[Surgery on virtual model and 3-dimensional printing of a surgical wafer for the correction of a severe mandibular asymmetry]. / Virtuális modell-mutét és az okklúziós lemez háromdimenziós nyomtatása súlyos mandibula aszimmetria esetében.

Correction of a severe facial asymmetry presents a challenge due to the geometric complexity of the dentition, the bony structures and the soft tissues. In most asymmetric cases two-jaw surgery is recommended. Manual model surgery is an essential part of treatment planning but it can be complicated, time-consuming and may contain potential errors. We present a case of a 26-year-old male with a severe right-sided hemimandibular elongation when computerized simulation surgery was performed instead of manual model surgery. High-resolution computer tomography scan was done following presurgical orthodontics and the stack images were reformatted into a three-dimensional structure. The symmetry of the maxilla was corrected via a virtual Le Fort I osteotomy with the help of a three-dimensional planning software. A virtual intermediate surgical wafer was designed and fabricated with a three-dimensional printer. Virtual bilateral sagittal split osteotomy was performed and the mandible was rotated into the correct position to visualize the movements of the osteotomized segments. Real surgery was accomplished according to the virtual plan. The splint fitted well. There is a significant improvement in the facial symmetry; the occlusion is good and stable. This case supports the usage of computer-aided surgical planning and three-dimensional rapid prototyping for the correction of facial asymmetries.

Correction of a severe facial asymmetry with computerized planning and with the use of a rapid prototyped surgical template: a case report/technique article.

Management of significant facial asymmetry presents a challenge due to the geometric complexity of the bony and other facial structures. Manual model surgery is an essential part of treatment planning but it can be complicated, time-consuming and may contain potential errors. Computer-aided surgery has revolutionized the correction of maxillofacial deformities. The aim of this study was to report a case of facial asymmetry when computerised simulation surgery was performed instead of manual model surgery and a virtually planned wafer splint was fabricated. A 26-year-old male was presented with a severe right-sided hemimandibular elongation. Following presurgical orthodontics high-resolution computer tomography scan was performed. The stack images were reformatted into a three-dimensional structure. Virtual Le Fort-I osteotomy was performed and the symmetry of the maxilla was corrected with the help of a three-dimensional planning software. A virtual intermediate surgical wafer was designed and produced with three-dimensional rapid prototyping technology. The mandible was rotated into the correct position following virtual bilateral sagittal split osteotomy to visualize the movements of the osteotomised mandibular segments. The two-jaw procedure was performed according to the virtual plan. The facial symmetry was improved significantly and stable occlusion was achieved. This complex case shows the advantages of computer-aided surgical planning and three-dimensional rapid prototyping for the correction of facial asymmetries.