Virtual surgical planning is a useful tool in the surgical management of mandibular condylar fractures / 中华创伤杂志(英文版)

PURPOSE@#The aim of this study is to evaluate the application value of virtual surgical planning in the management of mandibular condylar fractures and to provide a reliable reference.@*METHODS@#This was a prospective randomized controlled study and recruited 50 patients requiring surgical treatment for their mandibular condylar fractures. The inclusion criteria were patients (1) diagnosed with a condylar fracture by two clinically experienced doctors and required surgical treatment; (2) have given consent for the surgical treatment; and (3) had no contraindications to the surgery. Patients were excluded from this study if: (1) they were diagnosed with a non-dislocated or only slightly dislocated condylar fracture; (2) the comminuted condylar fracture was too severe to be treated with internal reduction and fixation; or (3) patients could not complete follow-up for 3 months. There were 33 male and 17 female patients with 33 unilateral condylar fractures and 17 bilateral condylar fractures included. The 50 patients were randomly (random number) divided into control group (25 patients with 35 sides of condylar fractures) and experimental group (25 patients with 32 sides of condylar fractures). Virtual surgical planning was used in the experimental group, but only clinical experience was used in the control group. The patients were followed up for 1, 3, 6 and 12 months after operation. Variables including the rate of perfect reduction by radiological analysis, the average distance of deviation between preoperative and postoperative CT measurements using Geomagic software and postoperative clinical examinations (e.g., mouth opening, occlusion) were investigated for outcome measurement. SPSS 19 was adopted for data analysis.@*RESULTS@#The average operation time was 180.60 min in the experimental group and 223.2 min in the control group. One week postoperatively, CT images showed that the anatomic reduction rate was 90.63% (29/32) in the experimental group and 68.57% (24/35) in the control group, revealing significant difference (X2 = 4.919, p = 0.027). Geomagic comparative analysis revealed that the average distance of deviation was also much smaller in the experimental group than that in the control group (0.639 mm vs. 0.995 mm; t = 3.824, p < 0.001).@*CONCLUSION@#These findings suggest that virtual surgical planning can assist surgeons in surgical procedures, reduce operative time, and improve the anatomic reduction rate & accuracy, and thus of value in the diagnosis and treatment of condylar fractures.

Research on the precision of virtual surgical planning in two⁃jaw orthognathic surgery / 口腔疾病防治

Objective@#To provide a clinical reference by evaluating the precision of virtual surgical planning in two⁃ jaw orthognathic surgery.@*Methods @#Thirty consecutive patients who required two⁃jaw orthognathic surgery were includ⁃ ed. A composite skull model was reconstructed using data from spiral computed tomography scan and surface scanning of the dental arch. LeFort I osteotomy of the maxilla and bilateral sagittal split ramus osteotomy of the mandible were simulated using Dolphin Imaging 11.7 Premium. Genioplasty was performed if indicated. Virtual plan was then trans⁃ ferred to operation room using 3D⁃printed surgical templates. Frankfort horizontal plane (FHP), midfacial plane (perpen⁃ dicular to the FHP through the nasion), and coronal plane (perpendicular to the FHP through the sella point) were the selected three symmetry planes.Midpoint of the contact of the maxillary and mandibular central incisors (UI, LI), and the mesio⁃buccal cusp of the first maxillary and mandibular molars (U6⁃R,U6⁃L, L6⁃R, L6⁃L) were the six chosen volu⁃metric landmarks. To calculate the linear difference and overall mean linear difference (mean difference of the distance between UI, LI, U6⁃R, U6⁃L, L6⁃R, L6⁃L to FHP, midfacial and coronal plane) between simulated and postoperative models, the distance between selected landmarks and symmetry planes was measured. To calculate the angular differ⁃ ence and overall mean angular difference, values of the angles constructed by the occlusal, palatal, and mandibular plane to FHP and midfacial plane respectively were determined on simulated and postoperative models@* Results@#The virtual surgical planning was successfully transferred to actual surgery with the help of 3D⁃printed surgical templates. All patients were satisfied with the postoperative facial profile and occlusion. The overall mean linear difference was 0.81 mm (0.71 mm for maxilla and 0.91 mm for mandible); and the overall mean angular difference was 0.95° (the mean angular difference relative to FHP was 1.10°, and that relative to midfacial plane was 0.83°)@* Conclusion@#Virtual sur⁃ gical planning facilitated the diagnosis, treatment planning, and precise bony segments repositioning in two⁃jaw orthog⁃ nathic surgery.

