Afaque R Memon1, Dongyuan Li1, Junlei Hu1, Enpeng Wang1, Dingzhong Zhang1, Xiaojun Chen1,2,3. 1. School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China. 2. Institute of Medical Robotics, Shanghai Jiao Tong University, Shanghai, China. 3. Engineering Research Center of Digital Medicine and Clinical Translation, Ministry of Education, Shanghai, China.
Abstract
BACKGROUND: The patient-specific templates for osteotomy often have complex surface features. Using current commercial software to design such templates is quite complicated, tedious and unrepeatable. AIMS: In this study, a novel surgical planning system for oral and maxillofacial surgery named EasyTemplate is developed, aiming to help doctors shorten the modelling time and assure the reliability in template design. MATERIALS & METHODS: In the simplified design process of an osteotomy guide, the main template can be formed efficiently using a surface offsetting algorithm, which is based on isosurface extraction and oriented bounding box. Thereafter, the cutting grooves can be generated automatically. RESULTS: A complicated surgical guide could be built accurately in about 10 min. Clinical orthognathic cases were conducted successfully using osteotomy and repositioning templates designed by EasyTemplate. DISCUSSION: Compared with commercially available softwares, higher efficiency and simpler design process were achieved, moreover, the time cost is one-third or even less. CONCLUSION: EasyTemplate can be a useful alternative to traditional softwares. This software allows the auto-generation algorithm which helps avoid a tedious modeling process while providing basic shapes for designers.
BACKGROUND: The patient-specific templates for osteotomy often have complex surface features. Using current commercial software to design such templates is quite complicated, tedious and unrepeatable. AIMS: In this study, a novel surgical planning system for oral and maxillofacial surgery named EasyTemplate is developed, aiming to help doctors shorten the modelling time and assure the reliability in template design. MATERIALS & METHODS: In the simplified design process of an osteotomy guide, the main template can be formed efficiently using a surface offsetting algorithm, which is based on isosurface extraction and oriented bounding box. Thereafter, the cutting grooves can be generated automatically. RESULTS: A complicated surgical guide could be built accurately in about 10 min. Clinical orthognathic cases were conducted successfully using osteotomy and repositioning templates designed by EasyTemplate. DISCUSSION: Compared with commercially available softwares, higher efficiency and simpler design process were achieved, moreover, the time cost is one-third or even less. CONCLUSION: EasyTemplate can be a useful alternative to traditional softwares. This software allows the auto-generation algorithm which helps avoid a tedious modeling process while providing basic shapes for designers.
Authors: Paweł Turek; Paweł Pakla; Grzegorz Budzik; Bogumił Lewandowski; Łukasz Przeszłowski; Tomasz Dziubek; Sławomir Wolski; Jan Frańczak Journal: J Clin Med Date: 2021-11-25 Impact factor: 4.241