1.Model test study on treatment of Pruzansky type ⅡB and Ⅲ hemifacial microsomia with artificial condyle-mandibular distractor complex.
Ruilin ZHAO ; Xi FU ; Jia QIAO ; Yu HE ; Shixing XU ; Ying CHEN ; Bing YU ; Jianfeng LIU ; Feng NIU
Chinese Journal of Reparative and Reconstructive Surgery 2023;37(10):1270-1275
OBJECTIVE:
To preliminarily verify the effectiveness of self-designed artificial condyle-mandibular distraction (AC-MD) complex in the treatment of Pruzansky type ⅡB and Ⅲ hemifacial microsomia (HFM) through model test.
METHODS:
Five children with Pruzansky type ⅡB and Ⅲ HFM who were treated with mandibular distraction osteogenesis (MDO) between December 2016 and December 2021 were selected as the subjects. There were 3 boys and 2 girls wih an average age of 8.4 years (range, 6-10 years). Virtual surgery and model test of AC-MD complex were performed according to preoperative skull CT of children. The model was obtained by three-dimensional (3D) printing according to the children's CT data at a ratio of 1∶1. The occlusal guide plate was designed and 3D printed according to the children's toothpaste model. The results of the model test and the virtual surgery were matched in three dimensions to calculate the error of the residual condyle on the affected side, and the model test was matched with the actual skull CT after MDO to measure and compare the inclination rotation of the mandible, the distance between the condylar of the healthy side and the residual condyle of the affected side, and the lengthening length of the mandible.
RESULTS:
The error of residual condyle was (1.07±0.78) mm. The inclination rotation of the mandible, the distance between the condylar of the healthy side and the residual condyle of the affected side, and the lengthening length of the mandible after 3D printing model test were significantly larger than those after MDO ( P<0.05).
CONCLUSION
In the model test, the implantation of AC-MD complex can immediately rotate the mandible to the horizontal position and improve facial symmetry, and the residual condyle segment can be guided close to the articular fossa or the preset pseudoarticular position of the skull base after operation.
Male
;
Child
;
Female
;
Humans
;
Goldenhar Syndrome/surgery*
;
Mandible/surgery*
;
Osteogenesis, Distraction/methods*
;
Printing, Three-Dimensional
;
Facial Asymmetry/surgery*
2.Osteogenesis imperfecta and combined orthodontics and orthognathic surgery: a case report on two siblings
Dong Young KIM ; Unbong BAIK ; Ju Hong JEON
Journal of the Korean Association of Oral and Maxillofacial Surgeons 2020;46(1):70-77
Osteogenesis imperfecta is a heterogeneous group of connective tissue diseases that is predominantly characterized by bone fragility and skeletal deformity. Two siblings with undiagnosed type I osteogenesis imperfecta underwent orthognathic surgery for the treatment of facial asymmetry and mandibular prognathism. The authors report two cases of combined orthodontics and orthognathic surgery in patients with type I osteogenesis imperfecta, mandibular prognathism, and facial asymmetry.
Congenital Abnormalities
;
Connective Tissue Diseases
;
Facial Asymmetry
;
Humans
;
Orthodontics
;
Orthognathic Surgery
;
Osteogenesis Imperfecta
;
Osteogenesis
;
Prognathism
;
Siblings
3.Correction of Eyes and Lip Canting after Bimaxillary Orthognathic Surgery.
Chae Eun YANG ; Jae Young BAE ; Jina LEE ; Dae Hyun LEW
Yonsei Medical Journal 2018;59(6):793-797
Patients who have a lower facial asymmetry with compensatory head posture (developmental facial asymmetry) may have minor temporomandibular (T-M) joint problems and tend to mask their asymmetry by tilting the head for camouflage of their chin deviation. However, this compensatory head posture can give the impression of orbital dystopia and c spine deviation. When these patients undergo bimaxillary orthognathic surgery, orbital canting and head tilting improves gradually without the need for camouflage, and bleary eyes become clearer. We evaluated 13 patients who underwent LeFort I osteotomy combined with bilateral sagittal split osteotomy of the mandible for developmental facial asymmetry to quantitatively observe whole facial postural changes after surgery. Pre-operative and post-operative 1:1 full-face photographs of the patients were analyzed to compare the degrees of head tilting and orbital canting and the sizes of the eye opening. After bimaxillary orthognathic surgery, eye canting decreased from 2.6° to 1.5°, eye and lip lines came closer to parallel, and the degree of head tilting decreased from 3.4° to 1.3°. The eyes also appeared to open wider. Correction of lower facial skeletal asymmetry through bimaxillary orthognathic surgery improved head tilting and orbital canting gradually by eliminating the need of compensatory head posture. Facial expressions also changed as the size of the eyes increased due to the reduction of facial muscle tension caused by T-M joint dysfunction.
