Abstracts

INTRODUCTION

Chronic mouth breathing appears to play an important role in the development of craniofacial structures, leading to significant malocclusions and craniofacial abnormalities such as increased facial height, high palate vault, maxillary atresia, and posterior crossbite.¹1 McNamara JA Jr. A method of cephalometric evaluation. Am J Orthod. 1984;86(6):449-69. ^{, 2}2 Lessa FC, Enoki C, Feres MF, Valera FC, Lima WT, Matsumoto MA. Breathing mode influence in craniofacial development. Rev Bras Otorrinolaringol. 2005;71(2):156-60. Transverse maxillary arch deficiency might be considered one of the most frequent occlusal alterations observed in these individuals.³3 Oulis CJ, Vadiaskas GP, Ekonomides J, Dratsa J. The effect of hypertrophic adenoids and tonsils on the development of posterior crossbite and oral habits. J Clin Pediatr Dent. 1994;18(3):197-201. If pronounced, maxillary constriction might lead to posterior crossbite which hardly spontaneously reverts.⁴4 Thilander B, Wahlund S, Lennartsson B. The effect of early interceptive treatment in children with posterior cross-bite. Eur J Orthod. 1984;6(1):25-34. Thus, whenever crossbite is observed, early orthodontic intervention is recommended.⁵5 Viazis AD. Efficient orthodontic treatment timing. Am J Orthod Dentofacial Orthop. 1995;108(5):560-1.

One of the procedures mostly indicated for correction of posterior crossbite is rapid maxillary expansion (RME).⁶6 Haas AJ. Long-term posttreatment evaluation of rapid palatal expansion. Angle Orthod. 1980;50(3):189-217. ^{, 7}7 Baccetti T, Franchi L, Cameron CG, McNamara JA Jr. Treatment timing for rapid maxillary expansion. Angle Orthod. 2001;71(5):343-50. ^{, 8}8 Jorge EP, Santos-Pinto A, Gandine LG Jr, Guariza-Filho O, Castro ABBAT. Avaliação do efeito da expansão rápida da maxila na via aérea superior por meio da nasofibroscopia: descrição da técnica e relato de caso. Dental Press J Orthod. 2011;16(1):81-9. Although forces arising from RME are primarily directed to result in the opening of the midpalatal suture, adjacent facial sutures are also affected.⁹9 Starnbach H, Bayne D, Cleall J, Subtelny JD. Facioskeletal and dental changes resulting from rapid maxillary expansion. Angle Orthod. 1966;36(2):152-64. Hence, the transverse benefit of RME might be observed not only for maxillary arch dimensions,⁸8 Jorge EP, Santos-Pinto A, Gandine LG Jr, Guariza-Filho O, Castro ABBAT. Avaliação do efeito da expansão rápida da maxila na via aérea superior por meio da nasofibroscopia: descrição da técnica e relato de caso. Dental Press J Orthod. 2011;16(1):81-9. but also for the nasal cavity, as observed by various authors.⁷7 Baccetti T, Franchi L, Cameron CG, McNamara JA Jr. Treatment timing for rapid maxillary expansion. Angle Orthod. 2001;71(5):343-50. ^{, 10}10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401.

11 Bicakci AA, Agar U, Sökücü O, Babacan H, Doruk C. Nasal airway changes due to rapid maxillary expansion timing. Angle Orthod. 2005;75(1):1-6.

12 Doruk C, Sökücü O, Biçakçi A, Yilmaz U, Tas F. Comparison of nasal volume changes during rapid maxillary expansion using acoustic rhinometry and computed tomography. Eur J Orthod. 2007;29(5):251-5.

