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On-line Access: 2024-08-27
Received: 2023-10-17
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Juan LI, Lingfang SHI, Xiayao ZHANG, Luxi WENG, Hong CHEN, Jun LIN. Evaluating the effect of midpalatal corticotomy-assisted rapid maxillary expansion on the upper airway in young adults using computational fluid dynamics[J]. Journal of Zhejiang University Science B, 2021, 22(2): 146-155.
@article{title="Evaluating the effect of midpalatal corticotomy-assisted rapid maxillary expansion on the upper airway in young adults using computational fluid dynamics",
author="Juan LI, Lingfang SHI, Xiayao ZHANG, Luxi WENG, Hong CHEN, Jun LIN",
journal="Journal of Zhejiang University Science B",
volume="22",
number="2",
pages="146-155",
year="2021",
publisher="Zhejiang University Press & Springer",
doi="10.1631/jzus.B2000090"
}
%0 Journal Article
%T Evaluating the effect of midpalatal corticotomy-assisted rapid maxillary expansion on the upper airway in young adults using computational fluid dynamics
%A Juan LI
%A Lingfang SHI
%A Xiayao ZHANG
%A Luxi WENG
%A Hong CHEN
%A Jun LIN
%J Journal of Zhejiang University SCIENCE B
%V 22
%N 2
%P 146-155
%@ 1673-1581
%D 2021
%I Zhejiang University Press & Springer
%DOI 10.1631/jzus.B2000090
TY - JOUR
T1 - Evaluating the effect of midpalatal corticotomy-assisted rapid maxillary expansion on the upper airway in young adults using computational fluid dynamics
A1 - Juan LI
A1 - Lingfang SHI
A1 - Xiayao ZHANG
A1 - Luxi WENG
A1 - Hong CHEN
A1 - Jun LIN
J0 - Journal of Zhejiang University Science B
VL - 22
IS - 2
SP - 146
EP - 155
%@ 1673-1581
Y1 - 2021
PB - Zhejiang University Press & Springer
ER -
DOI - 10.1631/jzus.B2000090
Abstract: Midpalatal corticotomy-assisted rapid maxillary expansion (MCRME) is a minimally invasive treatment of maxillary transverse deficiency (MTD) in young adults. However, the effect of MCRME on respiratory function still needs to be determined. In this study, we evaluated the changes in maxillary morphology and the upper airway following MCRME using computational fluid dynamics (CFD). Twenty patients with MTD (8 males, 12 females; mean age 20.55 years) had cone-beam computed tomography (CBCT) images taken before and after MCRME. The CBCT data were used to construct a three-dimensional (3D) upper airway model. The upper airway flow characteristics were simulated using CFD, and measurements were made based on the CBCT images and CFD. The results showed that the widths of the palatal bone and nasal cavity, and the intermolar width were increased significantly after MCRME. The volume of the nasal cavity and nasopharynx increased significantly, while there were no obvious changes in the volumes of the oropharynx and hypopharynx. CFD simulation of the upper airway showed that the pressure drop and maximum velocity of the upper airway decreased significantly after treatment. Our results suggest that in these young adults with MTD, increasing the maxillary width, upper airway volume, and quantity of airflow by MCRME substantially improved upper airway ventilation.
[1]Aloufi F, Preston CB, Zawawi KH, 2012. Changes in the upper and lower pharyngeal airway spaces associated with rapid maxillary expansion. ISRN Dent, 2012:290964.
[2]Babacan H, Sokucu O, Doruk C, et al., 2006. Rapid maxillary expansion and surgically assisted rapid maxillary expansion effects on nasal volume. Angle Orthod, 76(1):66-71.
[3]Buck LM, Dalci O, Darendeliler MA, et al., 2016. Effect of surgically assisted rapid maxillary expansion on upper airway volume: a systematic review. J Oral Maxillofac Surg, 74(5):1025-1043.
[4]Chang KK, Kim KB, McQuilling MW, et al., 2018. Fluid structure interaction simulations of the upper airway in obstructive sleep apnea patients before and after maxillomandibular advancement surgery. Am J Orthod Dentofacial Orthop, 153(6):895-904.
