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Humeral Head Reconstruction With Osteochondral Allograft: Bone Plug Optimization for Hill-Sachs Lesions Using CT-Based Computer Modeling Analysis. | LitMetric

AI Article Synopsis

  • Engaging Hill-Sachs lesions (HSLs) present challenges in surgical repairs for recurrent shoulder instability; fresh osteochondral allograft (OCA) reconstruction is suggested for large lesions.
  • A study analyzed data from 132 patients, focusing on optimizing characteristics of talus OCA bone plugs using 3D modeling and a custom algorithm to maximize surface area while minimizing defect positioning.
  • Results indicated 86 patients had significant restoration of the HSLs, with 100% of off-track lesions converted to on-track; ideal bone plug sizes were identified as 8 mm, 10.4 mm, and 12 mm for effective repair.

Article Abstract

Background: Engaging Hill-Sachs lesions (HSLs) pose a significant risk for failure of surgical repair of recurrent anterior shoulder instability. Reconstruction with fresh osteochondral allograft (OCA) has been proposed as a treatment for large HSLs.

Purpose: To determine the optimal characteristics of talus OCA bone plugs in a computer-simulated HSL model.

Study Design: Descriptive laboratory study; Level of evidence, 6.

Methods: Included were 132 patients with recurrent anterior instability with visible HSLs; patients who had multidirectional instability or previous shoulder surgery were excluded. Three-dimensional computed tomography models were constructed, and a custom computer optimization algorithm was generated to maximize bone plug surface area at the most superior apex (superiorization) and minimize its position relative to the most medial margin of the HSL defect (medialization). The optimal number, diameter, medialization, and superiorization of the bone plug(s) were reported. Percentages of restored glenoid track width and conversion from off- to on-track HSLs after bone plug optimization were calculated.

Results: A total of 86 patients were included in the final analysis. Off-track lesions made up 19.7% of HSLs and, of these, the mean bone plug size was 9.9 ± 1.4 mm, with 2.2 mm ± 1.7 mm of medialization and 3.3 mm ± 2.9 mm of superiorization. The optimization identified 21% of HSLs requiring 1 bone plug, 65% requiring 2 plugs, and 14% requiring 3 plugs, with a mean overall coverage of 60%. The mean width of the restored HSLs was 68%, and all off-track HSLs (n = 17) were restored to on-track. A Jenks natural-breaks analysis calculated 3 ideal bone plug diameters of 8 mm (small), 10.4 mm (medium), and 12 mm (large) in order to convert this group of HSLs to on-track.

Conclusion: Using a custom computer algorithm, we have demonstrated the optimal talus OCA bone plug diameters for reconstructing HSLs to successfully restore the HSL track and, on average, 60% of the HSL surface area and 68% of the HSL width.

Clinical Relevance: Reconstructing HSLs with talus OCA is a promising treatment option with excellent fit and restoration of HSLs. This study will help guide surgeons to optimize OCA bone plugs from the humeral head, femoral head, and talus for varying sizes of HSLs.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10483980PMC
http://dx.doi.org/10.1177/23259671231193768DOI Listing

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