Abstracts
INTRODUCTION: Advancement genioplasty has been increasingly indicated for the correction of anterior mandibular deficiency as it balances the patient's profile and generates functional changes. OBJECTIVE: Thus, the aim of this study was to assess the effects of advancement genioplasty in the oropharyngeal size and in the position of the hyoid bone and tongue. METHODS: The sample comprised 22 lateral cephalometric radiographs of 11 individuals who had undergone advancement genioplasty alone. Eleven of these radiographs depicted the immediate preoperative period (T0) and the other 11 the postoperative period after at least four months (T1). The radiographs were scanned and exported to the Radiocef Studio 2.0® software (Radio Memory Ltda., Belo Horizonte, MG, Brazil). The landmarks were then identified and automatically measured by the program. RESULTS: The results showed statistically significant differences between the horizontal position of the hyoid bone and tongue and in the oropharyngeal size. The hyoid bone and tongue were repositioned anteriorly after surgery (p = 0.01), thereby increasing the dimension of the oropharyngeal airspace (p = 0.01). CONCLUSIONS: The oropharyngeal dimension increased as the tongue base and hyoid bone were repositioned more anteriorly
Orthognathic surgery; Chin; Oropharynx; Hyoid bone; Tongue
INTRODUÇÃO: a cirurgia de avanço de mento isolado tem sido cada vez mais indicada para a correção de deficiência anterior da mandíbula, harmonizando o perfil e gerando alterações funcionais. OBJETIVO: essa pesquisa teve a finalidade de avaliar os efeitos da cirurgia de avanço de mento no tamanho da orofaringe e nas posições do osso hioide e da língua. MÉTODOS: a amostra constou de 22 radiografias cefalométricas de perfil de 11 indivíduos que se submeteram à cirurgia de mentoplastia de avanço isolada. Dessas radiografias, 11 retratavam o período imediatamente pré-cirúrgico (T0) e 11 o pós-cirúrgico de, pelo menos, quatro meses (T1). As radiografias foram digitalizadas e transferidas para o programa Radiocef Studio 2.0, por meio do qual foram feitas as medições entre os pontos demarcados. RESULTADOS: verificaram-se diferenças estatisticamente significativas entre T0 e T1 quanto à posição do osso hioide e da língua no sentido horizontal e ao tamanho da orofaringe. O osso hioide se apresentou posicionado mais anterior em T1 (p = 0,01), assim como a língua, aumentando o tamanho da orofaringe (p = 0,01). CONCLUSÃO: houve aumento do espaço aéreo da orofaringe com o posicionamento mais anterior da base da língua, bem como a reposição do osso hioide anteriormente.
Cirurgia ortognática; Queixo; Orofaringe; Osso hioide; Língua
ORIGINAL ARTICLE
Effects of chin advancement surgery in hyoid bone and tongue positions and in the dimension of the oropharynx
Milena Barreto de Arruda CabralI; André Carlos de FreitasII; Telma Martins de AraújoIII; Nilson PenaIV; Rivail Almeida Brandão FilhoV
IMSc Student in Orthodontics and Facial Orthopedics, Bahia Federal University (UFBA)
IIPhD, Oral and Maxillofacial Surgery. Associate Professor, UFBA
IIIPhD and Full professor, Department of Orthodontics, UFBA
IVPhD in Dental Radiology, UNICAMP
VPhD Student in TMD and Associate Professor, UFBA
Correspondence Correspondence: Milena Barreto de Arruda Cabral Av. Araújo Pinho, 62 - 7º andar - Canela CEP: 40.110-150 - Salvador/BA - Brazil E-mail: cabralmilena@hotmail.com
RESUMO
INTRODUÇÃO: a cirurgia de avanço de mento isolado tem sido cada vez mais indicada para a correção de deficiência anterior da mandíbula, harmonizando o perfil e gerando alterações funcionais.
OBJETIVO: essa pesquisa teve a finalidade de avaliar os efeitos da cirurgia de avanço de mento no tamanho da orofaringe e nas posições do osso hioide e da língua.
MÉTODOS: a amostra constou de 22 radiografias cefalométricas de perfil de 11 indivíduos que se submeteram à cirurgia de mentoplastia de avanço isolada. Dessas radiografias, 11 retratavam o período imediatamente pré-cirúrgico (T0) e 11 o pós-cirúrgico de, pelo menos, quatro meses (T1). As radiografias foram digitalizadas e transferidas para o programa Radiocef Studio 2.0, por meio do qual foram feitas as medições entre os pontos demarcados.
