Case Reports

Total Hip Arthroplasty After Proximal Femoral Osteotomy: A Technique That Can Be Used to Address Presence of a Retained Intracortical Plate

Am J Orthop. 2016 May;45(4):E224-E226

References

1. Engesæter LB, Engesæter IØ, Fenstad AM, et al. Low revision rate after total hip arthroplasty in patients with pediatric hip diseases. Acta Orthop. 2012;83(5):436-441.

2. Froberg L, Christensen F, Pedersen NW, Overgaard S. The need for total hip arthroplasty in Perthes disease: a long-term study. Clin Orthop Relat Res. 2011;469(4):1134-1140.

3. Furnes O, Lie SA, Espehaug B, Vollset SE, Engesæter LB, Havelin LI. Hip disease and the prognosis of total hip replacements. A review of 53,698 primary total hip replacements reported to the Norwegian Arthroplasty Register 1987-99. J Bone Joint Surg Br. 2001;83(4):579-586.

4. Ferguson GM, Cabanela ME, Ilstrup DM. Total hip arthroplasty after failed intertrochanteric osteotomy. J Bone Joint Surg Br. 1994;76(2):252-257.

5. Scheerlinck T. Primary hip arthroplasty templating on standard radiographs. A stepwise approach. Acta Orthop Belg. 2010;76(4):432-442.

6. Wroblewski BM, Siney PD. Charnley low-friction arthroplasty of the hip. Long-term results. Clin Orthop Relat Res. 1993;(292):191-201.

7. Chandler HP, Reineck FT, Wixson RL, McCarthy JC. Total hip replacement in patients younger than thirty years old. A five-year follow-up study. J Bone Joint Surg Am. 1981;63(9):1426-1434.

8. Dorr LD, Luckett M, Conaty JP. Total hip arthroplasties in patients younger than 45 years. A nine- to ten-year follow-up study. Clin Orthop Relat Res. 1990;(260):215-219.

9. Boos N, Krushell R, Ganz R, Müller ME. Total hip arthroplasty after previous proximal femoral osteotomy. J Bone Joint Surg Br. 1997;79(2):247-253.

By 2-year follow-up, both patients had regained excellent range of motion, ambulation, and overall function. Postoperative Harris Hip Scores were 86.6 and 83.8, respectively. There were no radiographic signs of complications.

Discussion

THA can be challenging in the setting of previously placed internal fixation devices, particularly devices inserted during a patient’s adolescence, as significant bony overgrowth can occur. The standard approach has been to remove the internal fixation device and then perform the THA. In most cases, and particularly when the internal fixation device is in an intracortical position, the result is significant compromise of bone. This article describes a technique in which a portion of the hardware is retained to avoid compromise of the lateral femoral cortex, thereby allowing insertion of a noncemented femoral component.

THA is the most effective procedure for reducing hip pain and disability in the setting of degenerative changes.6 Patients with SCFE, Legg-Calvé-Perthes disease, or developmental dysplasia of the hip generally are younger at the time they may be sufficiently symptomatic to consider THA^.7,8 Many have had previous surgery using internal fixation devices. THAs after previous osteotomies with internal fixation devices are more technically demanding, require more operative time, are subject to more blood loss, and have a higher rate of complications, including femoral fracture. Ferguson and colleagues⁴ and Boos and colleagues9 found these surgeries were more difficult 33.8% and 36.8% of the time, respectively. For these reasons, some authors have recommended removing the internal fixation device as soon as the osteotomy is healed.⁴ However, this has not become the standard of care, and surgeons continue to perform THAs in the presence of a previous osteotomy with an internal fixation device in place.

The technique described in this article was used successfully in 2 cases. In each case, leaving the intracortical plate in place avoided compromise of the lateral femoral cortex and allowed insertion of a noncemented femoral component without complication. Of course, with the screw holes representing stress risers, careful insertion of the femoral component was required. Retaining the intracortical plate allowed it to function as part of the lateral femoral cortex, thereby maintaining the structural integrity of the femoral canal. As has been described for the 2 cases, a blade plate and plate and barrel were converted to a limited intracortical plate by removing the proximal portion of the plates—a modification that could be applied to other types of internal fixation devices that extend into the femoral neck as long as appropriate cutting tools are available.

Conclusion

THA in the setting of a retained internal fixation device is relatively common. This article describes a technique that can be used when a plate applied to the lateral femoral cortex has become intracortical as a result of extensive bony overgrowth. In using this technique to avoid plate removal, the surgeon eliminates the need for more extensive procedures aimed at compensating for deficiency of the femoral cortex in the area of plate removal. Although only 2 cases are presented here, this technique potentially can be used more broadly in these specific clinical situations.

Proximal Periprosthetic Femur Fractures: Strategies for Internal Fixation

Total Hip Arthroplasty After Proximal Femoral Osteotomy: A Technique That Can Be Used to Address Presence of a Retained Intracortical Plate

References

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