Surgery-first for a patient with mild hemifacial microsomia: A case report and review of literature

Ji-Yu Song, Hua Yang, Xi He, Shuang Gao, Guo-Min Wu, Min Hu, Yi Zhang

Ji-Yu Song, Min Hu, Yi Zhang, Department of Orthodontics, Hospital of Stomatology, Jilin University, Changchun 130000, Jilin Province, China

Hua Yang, Department of General Dentistry, Hospital of Stomatology, Jilin University,Changchun 130000, Jilin Province, China

Xi He, Department of Prosthodontics, Hospital of Stomatology, Jilin University, Changchun 130000, Jilin Province, China

Shuang Gao, Department of Endodontics, Hospital of Stomatology, Jilin University, Changchun 130000, Jilin Province, China

Guo-Min Wu, Plastic Aesthetic Center, Hospital of Stomatology, Jilin University, Changchun 130000, Jilin Province, China

Abstract BACKGROUND Hemifacial microsomia (HFM) is the second most common craniofacial congenital anomaly following cleft lip and palate. Because of the various phenotypic spectra and the severity of the deformity, a wide range of treatment approaches have been proposed. Recently, the surgery-first approach (SFA) was introduced to treat mild to moderate HFM, and it yielded a balanced facial appearance. The SFA not only promotes rapid improvement in facial aesthetics but also considerably reduces the overall treatment time.CASE SUMMARY A female patient, aged 25 years old, sought orthodontic treatment with the chief complaint of dental and facial asymmetry. After a comprehensive physical examination and imaging analysis were performed, the patient was diagnosed with mild HFM that was primarily attributed to unilateral abnormal development of the maxilla-mandibular. The SFA was carried out to correct the skeletal deformity. The palatal suture was used as the midline of the maxilla in the surgical plan to center the maxilla, and the chin was also properly positioned to obtain a relatively symmetrical facial appearance. Four weeks after the surgery,the patient was referred for postsurgical orthodontics to decompensate the dentition and stabilize the occlusion. After 20 mo of treatment, all orthodontic appliances were removed. The posttreatment photographs of the patient and her smile confirmed good aesthetic and occlusal results.CONCLUSION Mild HFM can be corrected by SFA, which not only promotes rapid improvement in facial aesthetics but also considerably reduces the overall treatment time.

Key Words: Hemifacial microsomia; Skeletal deformity; Surgery-first approach;Orthodontics; Orthognathics; Case report

INTRODUCTION

Hemifacial microsomia (HFM) is the second most common craniofacial congenital anomaly following cleft lip and palate. It is characterized by a developmental defect in any structure of the first and second pharyngeal arch leading to predominantly asymmetric hypoplasia of their derivatives, characterized by unilateral maxillamandibular hypoplasia and facial asymmetry. In addition to maxilla-mandibular anomalies, this condition also involves underdevelopment of the ear, zygoma,temporal bone and the associated musculature and soft tissues[1-4].

Kearnset al[5]hypothesized that abnormal mandibular growth is the earliest skeletal manifestation and plays a vital role in progressive deformity, which provided the rationale for treatments focused on lengthening the mandible. For adults after pubertal growth, mandibular hypoplasia and facial asymmetry can be corrected by combined orthodontic-orthognathic treatment. Conventional three-stage orthodonticorthognathic treatment, which includes presurgical orthodontics, orthognathic surgery and postsurgical orthodontics, is well established and used in most cases to correct skeletal deformities[6]. However, one drawback of conventional orthodonticorthognathic treatment is that long-term presurgical treatment typically worsens the facial appearance and exacerbates malocclusion, which further antagonizes HFM patients, whose abnormal facial appearance may have already influenced their psychological health and social interaction[7-9].