RESULTADOS: verificaram-se diferenças estatisticamente significativas entre T0 e T1 quanto à posição do osso hioide e da língua no sentido horizontal e ao tamanho da orofaringe. O osso hioide se apresentou posicionado mais anterior em T1 (p = 0,01), assim como a língua, aumentando o tamanho da orofaringe (p = 0,01).
CONCLUSÃO: houve aumento do espaço aéreo da orofaringe com o posicionamento mais anterior da base da língua, bem como a reposição do osso hioide anteriormente.
Palavras-chave: Cirurgia ortognática. Queixo. Orofaringe. Osso hioide. Língua.
ABSTRACT
INTRODUCTION: Advancement genioplasty has been increasingly indicated for the correction of anterior mandibular deficiency as it balances the patient's profile and generates functional changes.
OBJECTIVE: Thus, the aim of this study was to assess the effects of advancement genioplasty in the oropharyngeal size and in the position of the hyoid bone and tongue.
METHODS: The sample comprised 22 lateral cephalometric radiographs of 11 individuals who had undergone advancement genioplasty alone. Eleven of these radiographs depicted the immediate preoperative period (T0) and the other 11 the postoperative period after at least four months (T1). The radiographs were scanned and exported to the Radiocef Studio 2.0® software (Radio Memory Ltda., Belo Horizonte, MG, Brazil). The landmarks were then identified and automatically measured by the program.
RESULTS: The results showed statistically significant differences between the horizontal position of the hyoid bone and tongue and in the oropharyngeal size. The hyoid bone and tongue were repositioned anteriorly after surgery (p = 0.01), thereby increasing the dimension of the oropharyngeal airspace (p = 0.01).
CONCLUSIONS: The oropharyngeal dimension increased as the tongue base and hyoid bone were repositioned more anteriorly
Keywords: Orthognathic surgery. Chin. Oropharynx. Hyoid bone. Tongue.
INTRODUCTION
Patients with dentofacial deformities increasingly seek combined orthodontic-surgical treatment. Above and beyond the esthetic issues inherent in facial deformity, functional conditions such as chewing, speech, articulation and nasal1 breathing can be compromised. Genioplasty is a surgical procedure widely used in conjunction with other orthognathic surgeries to correct transverse, vertical and sagittal imbalances of the lower third of the face. Nowadays, it is often indicated to be performed alone as it is considered a relatively simple procedure with predictable results which, when properly indicated, improves facial esthetics.
Chin hypoplasia or deficiency is one of the most frequent deformities found in the anterior region of the mandible.2 It is often seen in patients with both Angle Class II and Class I malocclusions with appropriate three-dimensional positioning of the maxillomandibular complex. For many of these cases, genioplasty is likely to be the treatment of choice.3
By means of genioplasty some deformities specific to the lower third of the face can be corrected by changing the shape and size of the mandibular symphysis, thereby improving soft tissue bone support and patient profile.2 When performed alone, it is a more conservative surgical procedure involving little morbidity and not requiring intermaxillary fixation nor a lengthy in-patient hospitalization.4
Osteotomy extends from the premolar region on one side of the mandible to the opposite side, below the apices of the teeth and the mandibular canal. The tongue muscles, including the geniohyoid and genioglossus muscles, remain attached to the osteotomized bone segment in order to ensure the blood supply necessary for the enlarged chin.4,5
The geniohyoid muscle originates from the bottom of the lower genial tubercle of the mental symphysis, extending medially to the mylohyoid region and being attached to the upper margin of the body of the hyoid bone. The mylohyoid muscle originates from the medial surface of the mandible and is attached to the anterior surface of the hyoid bone through its posterior portion.12
The genioglossus muscle originates from the genial tubercle of the mandible and has a portion of its fibers connected to geniohyoid muscle fibers so that the hyoid bone moves in tandem with the tongue and oral floor during chewing and breathing.11
In healthy individuals, the hyoid bone is situated at the level of the C3-C4 vertebrae and it is important to preserve the size of the upper airspace because it serves as an anchor for the tongue muscles.14 The distance between the hyoid bone and the mandibular plane is of approximately 12 mm.15
The oropharynx is lined with lymphoid tissue and extends itself from the second through the fourth cervical vertebra, participating in the processes of swallowing and breathing.10
Dimensional changes in the airspace have been observed after surgical repositioning of the mandible and maxilla6,7,8 as well as changes in the position of the hyoid bone, tongue and head.9 Previous studies have shown increases in oropharyngeal dimensions during mandibular advancement surgery and have recognized this surgical procedure as one of the most successful in the treatment of oropharyngeal space deficiency.7,16,17 Mandibular advancement pushes the geniohyoid and genioglossus muscles forward, causing an anterior movement of the tongue base and hyoid bone, consequently increasing posterior airspace.18
The technique of genioplasty with advancement of the genioglossus muscle in patients with mandibular retrognathism promotes increased posterior airspace (PAS) and soft tissue advancement of the mental region.19
The aim of this article was to assess whether any changes occur in the oropharyngeal size and in the position of both the hyoid bone and tongue after chin advancement surgery.