[5]Chang Y, Koenig LJ, Pruszynski JE, et al., 2013. Dimensional changes of upper airway after rapid maxillary expansion: a prospective cone-beam computed tomography study. Am J Orthod Dentofacial Orthop, 143(4):462-470.
[6]Deeb W, Hansen L, Hotan T, et al., 2010. Changes in nasal volume after surgically assisted bone-borne rapid maxillary expansion. Am J Orthod Dentofacial Orthop, 137(6):782-789.
[7]Dergin G, Aktop S, Varol A, et al., 2015. Complications related to surgically assisted rapid palatal expansion. Oral Surg Oral Mol Oral Pathol Oral Radiol, 119(6):601-607.
[8]El H, Palomo JM, 2014. Three-dimensional evaluation of upper airway following rapid maxillary expansion: a CBCT study. Angle Orthod, 84(2):265-273.
[9]Figueiredo DSF, Cardinal L, Bartolomeo FUC, et al., 2016. Effects of rapid maxillary expansion in cleft patients resulting from the use of two different expanders. Dental Press J Orthod, 21(6):82-90.
[10]Ghoneima A, AlBarakati S, Jiang FF, et al., 2015. Computational fluid dynamics analysis of the upper airway after rapid maxillary expansion: a case report. Prog Orthod, 16:10.
[11]Guijarro-Martínez R, Swennen GRJ, 2011. Cone-beam computerized tomography imaging and analysis of the upper airway: a systematic review of the literature. Int J Oral Maxillofac Surg, 40(11):1227-1237.
[12]Iwasaki T, Saitoh I, Takemoto Y, et al., 2012. Improvement of nasal airway ventilation after rapid maxillary expansion evaluated with computational fluid dynamics. Am J Orthod Dentofacial Orthop, 141(3):269-278.
[13]Iwasaki T, Saitoh I, Takemoto Y, et al., 2013. Tongue posture improvement and pharyngeal airway enlargement as secondary effects of rapid maxillary expansion: a cone-beam computed tomography study. Am J Orthod Dentofacial Orthop, 143(2):235-245.
[14]Iwasaki T, Takemoto Y, Inada E, et al., 2014. The effect of rapid maxillary expansion on pharyngeal airway pressure during inspiration evaluated using computational fluid dynamics. Int J Pediatr Otorhinolaryngol, 78(8):1258-1264.
[15]Iwasaki T, Yanagisawa-Minami A, Suga H, et al., 2019. Rapid maxillary expansion effects of nasal airway in children with cleft lip and palate using computational fluid dynamics. Orthod Craniofac Res, 22(3):201-207.
[16]Kartalian A, Gohl E, Adamian M, et al., 2010. Cone-beam computerized tomography evaluation of the maxillary dentoskeletal complex after rapid palatal expansion. Am J Orthod Dentofacial Orthop, 138(4):486-492.
[17]Kim SY, Park YC, Lee KJ, et al., 2018. Assessment of changes in the nasal airway after nonsurgical miniscrew-assisted rapid maxillary expansion in young adults. Angle Orthod, 88(4):435-441.
[18]Lee SC, Park JH, Bayome M, et al., 2014. Effect of bone-borne rapid maxillary expanders with and without surgical assistance on the craniofacial structures using finite element analysis. Am J Orthod Dentofacial Orthop, 145(5):638-648.
[19]Liu PP, Jiao DL, Wang XY, et al., 2019. Changes in maxillary width and upper airway spaces in young adults after surgically assisted rapid palatal expansion with surgically facilitated orthodontic therapy. Oral Surg Oral Med Oral Pathol Oral Radiol, 127(5):381-386.
[20]Magnusson A, Bjerklin K, Nilsson P, et al., 2011. Nasal cavity size, airway resistance, and subjective sensation after surgically assisted rapid maxillary expansion: a prospective longitudinal study. Am J Orthod Dentofacial Orthop, 140(5):641-651.
[21]Menegat F, Monnazzi MS, Silva BN, et al., 2015. Assessment of nasal obstruction symptoms using the NOSE scale after surgically assisted rapid maxillary expansion. Int J Oral Maxillofac Surg, 44(11):1346-1350.
