国际口腔医学杂志

国际口腔医学杂志 ›› 2022, Vol. 49 ›› Issue (2): 204-211.doi: 10.7518/gjkq.2022023

• 综述 • 上一篇    下一篇

上颌窦过度气化及其影响因素的研究进展

吴兴胜1(),黄迪2,石连水1()   

  1. 1.江西省口腔生物医学重点实验室 江西省口腔疾病临床研究中心 南昌大学附属口腔医院颞颌关节科 南昌 330006
    2.江西省赣州市人民医院口腔科 赣州 341000
  • 收稿日期:2021-07-20 修回日期:2021-11-15 出版日期:2022-03-01 发布日期:2022-03-15
  • 通讯作者: 石连水
  • 作者简介:吴兴胜,住院医师,硕士,Email: 747205883@qq.com

Research progress on extensive maxillary sinus pneumatization and its influencing factors

Wu Xingsheng1(),Huang Di2,Shi Lianshui1()   

  1. 1. The Key Laboratory of Oral Biomedicine & Clinical Research Center for Oral Disease, Jiangxi Province & Dept. of Temporomandibular Joint, Affiliated Stomatological Hospital of Nanchang University, Nanchang 330006, China
    2. Dept. of Stomatology, People’s Hospital of Ganzhou City, Jiangxi Province, Ganzhou 341000, China
  • Received:2021-07-20 Revised:2021-11-15 Online:2022-03-01 Published:2022-03-15
  • Contact: Lianshui Shi

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摘要:

上颌窦位于上颌骨内,自出生时开始气化,形成为多个骨壁围绕的锥体形空腔。上颌窦底壁与上颌后牙毗邻,关系密切。当上颌窦过度气化致使上颌后牙根尖紧邻上颌窦底,甚至突入上颌窦内时,对口腔多学科领域的诊疗将产生一定影响。先天性和后天环境性因素综合作用可影响上颌窦气化的程度,但上颌窦过度气化的发生机制及确切的影响因素尚不清楚。本文就上颌窦的解剖特征、上颌窦气化的分型、上颌窦气化与口腔学科诊疗之间的关系以及影响上颌窦气化的相关因素等几个方面进行综述,为临床医生了解上颌窦气化及过度气化,探讨上颌窦过度气化的发生机制提供一定的理论依据。

关键词: 上颌窦, 上颌窦气化, 上颌窦过度气化, 影响因素

Abstract:

The maxillary sinus is located in the maxillary bone. Since birth, its pneumatization has formed a cone-shaped cavity surrounded by multiple bone walls. Its inferior is adjacent to the posterior teeth of the maxillary and closely related. When the maxillary sinus is extensive pneumatization, the root apex of the posterior maxillary tooth is close to the maxillary sinus floor or even protruding into the maxillary sinus. It affects the diagnosis and treatment of the oral multidisciplinary field. The combined effect of congenital and acquired environmental factors influences the degree of maxillary sinus pneumatization, but the mechanism and exact influencing factors of extensive maxillary sinus pneumatization remain unclear. In this work, the anatomical characteristics of the maxillary sinus, the classification of maxillary sinus pneumatization, the relationship between the maxillary sinus pneumatization and the diagnosis and treatment of stomatology, and the related factors affecting the maxillary sinus pneumatization were reviewed to provide a theoretical basis for clinicians to understand maxillary sinus pneumatization, extensive pneumatization, and the mechanism of extensive maxillary sinus pneumatization.

Key words: maxillary sinus, maxillary sinus pneumatization, extensive maxillary sinus pneumatization, influence factors

中图分类号: 

