AI Article Synopsis
- The study explored how variations in femoral head length (specifically +4, +7, and +8 mm) affect dislocation resistance and range of motion (ROM) during simulations based on CT data.
- Results indicated that while a +4-mm longer head improved internal rotation at flexion and external rotation at extension, the +7- and +8-mm heads did not enhance dislocation resistance.
- The findings suggest that increasing head length can potentially help reduce dislocation risk, but surgeons should evaluate implant designs to choose the most effective method during surgery.
Article Abstract
In this study, we investigated the relationship between head length, leg length, offset, and dislocation resistance using range of motion (ROM) simulations based on computed tomography data to examine if a longer femoral head reduces the risk of dislocation. The femoral components were set to eliminate leg length differences with a + 0 mm head, and variations for + 4-, + 7-, and + 8-mm heads were analyzed. Offset and ROM were assessed when longer heads were used, with the leg length adjusted to be similar to that of the contralateral side. While internal rotation at flexion and external rotation at extension increased with + 4-mm longer heads, the + 7- and + 8-mm heads did not increase dislocation resistance. When adjusting for leg length, the longer heads showed no significant differences in offset and ROM. Enhancing dislocation resistance by solely increasing the offset with a longer head, while simultaneously adjusting the depth of stem insertion, may be a beneficial intraoperative technique. Although a + 4-mm longer head possibly increases ROM without impingement, heads extended by + 7 or + 8 mm may not exhibit the same advantage. Therefore, surgeons should consider this technique based on the implant design.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10800334 | PMC |
| http://dx.doi.org/10.1038/s41598-024-52264-4 | DOI Listing |
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