Orthopaedic Surgery (Jun 2024)

Using 3D Printing Technology to Design Split‐Piece Sleeve Prosthesis in the Revision Surgery of Tumor‐Type Total Elbow Prosthetic Fractures: A Case Report

  • Kai Zhai,
  • Kai Zheng,
  • Ming Xu,
  • Zhe‐ming Bao,
  • Zi‐wei Hou,
  • Xiu‐chun Yu

DOI
https://doi.org/10.1111/os.14070
Journal volume & issue
Vol. 16, no. 6
pp. 1508 – 1513

Abstract

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Background Revision of tumor‐type prosthetic fractures is very challenging in clinical work. Traditional repair methods may not be able to meet the needs of complex cases or cause greater bone damage. Therefore, more effective and reliable solutions need to be found. Case Presentation This study presents a novel revision technique for managing fractures of tumor‐type total elbow prostheses. A 57‐year‐old female patient was diagnosed with a left distal humeral bone tumor accompanied by pathological fracture and underwent customized tumor‐type total elbow prosthesis arthroplasty. After 5 years, she experienced pain and encountered difficulty in flexing the left elbow while lifting heavy objects. The X‐ray examination revealed a fracture of the distal humeral prosthesis. As a response, the elbow joint was initially explored, and the damaged component of the prosthesis was extracted. Subsequently, we utilized 3D printing technology to design a split‐piece sleeve prosthesis and effectively restored the fractured left distal humerus implant. During the 2‐year follow‐up, The X‐ray demonstrated satisfactory positioning of the prosthesis, which remained securely affixed without any indications of loosening. The Mayo Elbow Performance Score (MEPS) reached 80 points, the Musculoskeletal Tumor Society (MSTS) attained a score of 28 points, and the range of motion of the elbow was measured between 25° and 110°, revealing favorable functional outcomes. Conclusion The utilization of a 3D printed split‐piece sleeve prosthesis presents a viable clinical treatment strategy for addressing fractures in tumor‐type elbow prostheses.

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