MATERIAL AND METHODS
This study was approved by the Ethics Committee of the Bahia Federal University (UFBA), under Opinion nº 40/09. The sample comprised 22 lateral cephalometric radiographs of 11 male and female individuals aged between 16 and 49 years, who were subjected to advancement genioplasty alone. The average chin advancement achieved in patients in this study was of 6.84 mm ± 2.02 mm. These procedures were carried out independently of the research. Eleven of these radiographs depicted the preoperative period (T0) and 11 the postoperative period of at least four months (T1) in order to prevent any potential postoperative swelling from interfering in the research outcomes. The radiographs were obtained with the patient's head immobilized by a cephalostat, orientated by the Frankfort horizontal plane positioned parallel to the floor and the midsagittal plane perpendicular to the floor. At the time when the radiographs were taken patients were instructed to keep their facial muscles at rest and not to swallow.
Initially, all 22 radiographs were scanned using an HP Scanjet G4050 TMA [Transparent Materials Adapter] (HP Development Company, L.P.) with slide scanning capabilities at 200 dpi with 100% resolution. The images were exported to the Radiocef Studio 2.0® software (Radio Memory Ltda., Belo Horizonte, MG, Brazil), and were analyzed with the Mixcef tool.
Subsequently, cephalometric landmarks were identified (Table 1). These landmarks determined the linear distances of the oropharyngeal space (f1-f2), which also revealed the anteroposterior changes in the tongue, vertical position of the tongue (D-PNS) and both the vertical position (H-SOPS) and horizontal position (C3-H) of the hyoid bone (Fig 1). These distances were automatically measured by the software.
Assessment of intra and inter-examiner agreement was conducted by means of remarking through the Radiocef Studio 2.0® software (Radio Memory Ltda., Belo Horizonte, MG, Brazil the landmarks ) of five randomly selected radiographs by applying Lin's concordance correlation coefficient. One of the authors performed the tracings twice on the same radiograph, with a 15-day interval between them, and another examiner also marked the landmarks on the same five radiographs.
STATISTICAL ANALYSIS
Assessment of intra and inter-examiner agreement was performed by means of applying Lin's concordance correlation coefficient. Paired t test was used to assess the differences between pre- and postoperative measurements. Pearson's correlation was used to assess the correlation between the variables which yielded statistically significant differences and the amount of chin advancement. All test results for p values lower than 0.05 were considered statistically significant.
RESULTS
A high degree of intraexaminer agreement (0.99) was found through the correlation coefficient between the measurements carried out by the researcher at two different times. A high degree of correlation was also found in the inter-examiner assessment, with a coefficient of 0.98. Thus, no statistically significant difference was found for all measures assessed. In light of the results, the values of the first measurements were used for data analysis.
This study disclosed a statistically significant difference in the size of the oropharynx and in the positioning of the hyoid bone in the horizontal direction between both pre- and postoperative periods (Table 2). The oropharynx increased on average 1.83 mm, pointing to a change in the position of the tongue anteriorly (p = 0.01) and the hyoid bone moved forward on average 1.59 mm (p = 0.002).
In the vertical direction, the change in the hyoid bone and tongue (p = 0.11) did not yield statistically significant results. Despite this, the hyoid bone proved to be more superior in over half of the sample (p = 0.61).
DISCUSSION
Lateral cephalometric radiographs were used because airspace dimensions as well as tongue and hyoid bone position are properly reproduced in cephalograms where the head is in a natural position.21 Although radiographic cephalometry provides two-dimensional images, it has been widely used in the study of pharyngeal airspace and craniofacial morphology as it offers considerable advantages, such as low cost and minimal exposure to radiation.8,9,17 Moreover, according to Barbosa et al,22 lateral cephalometric radiography is efficient in the diagnosis of adenoid hypertrophy because it strongly correlates with nasal endoscopy, which is considered the gold standard for diagnosing this condition.
The average value of the increase in the oropharynx, though small, can have great clinical significance because, according to Trotman et al,23 a decrease of 1 mm in diameter of the upper airway of a child can decrease effective airspace by 65%, producing a critical obstruction.