Chin
;
Facial Asymmetry
;
Facial Expression
;
Facial Muscles
;
Head
;
Humans
;
Joints
;
Lip*
;
Mandible
;
Masks
;
Orbit
;
Orthognathic Surgery*
;
Osteotomy
;
Posture
;
Spine
;
Treatment Outcome
4.Orthognathic treatment of facial asymmetry due to temporomandibular joint ankylosis
Ayse GULSEN ; Serhat SIBAR ; Selahattin OZMEN
Archives of Plastic Surgery 2018;45(1):74-79
The aim of this study was to present a case series of the orthognathic treatment of facial asymmetry due to temporomandibular joint (TMJ) ankylosis and to characterize the current treatment modalities through a literature review. Four patients who presented with facial asymmetry due to TMJ ankylosis between 2010 and 2014 were included in this study. TMJ ankylosis was surgically treated before bimaxillary surgery with advancement genioplasty in some of the cases. In 2 cases, 3-dimensional (3D) models were used for diagnosis and treatment planning, as 3D models are very important tools for planning surgical maneuvers. Aesthetically pleasant facial symmetry and a good facial profile were obtained in all the cases.
Ankylosis
;
Cephalometry
;
Diagnosis
;
Facial Asymmetry
;
Genioplasty
;
Humans
;
Maxillofacial Development
;
Orthognathic Surgery
;
Temporomandibular Joint
5.Orthognathic surgery for patients with fibrous dysplasia involved with dentition
Santhiya Iswarya Vinothini UDAYAKUMAR ; Jun Young PAENG ; So Young CHOI ; Hong In SHIN ; Sung Tak LEE ; Tae Geon KWON
Maxillofacial Plastic and Reconstructive Surgery 2018;40(1):37-
BACKGROUND: Fibrous dysplasia (FD) is characterized by the replacement of normal bone by abnormal fibro-osseous connective tissue and typically treated with surgical contouring of the dysplastic bone. When dysplastic lesions involve occlusion, not only is surgical debulking needed, orthognathic surgery for correction of dentofacial deformity is mandatory. However, the long-term stability of osteotomized, dysplastic bone segments is a major concern because of insufficient screw-to-bone engagement during surgery and the risk of FD lesion re-growth. CASE PRESENTATION: This case report reviewed two patients with non-syndromic FD that presented with maxillary occlusal canting and facial asymmetry. Le Fort I osteotomy with recontouring of the dysplastic zygomaticomaxillary region had been performed. The stability of osseous segments were favorable. However, dysplastic, newly formed bone covered the previous plate fixation site and mild bony expansion was observed, which did not influence the facial profile. Including the current cases, 15 cases of orthognathic surgery for FD with dentition have been reported in the literature. CONCLUSION: The results showed that osteotomy did not appear to significantly reduce the long-term stability of the initial fixation insufficiency of the screw to the dysplastic bone. However, based on our results and those of the others, long-term follow-up and monitoring are needed, even in cases where the osteotomized segment shows stable results.