Recently, the surgery-first approach (SFA) has attracted a great deal of interest because it corrects skeletal deformities early and is followed by orthodontic treatments to align, level and stabilize the occlusion[10-12]. This approach promotes rapid improvement in facial aesthetics and leads to psychosocial benefits, especially for HMF patients. In addition, some scholars have demonstrated a large reduction in the total treatment time, by as much as 50%, by using the SFA[13,14]. Without presurgical orthodontic information on the true underlying skeletal deformity, positioning the jaw properly without compromising the surgical results is very challenging for surgeons to perform, especially in HMF patients with complex dentofacial deformities, which require careful treatment planning and strong collaborations between skilled orthodontists and surgeons to predict accurately the surgical skeletal movement and postsurgical tooth movement.

This case report presents a successful SFA with the combination of temporary miniscrew anchorage devices performed in a patient with mild HFM.

CASE PRESENTATION

Chief complaints

A female patient, aged 25 years old, sought orthodontic treatment with the chief complaint of dental and facial asymmetry (Figures 1 and 2).

History of present illness

She had no systemic diseases.

History of past illness

She had an aesthetic injection in her right chin and no other significant medical histories and denied a genetic history.

Personal and family history

She had no family history.

Physical examination

Pretreatment frontal face evaluation showed an asymmetrical face with the right side larger than the left, the chin shifted to the left, and pronounced inclination of the occlusal plane. The two pupils were also not on the same horizontal line (Figure 1).The intraoral examination showed a more than full-cusp class III molar relationship and crossbites in the left posterior region (Figure 2). The maxillary right second molar was congenitally missing, and the right second mandibular molar had a serious defect in the dental hard tissues. The maxillary midline was diverted to the right by 4 mm,the mandibular midline was shifted to the left by 6 mm, and there was a marked inclination of the maxillary occlusal plane.

Laboratory examinations

The analysis of study casts showed an overjet of -0.15 to 2.48 mm and crowding in the maxillary and mandibular anterior (Table 1, Figure 3A). The anterior Bolton index was 83%, and the overall Bolton index was 96% (17 was absent, Table 1).

Imaging examinations

The panoramic radiograph indicated the absence of tooth 17 and mild alveolar absorption in the whole dentition (Figure 4). The lateral cephalometric analysis indicated a skeletal class III relationship (ANB, 1.9°; Wits appraisal, -5.7°) (Figure 4A,Table 2). Ricketts’ frontal cephalometric analysis (Table 3) showed skeletal asymmetry of the mandible and mandibular dental asymmetry (Figure 4B). The functional examination showed no signs of temporomandibular joint (TMJ) disorder, but the mandible deflected to the left when the jaw was opened (Figure 5). The cone beam computed tomography (CBCT) image analysis of facial asymmetry (Figure 6) showed that both the frontal and lateral ramal inclinations and the mandibular body length were larger on the right side than on the left side, which contributed to the mandibular deviation toward the left (Figure 4B). Not only was mandible asymmetry present, but the bilateral orbital, zygomatic and maxilla were also asymmetrically developed. There were no obvious symptoms in her ear.

MULTIDISCIPLINARY EXPERT CONSULTATION

Zhang Y, PhD, Lecturer, Department of Orthodontics, Hospital of Stomatology, Jilin University

Considering the severely inclined occlusal plane and facial asymmetry, combined orthodontic-orthognathic treatment was a valid approach to achieve an ideal treatment outcome.

Conventional orthodontic-orthognathic treatment includes three phases: (1)Presurgical orthodontics to decompensate the dentition to increase the magnitude of surgical correction; (2) Orthognathic surgery to correct the skeletal deformity; and (3)Postsurgical orthodontics to finish and detail the occlusion. However, one drawback is that the time-consuming presurgical orthodontic treatment typically worsens the facial appearance and exacerbates the malocclusion, which does not resolve the patient’s chief complaint.

Table 1 The analysis of initial study casts

The SFA corrects the skeletal deformity early and is followed by postsurgical orthodontics to decompensate the dentition and stabilize the occlusion. This approach promotes rapid improvement in facial aesthetics and considerably reduces the overall treatment time. When presurgical orthodontics is not performed to decompensate the dentition and identify the true underlying skeletal deformity, incorporating decompensation movements of the dentition into surgical planning requires strong collaborations between skilled orthodontists and surgeons to predict accurately the surgical skeletal movement and postsurgical tooth movement.