Santos Júnior et al19 obtained results similar to ours in terms of oropharyngeal dimension and, consequently, the position of the tongue in the horizontal direction. They assessed pre- and postoperative lateral cephalometric radiographs of patients who had undergone genioplasty combined with nasal surgery or uvulopalatopharyngoplasty. The postoperative results, which varied between 4 and 6 months, showed a 2.9 mm mean increase in oropharyngeal space.
Mandibular advancement surgery has revealed an increase in the oropharyngeal size and has been recognized as one of the most successful procedures in the treatment of oropharyngeal space deficiency.7,16,17,25 According to Carlo et al,18 the principle underlying increases in oropharyngeal airspace is the fact that this surgery pulls the geniohyoid and genioglossus muscles forward, thereby causing an anterior movement of the tongue base and the hyoid bone and, consequently, increasing the posterior26 airspace. According to Ellis et al,5 in advancement genioplasty the tongue muscles, including geniohyoid and genioglossus muscles, must remain attached to the osteotomized bone segment in order to ensure adequate blood supply, minimizing the possibility of resorption and providing long-term stability. Preservation of the pedicle during surgery is responsible for the tongue moving anteriorly and this principle is not only embraced but advocated by other authors to this day.4,18,19,25,27
The findings of these research suggest the possibility that, with a relatively simple procedure. i.e., advancement genioplasty, one can expect an increase in oropharyngeal airspace as a result of the anterior repositioning of the base of the tongue and the hyoid bone, thereby improving both esthetic and functional conditions of patients with mandibular deficiency. Further studies must be conducted to assess the beneficial effect of this increase in oropharyngeal on breathing. By no means does chin advancement surgery replace mandibular advancement surgery, but it may be an alternative for some cases.
Ribeiro et al4 asserted that they failed to account for the amount of mandibular advancement when assessing changes in the same variables studied in this research, a factor that should have been taken into consideration. In this study, assessment of chin advancement alone did not disclose any correlation between the extent of the advancement and the amount of increase in oropharyngeal size (p = 0.11), nor between the extent of the advancement and the amount of anterior repositioning of the hyoid bone (p = 0.79) (Table 3). In other words, patients who experienced significant chin advancement did not necessarily attain considerable gains in the dimension of the oropharynx nor in anterior hyoid bone repositioning. These results can be explained by the continuous change in the position of the hyoid bone that occurs throughout one's lifetime, regardless of surgical interventions. These changes are age-related and differ in terms of facial pattern.28 In addition, since only the minimum period in which the surgery was performed was actually timed, the radiographs that depicted the postoperative period might present different time intervals. It is expected that further studies aimed at examining the variance between groups with different levels of advancement will show greater accuracy in the assessment of this correlation.
This investigation did not reveal any significant changes in the vertical position of the tongue and the hyoid bone. Athanasiou et al29 assessed tongue position after the use of a functional appliance for anterior mandibular repositioning. The authors found it to be more superiorly positioned. They argued that this change was due to increases in oral cavity space and the tendency of the tongue to occupy such space. For them, changes in the tongue occur whenever there is an increase in oral cavity size, which is not the case when advancement genioplasty is performed alone.
Santos Júnior et al19 showed a decrease of 2 mm on average in the vertical distance between the hyoid bone and the mandibular plane. This may have occurred because in addition to advancement genioplasty most of the sample was also subjected to uvulopalatopharyngoplasty (UPPP), which may have contributed to statistically significant outcomes.
Achilleos et al9 also showed that the hyoid bone took on a higher position after mandibular advancement surgery, in agreement with results obtained in other studies,8,16 in which its position remained unchanged in the long-term. When advancement genioplasty was performed alone, changes in the stomatognathic system proved less significant than in mandibular advancement surgery. Additionally, the sample size in this investigation (n = 11) may have contributed to the attainment of this result. Thus, further studies using a larger sample size are warranted.
CONCLUSIONS
Based on the results of this study, it is reasonable to conclude that advancement genioplasty alone correlates with a statistically significant increase in the oropharyngeal size as a result of an anterior repositioning of the base of the tongue. Changes in the position of the hyoid bone in the horizontal direction were also observed, probably due to a stretching of the suprahyoid muscles resulting from chin advancement.
Submitted: June 30, 2011
Revised and accepted: December 03, 2011
The patients displayed in this article previously approved the use of their radiographs.
The authors report no commercial, proprietary or financial interest in the products or companies described in this article.
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Publication Dates
-
Publication in this collection
06 Jan 2014 -
Date of issue
Oct 2013
History
-
Received
30 June 2011 -
Accepted
03 Dec 2011