Halil İbrahim Canter scite author profile

Stereolithographic (medical rapid prototyping) biomodeling allows three-dimensional computed tomography to be used to generate solid plastic replicas of anatomic structures. Reports in the literature suggest that such biomodels may have a use in maxillofacial surgery, craniofacial surgery, orthopedics, neurosurgery, otology, vascular, and nasal research. A prospective trial to assess the usefulness of biomodeling in orthognathic surgery has been performed. In 12 patients with mandibular prognathism and/or maxillary retrusion, in addition to routine preoperative cephalometric analysis, preoperative high-resolution (cutting slice thickness of 1 mm) three-dimensional computed tomography scan of the patients was obtained. Raw data obtained from computed tomography scanning was processed with a Mimics 9.22 Software (Materialise's Interactive Medical Image Control System, Belgium). Fabrication of three-dimensional medical models was obtained through a process called powder depositional modeling by use of a Spectrum Z 510 3D Color Printer (Z Corporation, Burlington, MA). Alveolar arches of the maxilla and mandibula of the models were replaced with orthodontic dental cast models. Temporomandibular joints of the models were fixed with Kirschner wire. Maxillary and mandibular bony segments were mobilized according to preoperative orthodontic planning done by analysis of cephalometric plain radiographs. The relation between proximal and distal mandibular segments after bilateral sagittal split osteotomies were evaluated on models preoperatively. The same surgeon had a role in both model cutting preoperatively and as an instructor preoperatively. The same bony relation was observed both in preoperative modelsand in the perioperative surgical field in all patients. Condylar malpositioning was not observed in any of the patients. Studying preoperative planned movements of osteotomized bone segments and observing relations of osteotomized segments of mandibula and maxilla in orthognathic surgery increased the intraoperative accuracy. Limitations of this technology were manufacturing time and cost.

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Comparison of Facial Soft Tissue Measurements on Three-Dimensional Images and Models Obtained With Different Methods

Germeç-Çakan¹,

Canter²,

Nur³

et al. 2010

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Facial impression may be problematic owing to the depression caused by the impression material especially on the tip of the nose. Laser scanning is not sensitive enough to visualize the deeper indentations such as nostrils. Stereophotogrammetry is promising for three-dimensional facial measurements and even will be better when color identification between mucocutaneous junctions of the lip region is achieved.

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Interdisciplinary treatment of a patient with bilateral cleft lip and palate and congenitally missing and transposed teeth

Germeç-Çakan

Canter

Çakan

et al. 2014

American Journal of Orthodontics and Dentofacial Orthopedics

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Comparison of Clinical Outcomes between Single- and Multiple-Perforator–Based Free Thoracodorsal Artery Perforator Flaps

Karaaltın

Erdem

Kuvat

et al. 2011

Plastic and Reconstructive Surgery

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Generation of Skin Tissue Using Adipose Tissue-Derived Stem Cells

Ozpur

Güneren

Canter

et al. 2016

Plastic and Reconstructive Surgery

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