13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{- 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82. Most of these studies have frequently demonstrated significant increase in the cross-sectional dimensions of the nasal cavity,⁷7 Baccetti T, Franchi L, Cameron CG, McNamara JA Jr. Treatment timing for rapid maxillary expansion. Angle Orthod. 2001;71(5):343-50. ^{, 13}13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{, 15}15 Christie KF, Boucher N, Chung CH. Effects of bonded rapid palatal expansion on the transverse dimensions of the maxilla: A cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S79-85. ^{, 16}16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. as well as volumetric increase¹²12 Doruk C, Sökücü O, Biçakçi A, Yilmaz U, Tas F. Comparison of nasal volume changes during rapid maxillary expansion using acoustic rhinometry and computed tomography. Eur J Orthod. 2007;29(5):251-5. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82. ^{, 17}17 Palaisa J, Ngan P, Martin C, Razmus T. Use of conventional tomography to evaluate changes in the nasal cavity with rapid palatal expansion. Am J Orthod Dentofacial Orthop. 2007;132(4):458-66. and reduction in nasal resistance.¹⁰10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82.

Despite abundant evidence on nasal structure increase and reduction in resistance after RME, only a few attempts have been made to investigate whether such changes are capable of causing significant improvements on respiration, physical activities and quality of life of mouth breathers.¹⁰10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82.

One of the exams currently used¹³13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{, 15}15 Christie KF, Boucher N, Chung CH. Effects of bonded rapid palatal expansion on the transverse dimensions of the maxilla: A cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S79-85. ^{, 16}16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. to investigate volumetric changes after RME is cone-beam computed tomography (CBCT), which enables tridimensional assessment with satisfactory reliability, precision and accuracy,¹²12 Doruk C, Sökücü O, Biçakçi A, Yilmaz U, Tas F. Comparison of nasal volume changes during rapid maxillary expansion using acoustic rhinometry and computed tomography. Eur J Orthod. 2007;29(5):251-5. ^{, 16}16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. ^{, 17}17 Palaisa J, Ngan P, Martin C, Razmus T. Use of conventional tomography to evaluate changes in the nasal cavity with rapid palatal expansion. Am J Orthod Dentofacial Orthop. 2007;132(4):458-66. with low-level doses of radiation.

The aim of this study was to assess, by means of cone-beam computed tomography (CBCT), the short-term effects produced by RME on upper airway dimensions, as well as to investigate the impact of this therapy on the quality of life of mouth breathers with maxillary atresia by means of a questionnaire.

MATERIAL AND METHODS

This non-controlled clinical trial was previously approved by Universidade Federal de São Paulo Institutional Review Board (protocol #1412/10). The study sample comprised 25 mouth breathers, males and females, aged between 6 and 13 years old and consecutively selected from the Pediatric Otorhinolaryngology Clinic of the institution where this research was carried out. In selecting the sample, the following inclusion criteria were applied: children should have presented maxillary atresia and posterior crossbite, as revealed by clinical examination performed by a single experienced orthodontist.

In order to check for the mouth breathing pattern, all patients were clinically examined by a single experienced otorhinolaryngologist. The presence of nasal obstruction was verified after anterior rhinoscopy, oroscopy and nasofiberendoscopy.

Children who had been previously subjected to orthodontic treatment were not considered as part of the study. Individuals with insufficient eruption of first permanent molar, which would prevent proper fitting of orthodontic bands, potential candidates for adenoidectomy or adenotonsillectomy, and patients with craniofacial syndromes or severe dysplasia were also dismissed. All patient's parents/legal guardians, for those who agreed to take part in the study, signed an informed consent form after proper explanation of the objectives, procedures, risks, discomforts and benefits of the research.