Efficacy of 3d printing technology-assisted virtual surgical planning in Acetabular fracture fixation / 中国组织工程研究

BACKGROUND: Acetabular fracture is considered to be one of the most challenging fractures because of its complex anatomical structure, which makes it more difficult to treat. At present, open reduction and internal fixation are still the standard treatment methods for displaced acetabular fractures. The patient-specific pre-contour reconstruction template made by three-dimensional (3D) printing technology combined with preoperative virtual surgery plan can reduce the invasiveness of surgery and simplify the operation process. OBJECTIVE: To evaluate the effect of 3D printing combined with virtual surgical planning in the treatment of acetabular fractures compared with traditional reduction and reconstruction of acetabular fractures. METHODS: Totally 25 patients were selected from Affiliated Hospital of Chengde Medical College from October 1, 2017 to March 1, 2018, including 14 males and 11 females, at the age of 21-60 years old. They were divided into experimental group (n=12) and control group (n=13) by computer random grouping method. In the experimental group, printing technology combined with virtual pre-contour reconstruction plate fixation was performed. In the control group, intraoperative contour reconstruction plate fixation was conducted after reduction. Postoperative X-ray and non-contrast CT scan was used to analyze fracture reduction in two groups. After the operation, the patients in the two groups were followed up for visual analogue scale score, Majeed function score and complications. This study was approved by the Ethics Committee of Affiliated Hospital of Chengde Medical College (approval No. LL007). RESULTS AND CONCLUSION: (1) X-ray films showed that the reduction effect of the experimental group was better than that of the control group (P=0.038). Non-contrast CT images showed that the reduction displacement difference of the experimental group was better than that of the control group before and after operation [(12.43±7.58) mm, (9.408±8.27) mm, P < 0.05]. (2) At 6-12 months after surgery, visual analogue scale scores were lower in the experimental group than in the control group [(1,6±0.6), (3.3±1.3), P < 0.05], There were no significant differences in Majeed function scores between the two groups in the final follow-up (P=0.079). (3) Complications, such as delayed healing, failure of internal fixation or deep vein thrombosis, were not found; and no biocompatibility adverse reactions related to the implanted device occurred in the two groups after surgery. (4) Results suggested that 3D printing technology assisted virtual operation plan can improve the reduction quality in the fixation of acetabular fracture, improve the operative effect of acetabular fracture, and reduce the postoperative pain of patients.

Virtual surgical planning and intraoperative navigation for mandibular reconstruction: from accurate to minimal invasive / 中国修复重建外科杂志

Simultaneous restoration of function and appearance should be performed in mandibular reconstruction. Option of reconstructive techniques is determined by cause, location, extent, and classification of the mandibular defects. Vascularize bone graft is one of the most popular technique in current clinical practice of mandibular reconstruction. Fibula is the most common donor site for mandibular reconstruction. The disadvantage of low height of neo-mandible reconstructed by single fibular segment can be solved by vascularized double barrel fibula graft. Using virtual surgical planning and intraoperative navigation for mandibular reconstruction leads to simplify surgical procedure, reduce operating time and injury, and decrease donor site morbidity so that accurate mandibular reconstruction could be completed. Direction of minimal invasive surgery for mandibular reconstruction will be developed by intraoral approach and intraoral anastomosis.

The use of virtual surgical planning and navigation in the treatment of orbital trauma / 中华创伤杂志(英文版)

Virtual surgical planning (VSP) has recently been introduced in craniomaxillofacial surgery with the goal of improving efficiency and precision for complex surgical operations. Among many indications, VSP can also be applied for the treatment of congenital and acquired craniofacial defects, including orbital fractures. VSP permits the surgeon to visualize the complex anatomy of craniofacial region, showing the relationship between bone and neurovascular structures. It can be used to design and print using three-dimensional (3D) printing technology and customized surgical models. Additionally, intraoperative navigation may be useful as an aid in performing the surgery. Navigation is useful for both the surgical dissection as well as to confirm the placement of the implant. Navigation has been found to be especially useful for orbit and sinus surgery. The present paper reports a case describing the use of VSP and computerized navigation for the reconstruction of a large orbital floor defect with a custom implant.