  • R78
[1] Whyte A, Boeddinghaus R. The maxillary sinus: physiology, development and imaging anatomy[J]. Dentomaxillofac Radiol, 2019, 48(8): 20190205.
doi: 10.1259/dmfr.20190205
[2] Göçmen G, Borahan MO, Aktop S, et al. Effect of septal deviation, concha bullosa and haller’s cell on maxillary sinus’s inferior pneumatization; a retrospective study[J]. Open Dent J, 2015, 9(1): 282-286.
doi: 10.2174/1874210601509010282
[3] Pei J, Liu J, Chen Y, et al. Relationship between maxillary posterior molar roots and the maxillary sinus floor: cone-beam computed tomography analysis of a western Chinese population[J]. J Int Med Res, 2020, 48(6): 300060520926896.
[4] 黄迪, 吴兴胜, 石连水. 鼻中隔偏曲、中鼻甲气化及下鼻甲肥大对青少年上颌窦底部气化影响的CBCT分析[J]. 实用口腔医学杂志, 2021, 37(4): 535-539.
Huang D, Wu XS, Shi LS. CBCT analysis of the effects of nasal septum deflection, concha bullosa and inferior turbinate hypertrophy on adolescent maxillary sinus’s inferior pneumatization[J]. J Pract Stomatol, 2021, 37(4): 535-539.
[5] Luz J, Greutmann D, Wiedemeier D, et al. 3D-evaluation of the maxillary sinus in cone-beam computed tomography[J]. Int J Implant Dent, 2018, 4(1): 1-7.
doi: 10.1186/s40729-017-0113-3
[6] Kalkur C, Sattur AP, Guttal KS, et al. Correlation between maxillary sinus floor topography and relative root position of posterior teeth using orthopantomograph and digital volumetric tomography[J]. Asian J Med Sci, 2017, 8(1): 26-31.
[7] Roque-Torres GD, Ramirez-Sotelo LR, de Almeida SM, et al. 2D and 3D imaging of the relationship between maxillary sinus and posterior teeth[J]. Braz J Oral Sci, 2015, 14(2): 141-148.
doi: 10.1590/1677-3225v14n2a09
[8] 滕跃辉, 洪渊, 林梓桐, 等. 上颌窦底壁与上颌后牙根尖位置关系的临床与锥形束CT研究[J]. 口腔医学研究, 2015, 31(12): 1216-1219.
Teng YH, Hong Y, Lin ZT, et al. Assessment of topographic relationship between maxillary sinus floors and upper molar root apices by cone-beam computed tomography[J]. J Oral Sci Res, 2015, 31(12): 1216-1219.
[9] Nino-Barrera JL, Ardila E, Guaman-Pacheco F, et al. Assessment of the relationship between the maxillary sinus floor and the upper posterior root tips: clinical considerations[J]. J Investig Clin Dent, 2018, 9(2): e12307.
doi: 10.1111/jicd.2018.9.issue-2
[10] Kalavagunta S, Reddy KT. Extensive maxillary sinus pneumatization[J]. Rhinology, 2003, 41(2): 113-117.
pmid: 12868378
[11] 刘锦峰, 戴金升, 周沫, 等. 上颌窦前部气化的CT观察及临床意义[J]. 临床耳鼻咽喉头颈外科杂志, 2016, 30(18): 1447-1454.
Liu JF, Dai JS, Zhou M, et al. The CT observation and clinical significance of pneumatization of the anterior maxillary sinus[J]. J Clin Otorhinolaryngol Head Neck Surg, 2016, 30(18): 1447-1454.
[12] Cavalcanti MC, Guirado TE, Sapata VM, et al. Maxillary sinus floor pneumatization and alveolar ridge resorption after tooth loss: a cross-sectional study[J]. Braz Oral Res, 2018, 32: e64.
doi: 10.1590/1807-3107bor-2018.vol32.0064
[13] Elsayed SA, Alolayan AB, Alahmadi A, et al. Revisited maxillary sinus pneumatization narrative of observation in Al-Madinah Al-Munawwarah, Saudi Arabia: a retrospective cross-sectional study[J]. Saudi Dent J, 2019, 31(2): 212-218.
doi: 10.1016/j.sdentj.2018.11.002
[14] Tian XM, Qian L, Xin XZ, et al. An analysis of the proximity of maxillary posterior teeth to the maxillary sinus using cone-beam computed tomography[J]. J Endod, 2016, 42(3): 371-377.
doi: 10.1016/j.joen.2015.10.017
[15] Wang KL, Nichols BG, Poetker DM, et al. Odontogenic sinusitis: a case series studying diagnosis and management[J]. Int Forum Allergy Rhinol, 2015, 5(7): 597-601.
doi: 10.1002/alr.2015.5.issue-7
[16] Kim SM. Definition and management of odontogenic maxillary sinusitis[J]. Maxillofac Plast Reconstr Surg, 2019, 41(1): 13.
doi: 10.1186/s40902-019-0196-2
[17] del Rey-Santamaría M, Valmaseda Castellón E, Berini Aytés L, et al. Incidence of oral sinus communications in 389 upper thirmolar extraction[J]. Med Oral Patol Oral Cir Bucal, 2006, 11(4): E334-E338.
[18] Wagner F, Dvorak G, Nemec S, et al. A principal components analysis: how pneumatization and edentulism contribute to maxillary atrophy[J]. Oral Dis, 2017, 23(1): 55-61.