Firstly, parents or legal guardians were requested to answer a standardized questionnaire originally designed to measure the impact of adenotonsillectomy on the quality of life of patients with sleep breathing disorders.¹⁸18 Serres LM, Derkay C, Astley S, Deyo RA, Rosenfeld RM, Gates GA. Measuring quality of life in children with obstructive sleep disorders. Arch Otolaryngol Head Neck Surg. 2000;126(12):143-9. ^{, 19}19 Di Francesco RC, Fortes FSG, Komatsu CL. Melhora da qualidade de vida em crianças após adenoamigdalectomia. Rev Bras Otorrinolaringol. 2004;70(6):748-51. This questionnaire was conducted by a single researcher and comprised six domains concerning physical suffering, sleep disturbance, speech or swallowing problems, emotional distress, activity limitation, and degree of parents/legal guardians' concern about their own child's snoring. The scale for each answer ranged from zero to five, and referred to the frequency each symptom was perceived by parents and/or legal guardians (0= never; 1= hardly ever; 2= sometimes; 3= often; 4= very much; 5= always). All scores were summed up and total score was also analyzed.¹⁸18 Serres LM, Derkay C, Astley S, Deyo RA, Rosenfeld RM, Gates GA. Measuring quality of life in children with obstructive sleep disorders. Arch Otolaryngol Head Neck Surg. 2000;126(12):143-9. ^{, 19}19 Di Francesco RC, Fortes FSG, Komatsu CL. Melhora da qualidade de vida em crianças após adenoamigdalectomia. Rev Bras Otorrinolaringol. 2004;70(6):748-51.

Afterwards, patients were referred to their first CBCT scan, (Kavo i-Cat^(r), settings: 8 mA, 120 kVp, 0.3 mm voxel resolution for 20 seconds). During tomographic recording, patients remained still, in sitting position, with Frankfort horizontal plane of orientation parallel to the ground.

Subsequently, children were subjected to RME with modified Biederman type appliance. At the appliance installation session, four activations (1/4 turn for each activation, 0.25 mm) were performed, and other two daily activations were made until overcorrection (when the palatal cusps of maxillary posterior teeth touches the buccal cusps of lower posterior teeth).

Immediately after overcorrection, children underwent a second tomographic examination performed under the same aforementioned conditions. Parents/legal guardians answered the same quality-of-life questionnaire, conducted by the same interviewer.

Both CBCT examination files (before and after treatment) were converted into DICOM (Digital Imaging Communication in Medicine) format, and Dolphin^(r) 3D software was used to read and evaluate patients' upper airways.

The transverse width of the anterior portion of the nasal floor (ANF) was assessed after demarcating two points on the left and right edges of the nasal floor in the region of canines.²⁰20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57. Analysis of the transverse width of the posterior portion of the nasal floor (PNF) was performed after demarcating two points on the right and left edges of the nasal floor in the region of first permanent molars (Fig 1).¹³13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{, 20}20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57.

In order to measure the airway volume of the nasopharynx and nasal cavities (VNN), the following anatomic limits were demarcated: the upper limit was defined as the last axial slice before the fusion of the nasal septum with the pharyngeal wall observed at sagittal view; the lower limit was defined as the palatal plane, that is, a line connecting anterior and posterior nasal spines, extending to the posterior pharyngeal wall; the posterior limit was defined as the posterior pharyngeal wall; and the anterior limit was defined as the nasal cavities²¹ 21 El H, Palomo JM. Measuring the airway in 3 dimensions: a reliability and accuracy study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S50 e1-9.(Fig 2).

In order to assess the airway volume of the oropharynx (VO), the palatal plane, extending to the posterior pharyngeal wall, represented the upper limit.²²22 Ogawa T, Enciso R, Shintaku WH, Clark GT. Evaluation of cross-section configuration of obstructive sleep apnea. Oral Surg Oral Med Oral Pathol Oral Radiol Endod. 2007;103(1):102-8. The lower limit of the oropharynx was determined by a line parallel to the palatal plane, passing through the most anterior point of the second cervical vertebra²¹21 El H, Palomo JM. Measuring the airway in 3 dimensions: a reliability and accuracy study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S50 e1-9. (Fig 3).

