did not differ more than +/− 5 mm. 83% of all patients receiveda ceramic-on-ceramic articulation, one early dislocation did occur and treated by closed reduction.

Conclusion:

Stem-first technique is ideally suited for the minimal-invasive direct anterior approach in total hip arthroplasty to control the combined orientation of the prosthetic components and to achieve excellent clinical results. It assists the surgeon in aligning the cup and the stem according to their correct combined orientation in order to get an optimal range of movement especially in young patients.


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