| Literature DB >> 30152608 |
Xin-Long Ma1,2,3, Dong-Bin Wang2, Jian-Xiong Ma1,2, Ying Wang1,2, Lei Sun1,2, Bin Lu1,2, Yan Wang1,2, Xing-Wen Zhao1,2, Fei Li1,2, Zheng-Rui Fan1,2,3, Biao Han1,2,3, Hao-Hao Bai1,2, Bao-Cheng Yang1,2,3, Xuan Jiang1,2, Ai-Xian Tian1,2, Ben-Chao Dong1,2, Yu-Ren Du2.
Abstract
The clinical incidence of tumors in the manubrium is not high. Regardless of whether the tumor is primary or metastatic, the tumor should be completely removed as long as the patient is able to tolerate the surgery. This procedure can lead to sternal defects. Deciding on the method of defect reconstruction is a critical problem that clinicians face. In this , to reduce the limitations of the patient's upper body movement after surgery due to the inflexibility in the connections of the sternal prosthesis, we created a prosthesis using a computer-assisted design method and a 3-D technique, to completely preserve the agility of the sternum and maximize the patient's post-operational movement. The method used in the present study takes into consideration the individual's chest anatomy, sternum stress, and many other biological characteristics. Care is taken to measure the sternum size accurately, to provide personalized treatment, to accomplish precise results, and to reduce potential future damage. The patient's shoulder function was improved following the procedure.Entities:
Keywords: Diaphyseal defect; Intercalary endoprosthesis; Reconstruction; Surgical technique
Mesh:
Year: 2018 PMID: 30152608 PMCID: PMC6594517 DOI: 10.1111/os.12388
Source DB: PubMed Journal: Orthop Surg ISSN: 1757-7853 Impact factor: 2.071