Variables were considered reliable, according to the intraclass correlation coefficient (ICC) calculated after repeated readings (ANF: ICC = 0.95, p < 0.001; PNF: ICC = 0.94, p < 0.001; VNN: ICC = 0.87, p < 0.001; VO: ICC = 0.84, p < 0.001).

Statistical analysis

Descriptive analysis of demographic data and all variables was performed. Inferential analyses were performed according to Student's t-test for paired samples and compared ANF, PNF, VNN and VO before and after RME. Wilcoxon test compared the scores for each section and the total score of the questionnaire reported before and after RME.

Statistical analysis was performed with the program "R" (version 2.15.2). In all findings obtained by inferential analyses, significance level was set at α = 5 %.

RESULTS

The sample comprised 25 patients, 14 females (56%) and 11 males (44%),with a mean age of 10.5 years old (7.1 - 14.3; standard deviation: 2.2). Of all patients, 72% (18/25) had undergone adenoidectomy or adenotonsillectomy before the study period. Despite this fact, most patients (16/18) still had symptoms or complaints of chronic nasal obstruction. The remaining patients (7/25) were under clinical treatment for other causes of nasal obstruction.

There was statistically significant increase in ANF, PNF and VNN after treatment (Table 1). The magnitude of VO, however, showed no statistically significant difference when compared to the volume observed before RME.

The questionnaire total score obtained after RME was statistically lower than that obtained before RME (Table 2). Detailed analysis of results suggests that the severity of the following respiratory symptoms reduced after RME: nasal obstruction, daytime tiredness, lack of breath, snoring, choking or smothering, restless sleep, difficulty in waking up, sinking of the chest, poor pronunciation, inattention, ridiculed by snoring and school performance (Table 2). Thus, most items (physical suffering, sleep disturbance, speech and swallowing problems, emotional distress and parental concern about snoring) showed significant changes after RME (Table 2).

DISCUSSION

RME was first described by Angell²³23 Angell EC. Treatment of irregularities of the permanent teeth. Dent Cosmos. 1860;1(9):540-4. in 1860 and it is a well-established and widely accepted procedure.

Of all studies available, many have emphasized the ability of RME to produce lateral expansion of the nasal cavity and to decrease nasal resistance.⁸8 Jorge EP, Santos-Pinto A, Gandine LG Jr, Guariza-Filho O, Castro ABBAT. Avaliação do efeito da expansão rápida da maxila na via aérea superior por meio da nasofibroscopia: descrição da técnica e relato de caso. Dental Press J Orthod. 2011;16(1):81-9. ^{, 10}10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82. ^{, 24} 24 Ramires T, Maia RA, Barone JR. Nasal cavity changes and the respiratory standard after maxillary expansion. Braz J Otorhinolaryngol. 2008;74(5):763-9.In the present research, CBCT analysis confirmed significant cross-sectional increase in both anterior and posterior regions of the nasal floor. This finding confirms the results widely observed in both postero-anterior X-ray²⁵25 Basciftci FA, Mutlu N, Karaman AI, Malkoc S, Küçükkolbasi H. Does the timing and method of rapid maxillary expansion have an effect on the changes in nasal dimensions? Angle Orthod. 2002;72(2):118-23. and tomographic scans.¹³13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{,15.16, 17}17 Palaisa J, Ngan P, Martin C, Razmus T. Use of conventional tomography to evaluate changes in the nasal cavity with rapid palatal expansion. Am J Orthod Dentofacial Orthop. 2007;132(4):458-66. ^{, 20}20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57. In comparison to the dimensional increase reported herein (2.8 mm on average), studies investigating similar parameters¹³13 Garret BJ, Caruso JM, Rungcharassaeng K, Farrage JR, Kim JS, Taylor GD. Skeletal effects to the maxilla after rapid maxillary expansion assessed whit cone-beam computer tomography. Am J Orthod Dentofacial Orthop. 2008;134(1):8-9. ^{, 15}15 Christie KF, Boucher N, Chung CH. Effects of bonded rapid palatal expansion on the transverse dimensions of the maxilla: A cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2010;137(4 Suppl):S79-85. ^{, 16}16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. ^{, 20}20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57. reported lower (1.8 mm - 2.78 mm) transverse expansion of the nasal floor, but with no clinically significant difference.