Planejamento virtual tridimensional em cirurgia ortognática – um novo estado da arte / Virtual planning in orthognathic surgery – a new state of art

A utilização das novas tecnologias como métodos coadjuvantes no planejamento ortodôntico/cirúrgico vem crescendo e a compreensão das suas aplicações tem aumentado e se tornado mais embasada cientificamente. O uso de imagens tridimensionais (3D) ajuda no processo de planejamento do tratamento, monitora o progresso da terapia ortodôntica e avalia o momento da realização da cirurgia. O planejamento virtual para cirurgia ortognática através da utilização de tomografia computadorizada possibilita ao ortodontista e cirurgião um planejamento mais preciso e confiável. As cirurgias podem ser realizadas sobre o modelo virtual, sendo possível visualizar movimentos de diferentes segmentos ósseos e antecipar interferências no movimento cirúrgico. Deste modo, diferentes planejamentos cirúrgicos podem ser experimentados, otimizando os procedimentos, melhorando os resultados e reduzindo o tempo cirúrgico. Os autores têm como objetivo descrever o tratamento de uma paciente com deformidade óssea maxilo-mandibular, discutindo a relevância do planejamento virtual na dinâmica de tratamento desse tipo de deformidade.

The use of new technologies for in orthodontic/surgical planning has been growing. The understanding of its applications is increasing and becoming more scientifically based. The use of three-dimensional (3D) images help the treatment planning process, monitor the progress of orthodontic therapy and assess the time of surgery. The virtual surgical planning for orthognathic surgery using computed tomography enables the orthodontist and surgeon a more precise and reliable planning. The surgeries can be simulated on the software to visualize movements of different bone segments and anticipate interference on the surgical procedures. Different surgical plannings can be tested, improving the results and reducing surgical time. The authors aim to describe the treatment of a patient with dentofacial deformity discussing the relevance of virtual planning in this type of treatment.

The Role of Virtual Surgical Planning in the Era of Robotic Surgery

Among various surgical methods introduced to optimize esthetic results, robotic surgery has gradually expanded in scope. As incision, approach, and operation view in robotic surgery differ from existing surgical methods, we should consider reconstruction from a different perspective. We recently experienced two mandibular reconstruction cases after tumor ablative surgery with robotic neck dissection using the conventional reconstruction method and virtual surgical planning (VSP), respectively. We found that the conventional reconstruction method is inappropriate in modified facelift incision in robotic neck dissection because it provides limited surgical scope, restricts access to the defect area, and therefore, consumes considerable time before anastomosis. For these reasons, the authors consider VSP far more viable in the era of robotic surgery.

Considerations and Protocols in Virtual Surgical Planning of Reconstructive Surgery for More Accurate and Esthetic Neomandible with Deep Circumflex Iliac Artery Free Flap / 대한악안면성형재건외과학회지

PURPOSE: The reconstruction of mandibular defects poses many difficulties due to the unique, complex shape of the mandible and the temporomandibular joints. With development of microvascular anastomosis, free tissue transplantation techniques, such as deep circumflex iliac artery (DCIA) flap and fibular free flap (FFF), were developed. The DCIA offers good quality and quantity of bone tissue for mandibular segmental defect and implant for dental rehabilitation. Virtual surgical planning (VSP) and stereolithography-guided osteotomy are currently successfully applied in three-dimensional mandibular reconstruction, but most use FFF. There are only a few articles on reconstruction with the DCIA that assess the postoperative results. METHODS: Three patients admitted during a five month period (April of 2013 to August of 2013) underwent resection of mandible and DCIA musculo-osseous reconstruction using a VSP and stereolithographic modeling and assessment of outcomes included technical accuracy, esthetic contour, and functional outcomes. RESULTS: This technique yielded iliac bone segment with excellent apposition and duplication of the preoperative plan. Flap survival was 100 percent and all patients maintained preoperative occlusion and contour. CONCLUSION: Based on our experience, we offer considerations and logically consistent protocols by classification of mandibular defects, and demonstrate the benefits in VSP and stereolithographic modeling of mandibular reconstructive surgery with DCIA flap.

Virtual Surgical Planning and Stereolithography-guided Osteotomy for 3 Dimensional Mandibular Reconstruction with Free Fibula Osseous Flaps: A Case Report