Deniz AVCI
(Nevşehir Devlet Hastanesi, Kulak Burun Boğaz Anabilim Dalı, Nevşehir, Türkiye)
Şaban TİRYAKİ
(Nevşehir Devlet Hastanesi, Radyoloji Bölümü, Nevşehir, Türkiye)
Yıl: 2021Cilt: 11Sayı: 2ISSN: 2149-7109 / 2149-6498Sayfa Aralığı: 90 - 95İngilizce

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Does Nasal Septum Deviation with Different Locations and Different Angular Features Affect Maxillary Sinus Volumes?
Objective: The aim of this study was to investigate the isolated effect of moderateto- severe, lower, middle, and upper nasal septum deviation (NSD) and NSD angle on maxillary sinus volume (MSV). Methods: The retrospective study included 94 NSD patients (mean age, 27.95 ± 12.01 years). NSD diagnosis and the measurements of NSD angle and MSV were performed using paranasal sinus computed tomography (PNS CT). The NSD angle was divided into 2 groups as moderate (≤9 to <15) and severe (≥15) according to its degree on PNS CT. Each group was divided into 3 subgroups as lower, middle, and upper NSD based on the localization of NSD. MSV was measured both on the affected and unaffected sides using volume-measuring software. Results: Mean MSV was 13.76 ± 4.81 mL on the affected side as opposed to 14.46 ± 4.95 mL on the unaffected side in 94 patients (P = .03). The increase in the NSD angle had a significant effect on both MSVs (P = .037, for severe NSD). No significant difference was found between the side with lower, middle, or upper NSD and the contralateral side in terms of MSV (P > .05). Conclusion: We consider that NSD and an angular increase in NSD may play a role in MSV, while NSDs in different locations do not affect MSVs.
DergiAraştırma MakalesiErişime Açık
  • 1. Most SP, Rudy SF. Septoplasty: basic and advanced techniques. Facial Plast Surg Clin North Am. 2017;25(2):161-169. [CrossRef]
  • 2. Shokri A, Faradmal MJ, Hekmat B. Correlations between anatomical variations of the nasal cavity and ethmoidal sinuses on cone-beam computed tomography scans. Imaging Sci Dent. 2019;49(2):103-113. [CrossRef]
  • 3. Güzelküçük Akay H, Bayar Muluk N, Inal M, Şimşek G, Kiliç R. Evaluation of olfactory sensation, acoustic rhinometry, and quality of life of the patients with nasal septal deviation. J Craniofac Surg. 2019;30(4):1221-1227. [CrossRef]
  • 4. Klein JC. Nasal respiratory function and craniofacial growth. Arch Otolaryngol Head Neck Surg. 1986;112(8):843-849. [CrossRef]
  • 5. D’Ascanio L, Lancione C, Pompa G, et al. Craniofacial growth in children with nasal septum deviation: a cephalometric comparative study. Int J Pediatr Otorhinolaryngol. 2010;74(10):1180-1183. [CrossRef]
  • 6. Kim J, Song SW, Cho JH, Chang KH, Jun BC. Comparative study of the pneumatization of the mastoid air cells and paranasal sinuses using three-dimensional reconstruction of computed tomography scans. Surg Radiol Anat. 2010;32(6):593-599. [CrossRef]
  • 7. Cho SH, Kim TH, Kim KR, et al. Factors for maxillary sinus volume and craniofacial anatomical features in adults with chronic rhinosinusitis. Arch Otolaryngol Head Neck Surg. 2010;136(6):610-615. [CrossRef]
  • 8. Davis WE, Templer J, Parsons DS. Anatomy of the paranasal sinuses. Otolaryngol Clin North Am. 1996;29(1):57-74. [CrossRef]
  • 9. Elahi MM, Frenkiel S, Fageeh N. Paraseptal structural changes and chronic sinus disease in relation to the deviated septum. J Otolaryngol. 1997;26(4):236-240.