According to the literature, the anatomical enlargement of the nasal cavity might be considered the reason for the decrease in nasal airway resistance, a commonly reported finding.¹⁰10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82. However, there have been few attempts to assess whether any dimensional changes would lead to significant impact on the subjective impressions of patients undergoing RME.¹⁰10 Doruk C, Sökücü O, Sezer H, Canbay E. Evaluation of nasal airway resistance during rapid maxillary expansion using acoustic rhinometry. Eur J Orthod. 2004;26(4):397-401. ^{, 14}14 Oliveira De Felippe NL, Da Silveira AC, Viana G, Kusnoto B, Smith B, Evans CA. Relationship between rapid maxillary expansion and nasal cavity size and airway resistance: short- and long-term effects. Am J Orthod Dentofacial Orthop. 2008;134(3):370-82. The data collected in our study suggest a significant respiratory improvement referred by a considerable part of the patients undergoing RME. Moreover, this research demonstrated significantly positive impact on patients' quality of life in regard to various aspects related to the obstructive respiratory condition. The increase in airway volume of the nasopharynx and nasal cavities may have contributed to the reporting of this improvement.

Studies on lateral radiographs²⁵25 Basciftci FA, Mutlu N, Karaman AI, Malkoc S, Küçükkolbasi H. Does the timing and method of rapid maxillary expansion have an effect on the changes in nasal dimensions? Angle Orthod. 2002;72(2):118-23. or conventional tomography²⁶26 Smith T, Ghoneima A, Stewart K, Liu S, Eckert G, Halum S, Kulag K. Three-dimensional computed tomography analysis airway volume changes after rapid maxillary expansion. Am J Orthod Dentofacial Orthop. 2012;141(5):618-26. have already demonstrated significant increases in area and volume of the nasopharynx, which is consistent with the data of this research. However, Pangrazio-Kulberch et al²⁰20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57. did not achieve similar results. This difference may be related to sample discrepancies, since subjects in that research²⁰20 Pangrazio-Kulbersh V, Wine P, Haughey M, Pajtas B, Kaczynski R. Cone beam computed tomography evaluation of changes in the naso-maxillary complex associated with two types of maxillary expanders. Angle Orthod. 2012;82(3):448-57. were older than the children in this study (12.6 - 13.5 versus 10.5). When performed in younger patients, RME is able to produce greater and more stable nasal transverse skeletal changes.⁷7 Baccetti T, Franchi L, Cameron CG, McNamara JA Jr. Treatment timing for rapid maxillary expansion. Angle Orthod. 2001;71(5):343-50. ^{, 11}11 Bicakci AA, Agar U, Sökücü O, Babacan H, Doruk C. Nasal airway changes due to rapid maxillary expansion timing. Angle Orthod. 2005;75(1):1-6. No studies comparing skeletal changes in the nasopharynx of different age groups were found. However, evidence of greater nasal expansions in younger patients⁷7 Baccetti T, Franchi L, Cameron CG, McNamara JA Jr. Treatment timing for rapid maxillary expansion. Angle Orthod. 2001;71(5):343-50. ^{, 11}11 Bicakci AA, Agar U, Sökücü O, Babacan H, Doruk C. Nasal airway changes due to rapid maxillary expansion timing. Angle Orthod. 2005;75(1):1-6. suggests increased likelihood of RME to produce significant skeletal results in the nasopharynx of younger individuals.