Connective Tissue
;
Dentition
;
Dentofacial Deformities
;
Facial Asymmetry
;
Follow-Up Studies
;
Humans
;
Orthognathic Surgery
;
Osteotomy
6.Positional change in mandibular condyle in facial asymmetric patients after orthognathic surgery: cone-beam computed tomography study
Byung Joon CHOI ; Byung Soo KIM ; Ji Min LIM ; Junho JUNG ; Jung Woo LEE ; Joo Young OHE
Maxillofacial Plastic and Reconstructive Surgery 2018;40(1):13-
BACKGROUND: We evaluated change in the mandibular condyle after orthognathic surgery using cone-beam computed tomography (CBCT) in patients with facial asymmetry. METHODS: Thirty patients with skeletal class III malocclusion and mandibular prognathism or facial asymmetry were classified into two groups according to the amount of menton deviation (MD) from the facial midline on anteroposterior (AP) cephalogram: group A (asymmetry, MD ≥ 4 mm; n = 15) and group B (symmetry, MD < 4 mm; n = 15). Position and angle of condylar heads on the axial, sagittal, and coronal views were measured within 1 month preoperatively (T0) and postoperatively (T1) and 6 months (T2) postoperatively. RESULTS: On axial view, both groups showed inward rotation of condylar heads at T1, but at T2, the change was gradually removed and the condylar head returned to its original position. At T1, both groups showed no AP condylar head changes on sagittal view, although downward movement of the condylar heads occurred. Then, at T2, the condylar heads tended to return to their original position. The change in distance between the two condylar heads showed that they had moved outward in both groups, causing an increase in the width between the two heads postoperatively. Analysis of all three-dimensional changes of the condylar head positions demonstrated statistically significant changes in the three different CBCT views in group B and no statistically significant changes in group A. CONCLUSIONS: There was no significant difference between the two groups in condylar head position. Because sagittal split ramus osteotomy can be performed without significant change in symmetrical and asymmetrical cases, it can be regarded as an effective method to stabilize the condylar head position in patients with skeletal class III malocclusion and mandibular prognathism or facial asymmetry.
Cone-Beam Computed Tomography
;
Facial Asymmetry
;
Head
;
Humans
;
Malocclusion
;
Mandibular Condyle
;
Methods
;
Orthognathic Surgery
;
Osteotomy, Sagittal Split Ramus
;
Prognathism
7.Comparison of changes in the transverse dental axis between patients with skeletal Class III malocclusion and facial asymmetry treated by orthognathic surgery with and without presurgical orthodontic treatment.
Han Sol SONG ; Sung Hwan CHOI ; Jung Yul CHA ; Kee Joon LEE ; Hyung Seog YU
The Korean Journal of Orthodontics 2017;47(4):256-267
OBJECTIVE: To evaluate transverse skeletal and dental changes, including those in the buccolingual dental axis, between patients with skeletal Class III malocclusion and facial asymmetry after bilateral intraoral vertical ramus osteotomy with and without presurgical orthodontic treatment. METHODS: This retrospective study included 29 patients with skeletal Class III malocclusion and facial asymmetry including menton deviation > 4 mm from the midsagittal plane. To evaluate changes in transverse skeletal and dental variables (i.e., buccolingual inclination of the upper and lower canines and first molars), the data for 16 patients who underwent conventional orthognathic surgery (CS) were compared with those for 13 patients who underwent preorthodontic orthognathic surgery (POGS), using three-dimensional computed tomography at initial examination, 1 month before surgery, and at 7 days and 1 year after surgery. RESULTS: The 1-year postsurgical examination revealed no significant changes in the postoperative transverse dental axis in the CS group. In the POGS group, the upper first molar inclined lingually on both sides (deviated side, −1.8°± 2.8°, p = 0.044; nondeviated side, −3.7°± 3.3°, p = 0.001) and the lower canine inclined lingually on the nondeviated side (4.0°± 5.4°, p = 0.022) during postsurgical orthodontic treatment. There were no significant differences in the skeletal and dental variables between the two groups at 1 year after surgery. CONCLUSIONS: POGS may be a clinically acceptable alternative to CS as a treatment to achieve stable transverse axes of the dentition in both arches in patients with skeletal Class III malocclusion and facial asymmetry.
Dentition
;
Facial Asymmetry*
;
Humans
;
Malocclusion*
;
Molar
;
Orthognathic Surgery*
;
Osteotomy
;
Retrospective Studies
8.Targeted presurgical decompensation in patients with yaw-dependent facial asymmetry.