  • 10. Acar B, Yavuz B, Karabulut H, et al. Parasympathetic overactivity in patients with nasal septum deformities. Eur Arch Otorhinolaryngol. 2010;267(1):73-76. [CrossRef]
  • 11. Sapmaz E, Kavaklı A, Sapmaz HI, Ögetürk M. Impact of hard palate angulation caused by septal deviation on maxillary sinus volume. Turk Arch Otorhinolaryngol. 2018;56(2):75-80. [CrossRef]
  • 12. Brinkschulte M, Bienert-Zeit A, Lüpke M, et al. Using semi-automated segmentation of computed tomography datasets for three-dimensional visualization and volume measurements of equine paranasal sinuses. Vet Radiol Ultrasound. 2013;54(6):582- 590. [CrossRef]
  • 13. Khaitan T, Kabiraj A, Ginjupally U, Jain R. Cephalometric analysis for gender determination using maxillary sinus index: a novel dimension in personal identification. Int J Dent. 2017;2017:7026796. [CrossRef]
  • 14. Lawson W, Patel ZM, Lin FY. The development and pathologic processes that influence maxillary sinus pneumatization. Anat Rec. 2008;291(11):1554-1563. [CrossRef]
  • 15. Garcia GJM, Rhee JS, Senior BA, Kimbell JS. Septal deviation and nasal resistance: an investigation using virtual surgery and computational fluid dynamics. Am J Rhinol Allergy. 2010;24(1):46-53. [CrossRef]
  • 16. Orhan I, Ormeci T, Aydin S, et al. Morphometric analysis of the maxillary sinus in patients with nasal septum deviation. Eur Arch Otorhinolaryngol. 2014;271(4):727-732. [CrossRef]
  • 17. Kapusuz Gencer Z, Ozkırış M, Okur A, Karaçavuş S, Saydam L. The effect of nasal septal deviation on maxillary sinus volumes and development of maxillary sinusitis. Eur Arch Otorhinolaryngol. 2013;270(12):3069-3073. [CrossRef]
  • 18. Karataş D, Koç A, Yüksel F, et al. The effect of nasal septal deviation on frontal and maxillary sinus volumes and development of sinusitis. J Craniofac Surg. 2015;26(5):1508-1512. [CrossRef]
  • 19. Şahin MM, Özer H, Çayönü M, et al. The relationship between nasal septal deviation and paranasal pneumatization. J Craniofac Surg. 2020;31(3):e285-e288. [CrossRef]
  • 20. Kalabalık F, Tarım Ertaş E. Investigation of maxillary sinus volume relationships with nasal septal deviation, concha bullosa, and impacted or missing teeth using cone-beam computed tomography. Oral Radiol. 2019;35(3):287-295. [CrossRef]
  • 21. Kucybała I, Janik KA, Ciuk S, Storman D, Urbanik A. Nasal septal deviation and concha bullosa—do they have an impact on maxillary sinus volumes and prevalence of maxillary sinusitis? Pol J Radiol. 2017;82:126-133. [CrossRef]
  • 22. Anbiaee N, Khodabakhsh R, Bagherpour A. Relationship between anatomical variations of sinonasal area and maxillary sinus pneumatization. Iran J Otorhinolaryngol. 2019;31(105):229-234.
  • 23. Takahashi Y, Watanabe T, Iimura A, Takahashi O. A study of the maxillary sinus volume in elderly persons using Japanese cadavers. Okajimas Folia Anat Jpn. 2016;93(1):21-27. [CrossRef]
  • 24. Aktuna Belgin C, Colak M, Adiguzel O, Akkus Z, Orhan K. Threedimensional evaluation of maxillary sinus volume in different age and sex groups using CBCT. Eur Arch Otorhinolaryngol. 2019;276(5):1493-1499. [CrossRef]
  • 25. Sahlstrand-Johnson P, Jannert M, Strömbeck A, Abul-Kasim K. Computed tomography measurements of different dimensions of maxillary and frontal sinuses. BMC Med Imaging. 2011;11:8. [CrossRef]
  • 26. Lorkiewicz-Muszyńska D, Kociemba W, Rewekant A, et al. Development of the maxillary sinus from birth to age 18: postnatal growth pattern. Int J Pediatr Otorhinolaryngol. 2015;79(9):1393-1400. [CrossRef]

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