Oropharyngeal airway constrictions have been responsible for playing a significant role in the pathophysiology of obstructive sleep apnea²⁷27 Johal A, Patel SI, Battagel JM. The relationship between craniofacial anatomy and obstructive sleep apnea: a case controlled study. J Sleep Res. 2007;16:319-26. due to association with low tongue posture, a common feature in patients with maxillary atresia.²⁸28 Linder-Aronson S. Adenoids: their effect on mode of breathing and nasal air flow and their relationship to characteristics of the facial skeleton and the dentition. Acta Otolaryngol. 1970;(Supp 265):1-132. In the present research, as demonstrated by others,¹⁶16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. ^{, 29}29 Zhao Y, Nguyen M, Gohl E. Mah JK, Sameshima G. Enciso R. Oropharyngeal airway changes after rapid palatal expansion evaluated with cone-beam computed tomography. Am J Orthod Dentofacial Orthop. 2010;137 (4Suppl):S71-8. ^{, 30}30 Chang Y, Koenig LJ, Pruszynski JE, Bradley TG, Bosio JA, Liu D. Dimensional changes of upper airway after rapid maxillary expansion: a prospective cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2013;143(4):462-70. no significant increases in the airway volume of the posterior oropharynx were noted. Lack of RME impact on the size of the oropharynx was expected not only because of previous research results,¹⁶16 Ribeiro AN, de Paiva JB, Rino-Neto J, IIIipronti-Filho E, Trivino T, Fantini SM. Upper airway expansion after rapid maxillary expansion evaluated with cone beam computed tomography. Angle Orthod. 2012;82(3):458-63. ^{, 29}29 Zhao Y, Nguyen M, Gohl E. Mah JK, Sameshima G. Enciso R. Oropharyngeal airway changes after rapid palatal expansion evaluated with cone-beam computed tomography. Am J Orthod Dentofacial Orthop. 2010;137 (4Suppl):S71-8. ^{, 30}30 Chang Y, Koenig LJ, Pruszynski JE, Bradley TG, Bosio JA, Liu D. Dimensional changes of upper airway after rapid maxillary expansion: a prospective cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2013;143(4):462-70. but also due to the remote anatomical relationship between the oropharynx and the maxillary complex. Data collected herein confirm inferences that the effect of RME in the upper airway is mainly local and decreases as it "descends" in the upper airway,³⁰30 Chang Y, Koenig LJ, Pruszynski JE, Bradley TG, Bosio JA, Liu D. Dimensional changes of upper airway after rapid maxillary expansion: a prospective cone-beam computed tomography study. Am J Orthod Dentofacial Orthop. 2013;143(4):462-70. probably due to adaptation of soft tissues.

One limitation of this study is lack of a control group. Further, the short-term follow-up (about three weeks) limited the authors' ability to infer potential permanent benefits that RME could bring to the dimensions of the airway. Langer et al³¹31 Langer MR, Itikawa CE, Valera FC, Matsumoto MA, Anselmo-Lima WT. Does rapid maxillary expansion increase nasopharyngeal space and improve nasal airway resistance? Int J Otorhinolaryngol. 2011;75(1):122-5. observed that the decrease in nasal resistance observed shortly after RME did not persist throughout 30 months. Still, one cannot underestimate the clinical value of short-term effects of RME on the immediate relief of respiratory symptoms, which was substantially demonstrated in this research. It is the authors' opinion that RME, even if transiently affecting the upper airway, should be regarded as an essential therapeutic approach for patients with upper airway disturbances. Because of the substantial respiratory improvements reported by patients in this study, it is suggested that controlled clinical trials be conducted in order to assess subsequent respiratory effects of RME in patients with obstructive complaints.

CONCLUSION

Short-term RME promotes significant increase in airway volume of the nasopharynx and nasal cavities as well in anterior and posterior widths of the nasal floor. Additionally, it significantly improves the quality of life of mouth-breathing patients with maxillary atresia.

Acknowledgements

To the São Paulo Research Foundation (Fundação de Amparo à Pesquisa do Estado de São Paulo - FAPESP) protocol #2011/50585-0.

REFERENCES

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