[22]Menon S, Manerikar R, Sinha R, 2010. Surgical management of transverse maxillary deficiency in adults. J Maxillofac Oral Surg, 9(3):241-246.
[23]Nada RM, van Loon B, JGJH Schols, et al., 2013. Volumetric changes of the nose and nasal airway 2 years after tooth-borne and bone-borne surgically assisted rapid maxillary expansion. Eur J Oral Sci, 121(5):450-456.
[24]Neeley WW, Edgin WA, Gonzales DA, 2007. A review of the effects of expansion of the nasal base on nasal airflow and resistance. J Maxillofac Oral Surg, 65(6):1174-119.
[25]Pereira MD, Koga AF, Prado GPR, et al., 2018. Complications from surgically assisted rapid maxillary expansion with HAAS and HYRAX expanders. J Craniofac Surg, 29(2):275-278.
[26]Pereira-Filho VA, Monnazzi MS, Gabrielli MAC, et al., 2014. Volumetric upper airway assessment in patients with transverse maxillary deficiency after surgically assisted rapid maxillary expansion. Int J Oral Maxillofac Surg, 43(5):581-586.
[27]Qian YM, Qian HX, Wu YD, et al., 2013. Numeric simulation of the upper airway structure and airflow dynamic characteristics after unilateral complete maxillary resection. Int J Prosthodont, 26(3):268-271.
[28]Sant'Ana LFM, Pinzan-Vercelino CRM, Gurgel JA, et al., 2016. Evaluation of surgically assisted rapid maxillary expansion with and without midpalatal split. Int J Oral Maxillofac Surg, 45(8):997-1001.
[29]Seeberger R, Kater W, Davids R, et al., 2010. Long term effects of surgically assisted rapid maxillary expansion without performing osteotomy of the pterygoid plates. J Cranio Maxill Surg, 38(3):175-178.
[30]Seeberger R, Gander E, Hoffmann J, et al., 2015. Surgical management of cross-bites in orthognathic surgery: surgically assisted rapid maxillary expansion (SARME) versus two-piece maxilla. J Cranio Maxill Surg, 43(7):1109-1112.
[31]Smith T, Ghoneima A, Stewart K, et al., 2012. Three-dimensional computed tomography analysis of airway volume changes after rapid maxillary expansion. Am J Orthod Dentofacial Orthop, 141(5):618-626.
[32]Tausche E, Deeb W, Hansen L, et al., 2009. CT analysis of nasal volume changes after surgically-assisted rapid maxillary expansion. J Orofac Orthop, 70(4):306-317.
[33]Vinha PP, Eckeli AL, Faria AC, et al., 2016. Effects of surgically assisted rapid maxillary expansion on obstructive sleep apnea and daytime sleepiness. Sleep Breath, 20(2):501-508.
[34]Warren DW, Hershey G, Turvey TA, et al., 1987. The nasal airway following maxillary expansion. Am J Orthod Dentofacial Orthop, 91(2):111-116.
[35]Weng LX, Song XJ, Li J, et al., 2017. Midpalatal cortex osteotomy assisted rapid maxillary expansion for correction of maxillary transverse deficiency in young adults. J Zhejiang Univ Med Sci, 46(2):198-205 (in Chinese).
[36]Wriedt S, Kunkel M, Zentner A, et al., 2001. Surgically assisted rapid palatal expansion an acoustic rhinometric, morphometric and sonographic investigation. J Orofac Orthop, 62(2):107-115.
[37]Zandi M, Miresmaeili A, Heidari A, 2014. Short-term skeletal and dental changes following bone-borne versus tooth-borne surgically assisted rapid maxillary expansion: a randomized clinical trial study. J Cranio Maxill Surg, 42(7):1190-1195.
[38]Zhao Y, Nguyen M, Gohl E, et al., 2010. Oropharyngeal airway changes after rapid palatal expansion evaluated with cone-beam computed tomography. Am J Orthod Dentofacial Orthop, 137(4 Suppl):S71-S78.
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