Wu GM, Chief Physician, Plastic Aesthetic Center, Hospital of Stomatology, Jilin University

Based on comprehensive examinations and analyses, including cephalometric analysis,dental cast predictions, and surgical simulations on profile images of the patient that were performed on imaging software (Dolphin Imaging and Management Solutions,Chatsworth, CA, United States), it was determined that the treatment plan should include a LeFort 1 osteotomy to advance and move the maxilla clockwise, a bilateral sagittal split ramus osteotomy to create a differential setback and coordination of the maxilla to correct the facial asymmetry and the skeletal deformity and postsurgical orthodontics to obtain a stable occlusion.

FINAL DIAGNOSIS

The patient was diagnosed with the following: (1) Mild HFM that was primarily attributed to unilateral abnormal development of the maxilla and mandible in three dimensions; (2) A congenitally missing tooth (17); (3) Two teeth with microdontia (12 and 22); and (4) Chronic periodontitis.

TREATMENT

After considering the two treatment alternatives (conventional orthodontic-orthognathic treatment and the SFA), the authors and the patient decided on the SFA:Two-jaw surgery followed by postsurgical orthodontics for decompensation to achieve a proper incisor inclination and stable occlusion. After the initial phase of the periodontal treatment, preadjusted 0.022-0.028-in brackets (DamonTMQ Standardized Torque, Ormco Corporation, Orange, CA, United States) were directly bonded to all teeth (except 47) 1 wk before surgery, with initial 0.014-in nickel-titanium archwires in both arches. Both orthodontists and surgeons participated in the surgical plan to predict accurately the surgical skeletal movement and postsurgical tooth movement.

Table 2 Cephalometric analysis at pretreatment and posttreatment

It is worth mentioning that we used the palatal suture as the midline of the maxilla to center the maxilla. Then, the maxillary movement was expected to advance by 1.5 mm and drift to the left by 2 mm, leading to 2 mm of impaction on the right side and 2 mm of extrusion on the left side. Although the postsurgery dental midline can divert to the left (without presurgical orthodontics being performed to decompensate the dentition) (Figure 3B), the maxilla was located in the center of the craniofacial area,which contributed the same nasolabial sulcus depth on both sides and a balanced facial appearance. A self-tapping miniscrew (MB105-1.6×11×7.3, Ningbo Cibei Medical Treatment Appliance Co. Ltd., Cixi, China) was placed behind the roots of the maxillary first molar on the labial side in surgery to retract with strong anchorage and to coordinate the midline in postsurgical orthodontics. The mandible was moved back by 3 mm on the left and 9 mm on the right, and the chin was placed in the middle.Considering the asymmetry of the height of the mandibular body and the mandibular angle, curved mandibular angle osteotomy and contour repair of the edge of the mandible were also carried out to correct the skeletal asymmetry. Rigid fixation was used in the maxilla and the mandible without any intermaxillary fixation.

Four weeks after the operation, the patient was referred back to the clinic to begin her postsurgery orthodontic treatment. The postsurgery face evaluation showed a symmetrical facial appearance and a straight profile. The intraoral examination showed a dental class II occlusal relationship with 6 mm of overjet (Figure 7).Orthodontic alignment and leveling of the maxillary and mandibular dental archeswere performed with 0.014-in, 0.016-in, 0.016-0.022-in and 0.018-0.025-in superelastic NiTi wires. To expand the upper arch and coordinate with the lower arch, the inclinations of the posterior maxillary teeth, especially on the right side, were corrected by individual twists in the stainless-steel arches (lingual root torque) to allow the teeth to be properly positioned relative to the jaws. We used 0.019-0.025-in stainless steel wires for finishing and detailing (Figure 8). All brackets and miniscrews were debonded and removed at 20 mo, and the patient was referred to restore 36 and 47.Considering the patient’s lightly tetracycline stained teeth and the abnormal maxillary lateral incisor, she was also referred for aesthetic restoration with ceramic veneer in the maxilla and mandibular anterior region. Hawley retainers were designed to prevent the recurrence of the deformity.

