| Literature DB >> 30059337 |
Po-Kuei Wu1, Yu-Chung Shih2, Chao-Ming Chen3, Geng Chen4, Wei-Ming Chen5, Li-Ying Huang6, Yu-Cheng Hung6, Te-Han Wang6, Wen-Chan Yu6, Chin-Kang Chang6, Bao-Chi Chang7, Pei-Hsin Lin6, Shyh-Jen Wang8.
Abstract
Three-dimensional (3D) printing technology can generate objects in almost any shape and geometry. This technique also has clinical applications, such as the fabrication of specific devices based on a patient's anatomy. A demonstration study is presented of a 54-year-old man who needed a thermoplastic splint to limit arm movement while a dehisced left shoulder wound healed. The patient's upper extremity was scanned using the appropriate noncontact scanner and 3D technology software, and the polylactic acid splint was printed over the course of 66 hours. This patient-specific splint was worn during the day, and after 2 weeks the wound was healed sufficiently to permit hospital discharge. Creation of an individualized splint is one of many potential medical uses of 3D technology. Although the lengthy printing time imposes limitations, the implications for practice are positive.Entities:
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Year: 2018 PMID: 30059337
Source DB: PubMed Journal: Ostomy Wound Manage ISSN: 0889-5899 Impact factor: 2.629