Journal Basic Info
- Impact Factor: 1.995**
- H-Index: 8
- ISSN: 2474-1647
- DOI: 10.25107/2474-1647
Major Scope
- Bariatric Surgery
- Orthopaedic Surgery
- Oral and Maxillofacial Surgery
- Otolaryngology - Head and Neck Surgery
- General Surgery
- Endocrine Surgery
- Pediatric Surgery
- Urology
Abstract
Citation: Clin Surg. 2016;1(1):1001.Case Report | Open Access
Use of a Titanium Mesh Plate with High Three-Dimensional Flexibility to Repair an Orbital Floor Fracture: Clinical Note
Sukegawa S, Kanno T, Shibata A, Takahashi Y and Furuki Y
Division of Oral and Maxillofacial Surgery, Kagawa Prefectural Central Hospital, Japan
*Correspondance to: Shintaro Sukegawa
PDF Full Text DOI: 10.25107/2474-1647.1001
Abstract
Orbital blowout fractures are common sequelae of facial trauma. For their treatment, it is now possible to make three-dimensional (3D) implants on the basis of computed tomography (CT) images, using rapid prototyping and to bend the implants preoperatively in the desired shape. However, in orbital fracture, the unique anatomy of the orbit makes the process of fitting and aligning such implants difficult and operator-dependent. Here, we report the use of a unique and newly developed titanium mesh plate with high 3D flexibility to repair an orbital floor fracture. This mesh plate was designed basically in a hexagonal polygon shape. By creating a grating opening in the plate it is possible to alter its 3D shape. The material has high stretch ability, and its mechanical properties could be controlled to adapt to the complex geometric form of the bone. Postoperative evaluation by CT revealed that the preoperatively bent mesh plate was precisely located at the preoperatively planned site. In conclusion, use of this mesh plate system in combination with 3D models can be useful for the treatment of orbital fractures.
Keywords
Orbital fracture; High three-dimensional flexibility; Titanium mesh plate; Hexagonal shape
Cite the article
Sukegawa S, Kanno T, Shibata A, Takahashi Y, Furuki Y. Use of a Titanium Mesh Plate with High ThreeDimensional Flexibility to Repair an Orbital Floor Fracture: Clinical Note. Clin Surg. 2016; 1: 1001.