Table 3 Frontal cephalometric analysis at pretreatment and posttreatment

Figure 1 Pretreatment facial photographs.

Figure 2 Pretreatment oral photographs.

Figure 3 The study casts. A: Pretreatment study casts; B: Designed postsurgical study casts; C: Posttreatment study casts.

OUTCOME AND FOLLOW-UP

The posttreatment photographs of the patient confirmed good aesthetic and occlusal results (Figures 9 and 10). The cephalometric analysis (Figure 11, Tables 2 and 3) and the superimposition (Figure 12) showed significant improvement in the soft and hard tissues. The panoramic radiograph confirmed parallel root positioning (Figure 11C).The facial asymmetry analysis performed by CBCT showed that both the source and magnitude of the deviations were corrected (Figure 6). The CBCT image of the TMJ showed no significant change in the condylar region after treatment (Figure 5).

Figure 4 Initial radiograph. A: Lateral cephalometric radiograph; B: Posteroanterior radiograph; C: Panoramic radiograph.

Figure 5 Cone beam computed tomography image of the temporomandibular joint. A: Pretreatment; B: Posttreatment.

DISCUSSION

HFM is a complex form of dysmorphogenesis with a wide range of clinical presentations in terms of severity[4]. Although the exact etiology of HFM has not yet been determined, Kearnset al[5]hypothesized that abnormal mandibular growth is the earliest skeletal manifestation and plays a vital role in progressive deformity. When mandibular growth is restricted, vertical growth of the midface also diminishes,causing a tilted maxillary occlusal plane and asymmetry of the zygomatic and orbital regions. The Pruzansky-Kaban classification includes three mandibular types that are distinguished based on the degree of mandibular hypoplasia and the positions of the TMJ and glenoid fossa: Type I (normally shaped but small in size), type II (hypoplastic or malformed, and sometimes malpositioned) and type III (the TMJ, ramus, and glenoid fossa are absent)[15-17]. For mild and moderate HFM adult patients, the aim of treatment is to correct the asymmetries in both the maxilla and the mandible.Combined orthodontic-orthognathic treatment was the approach used to achieve the above objectives.

Figure 6 Three-dimensional image of facial asymmetry generated from cone beam computed tomography and facial asymmetry analysis.

Recently, the SFA was introduced to overcome some of the limitations of conventional orthodontic-orthognathic treatment for mild to moderate HFM. It is well documented that HMF patients typically suffer from low confidence and even selfcontempt[18,19]. Some of them are eager to improve their facial aesthetics and want to prevent the progressive deterioration of their facial appearance that can occur with presurgical orthodontics. A meta-analysis on the impact of the SFA indicated that SFA can immediately and persistently contribute to better oral health-related quality of life in patients with dentofacial deformities[20]. The SFA not only promotes rapid improvement in facial appearance but also considerably reduces the overall treatment time by eliminating the time-consuming presurgical orthodontic stage and facilitating tooth movement after surgery. The phenomenon of increased mobility of the teeth after orthognathic surgery has been attributed to the regional acceleratory phenomenon (RAP).

The RAP is a physiologic process that involves a decrease in regional bone density and accelerated bone turnover, causing fast tissue reorganization and healing[21].Several mechanisms have been proposed for the osteopenic effect in the RAP[22-24]. Liouet al[13]demonstrated that the level of serum C-terminal telopeptide of type I collagen (a candidate marker to detect the activities of osteoclasts) significantly increased in the first week to the third month postoperatively and that the serum alkaline phosphatase(an enzyme for bone formation and associated with osteoblasts) increased in the first to fourth month postoperatively, which indicated a transient burst of bone remodeling and turnover activities after orthognathic surgery. The SFA takes advantage of this 3-4 mo golden window for the most time-consuming stage: Alignment, leveling and decompensation, thus considerably reducing the overall treatment time[13].