Kyung A KIM ; Ji Won LEE ; Jeong Ho PARK ; Byoung Ho KIM ; Hyo Won AHN ; Su Jung KIM
The Korean Journal of Orthodontics 2017;47(3):195-206
Facial asymmetry can be classified into the rolling-dominant type (R-type), translation-dominant type (T-type), yawing-dominant type (Y-type), and atypical type (A-type) based on the distorted skeletal components that cause canting, translation, and yawing of the maxilla and/or mandible. Each facial asymmetry type represents dentoalveolar compensations in three dimensions that correspond to the main skeletal discrepancies. To obtain sufficient surgical correction, it is necessary to analyze the main skeletal discrepancies contributing to the facial asymmetry and then the skeletal-dental relationships in the maxilla and mandible separately. Particularly in cases of facial asymmetry accompanied by mandibular yawing, it is not simple to establish pre-surgical goals of tooth movement since chin deviation and posterior gonial prominence can be either aggravated or compromised according to the direction of mandibular yawing. Thus, strategic dentoalveolar decompensations targeting the real basal skeletal discrepancies should be performed during presurgical orthodontic treatment to allow for sufficient skeletal correction with stability. In this report, we document targeted decompensation of two asymmetry patients focusing on more complicated yaw-dependent types than others: Y-type and A-type. This may suggest a clinical guideline on the targeted decompensation in patient with different types of facial asymmetries.
Chin
;
Facial Asymmetry*
;
Humans
;
Mandible
;
Maxilla
;
Orthognathic Surgery
;
Tooth Movement
9.The effect of orthognathic surgery on the lip lines while smiling in skeletal class III patients with facial asymmetry.
Sang Hoon KANG ; Moon Key KIM ; Sang In AN ; Ji Yeon LEE
Maxillofacial Plastic and Reconstructive Surgery 2016;38(3):18-
BACKGROUND: The aim of this study was to examine the relationship between improvements in lip asymmetry at rest and while smiling after orthognathic surgery in patients with skeletal class III malocclusion. METHODS: This study included 21 patients with skeletal class III malocclusion and facial asymmetry. We used preoperative and postoperative CT data and photographs to measure the vertical distance of the lips when smiling. The photographs were calibrated based on these distances and the CT image. We compared preoperative and postoperative results with the t test and correlations between measurements at rest and when smiling by regression analyses. RESULTS: There were significant correlations between the postoperative changes in canting of the mouth corners at rest, canting of the canines, canting of the first molars, the slope of the line connecting the canines, and the slope of the line connecting first molars. The magnitude of the postoperative lip line improvement while smiling was not significantly correlated with changes in the canting and slopes of the canines, molars, and lip lines at rest. CONCLUSIONS: It remains difficult to predict lip line changes while smiling compared with at rest after orthognathic surgery in patients with mandibular prognathism, accompanied by facial asymmetry.
Facial Asymmetry*
;
Humans
;
Lip*
;
Malocclusion
;
Molar
;
Mouth
;
Orthognathic Surgery*
;
Prognathism
;
Smiling*
10.CAD/CAM splint based on soft tissue 3D simulation for treatment of facial asymmetry.
Kazuhiro TOMINAGA ; Manabu HABU ; Hiroki TSURUSHIMA ; Osamu TAKAHASHI ; Izumi YOSHIOKA
Maxillofacial Plastic and Reconstructive Surgery 2016;38(1):4-
BACKGROUND: Most cases of facial asymmetry involve yaw deformity, and determination of the yaw correction level is very difficult. METHODS: We use three-dimensional soft tissue simulation to determine the yaw correction level. This three-dimensional simulation is based on the addition of cephalometric prediction to gradual yaw correction. Optimal yaw correction is determined visually, and an intermediate splint is fabricated with computer-aided design and computer-aided manufacturing. Application of positioning devices and the performance of horseshoe osteotomy are advisable. RESULTS: With this procedure, accurate repositioning of jaws was confirmed and patients obtained fairly good facial contour. CONCLUSIONS: This procedure is a promising method for a widespread, predictable treatment of facial asymmetry.
Computer-Aided Design
;
Congenital Abnormalities
;
Facial Asymmetry*
;
Humans
;
Jaw
;
Methods
;
Orthognathic Surgery
;
Osteotomy
;
Splints*

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