Although the SFA provides several positive aspects, developing accurate designs of skeletal movement and incorporating decompensation movements of the dentition into surgical planning are the keys to successful treatment. Previous studies have suggested that the correction of mandibular asymmetry is the key to the treatment of facial asymmetry[25-28]. However, maxilla asymmetry (the difference between the two sides of maxilla height and the deviation of middle palatal suture) is also related to the inclination of the occlusal plane and the difference in the nasolabial sulcus depth on both sides. Thus, the correction of the maxillary deviation is also important for patients with skeletal asymmetry, especially for HFM patients who have complex threedimensional craniomaxillary deformities[29]. For the patient in our study, we used the palatal suture as the midline of the maxilla to center the maxilla. Considering the deviation in the palatal suture, we shifted the maxilla to the left by 2 mm to align the middle palatal suture with the midline of the craniofacial suture, which may contribute the same nasolabial sulcus depth on both sides and a balanced facial appearance. Shifting of the maxilla may make the central upper dental midline move to the left, which is due to a lack of presurgical orthodontic decompensation to align the midlines of the upper dentition and the maxilla. Then, a miniscrew was placed behind the roots of the maxillary first molar on the labial side to retract with strong anchorage and to align the midlines in postsurgical orthodontics. The CBCT image analysis of facial asymmetry showed that the height of the right maxilla is higher than that of the left maxilla. We created impaction by 2 mm on the right side and extrusion by 2 mm on the left side to correct the inclination of the occlusal plane. The movement of the mandible was also planned according to the CBCT analysis of facial asymmetry to correct the skeletal deformity and to obtain a balanced facial appearance.

In addition to correcting the skeletal deformities, obtaining a balanced soft-tissue appearance is also important in these HFM patients. Previous discussions in the literature regarding facial symmetry are associated with facial attractiveness, and the chin is the most striking feature related to facial asymmetry[30,31]. Therefore, facial asymmetry is usually defined by the extent of soft-tissue menton deviation from the midsagittal reference midline[32]. Typically, the midsagittal reference midline is defined as a line perpendicular to the pupillary line[33]. However, considering the asymmetrically developed orbital and zygomatic bones in these hemifacial hypoplasia patients, we cannot completely correct these patients' facial asymmetry. It was difficult to place the chin of this patient in the proper position to attain a symmetrical and balanced facial appearance. For this patient, we used the line between the point of nasion of soft tissue and the point of subnasale as the facial reference midline to locate her chin. Although the soft-tissue menton was not consistent with the line perpendicular to the pupillary line, the final results confirm a relatively symmetrical facial appearance.

Figure 8 The process of orthodontic treatment.

CONCLUSION

With collaborations between skilled orthodontists and surgeons, mild HFM can be corrected by the SFA. The SFA promotes rapid improvement in facial aesthetics and considerably reduces the overall treatment time.

It is worth mentioning that we used the palatal suture as the midline of the maxilla in the surgical plan to center the maxilla and obtain a balanced facial appearance.

In these HMF patients with complex dentofacial deformities, placing the chin in the proper position is important for obtaining a relatively symmetrical facial appearance.

Figure 9 Final facial photographs.

Figure 10 Final intraoral photographs.

Figure 11 Final radiograph. A: Lateral cephalometric radiograph; B: Posteroanterior radiograph; C: Panoramic radiograph.

Figure 12 Tracing and superimposition of cephalograms at pretreatment (red) and posttreatment (blue). A: Cranial base superimposition to evaluate surgical changes in bone and soft tissues on lateral cephalogram; B: Maxillary superimposition on lateral cephalogram; C: Mandibular superimposition to evaluate tooth movement, extrusion and incisor repositioning on lateral cephalogram; D: Tracing and superimposition of posteroanterior cephalograms at pretreatment (red) and posttreatment (blue).

ACKNOWLEDGEMENTS

I would like to thank the patient for her cooperation during the treatment. Thanks to my colleagues and nursing staff in our hospital.