doi: 10.1111/odi.12571 pmid: 27537271
[19] 胡洪英, 杨雨楠, 王扬, 等. 上颌窦底与上颌第一磨牙正畸移动的相互影响研究[J]. 临床口腔医学杂志, 2018, 34(9): 536-539.
Hu HY, Yang YN, Wang Y, et al. Study on the interaction between the floor of maxillary sinus and maxillary first molar orthodontic movement[J]. J Clin Stomatol, 2018, 34(9): 536-539.
[20] 梁海, 张晓蕾, 苗琪. MDCT对青少年上颌窦与上颌第一磨牙解剖关系及牙移动标准值的探讨[J]. 临床口腔医学杂志, 2012, 28(1): 23-25.
Liang H, Zhang XL, Miao Q. Research in anatomical relationship between maxillary first molar and odolescent maxillany sinus and standard value of movement using MDCT[J]. J Clin Stomatol, 2012, 28(1): 23-25.
[21] Takahashi R. The formation of the human paranasal sinuses[J]. Acta Otolaryngol Suppl, 1984, 408: 1-28.
[22] Fernandes CL. Volumetric analysis of maxillary sinuses of Zulu and European crania by helical, multislice computed tomography[J]. J Laryngol Otol, 2004, 118(11): 877-881.
doi: 10.1258/0022215042703705 pmid: 15638975
[23] Kim J, Song SW, Cho JH, et al. Comparative study of the pneumatization of the mastoid air cells and paranasal sinuses using three-dimensional reconstruction of computed tomography scans[J]. Surg Radiol Anat, 2010, 32(6): 593-599.
doi: 10.1007/s00276-009-0618-4
[24] Karakas S, Kavakli A. Morphometric examination of the paranasal sinuses and mastoid air cells using computed tomography[J]. Ann Saudi Med, 2005, 25(1): 41-45.
pmid: 15822493
[25] Maddux SD, Butaric LN. Zygomaticomaxillary morphology and maxillary sinus form and function: how spatial constraints influence pneumatization patterns among modern humans[J]. Anat Rec, 2017, 300(1): 209-225.
doi: 10.1002/ar.v300.1
[26] Przystańska A, Kulczyk T, Rewekant A, et al. The association between maxillary sinus dimensions and midface parameters during human postnatal growth[J]. Biomed Res Int, 2018, 2018: 1-10.
[27] Bornstein M, Ho J, Yeung A, et al. A retrospective evaluation of factors influencing the volume of healthy maxillary sinuses based on CBCT imaging[J]. Int J Periodontics Restorative Dent, 2019, 39(2): 187-193.
doi: 10.11607/prd.3722 pmid: 30794254
[28] Urooge A. Sexual dimorphism of maxillary sinus: a morphometric analysis using cone beam computed tomography[J]. J Clin Diagn Res, 2017, 11(3): ZC67-ZC70.
[29] Chaiyasate S, Baron I, Clement P. Analysis of paranasal sinus development and anatomical variations: a CT genetic study in twins[J]. Clin Otolaryngol, 2007, 32(2): 93-97.
doi: 10.1111/j.1365-2273.2007.01404.x pmid: 17403223
[30] Shapiro R, Schorr S. A consideration of the systemic factors that influence frontal sinus pneumatization[J]. Invest Radiol, 1980, 15(3): 191-202.
pmid: 7399843
[31] Bhushan B, Rychlik K, Schroeder JW Jr. Development of the maxillary sinus in infants and children[J]. Int J Pediatr Otorhinolaryngol, 2016, 91: 146-151.
doi: 10.1016/j.ijporl.2016.10.022
[32] Jun BC, Song SW, Park CS, et al. The analysis of maxillary sinus aeration according to aging process; volume assessment by 3-dimensional reconstruction by high-resolutional CT scanning[J]. Otolaryngol Head Neck Surg, 2005, 132(3): 429-434.
doi: 10.1016/j.otohns.2004.11.012
[33] Kuru S, Acikgoz MM, Erdem Pinar A, et al. Evaluation of maxillary sinus expansion in children due to maxillary first molar extraction[J]. Eur Oral Res, 2019, 53(1): 1-5.
[34] Misch CE. Contemporary implant dentistry[M]. 3rd ed. St Louis: Mosby, 2008.
[35] 董正杰, 徐侃. 上颌窦底至牙槽嵴高度的增龄性变化[J]. 上海口腔医学, 2015, 24(6): 726-728.
Dong ZJ, Xu K. Analysis of the distance from maxillary sinus base wall to alveolar crest of first maxillary molar with age[J]. Shanghai J Stomatol, 2015, 24(6): 726-728.
[36] Misch CE. Contemporary implant dentistry[M]. 2nd ed. St Louis: Mosby, 1999.
[37] Sharan A, Madjar D. Maxillary sinus pneumatization following extractions: a radiographic study[J]. Int J Oral Maxillofac Implants, 2008, 23(1): 48-56.
[38] Ryu J, Choi SH, Cha JY, et al. Retrospective study of maxillary sinus dimensions and pneumatization in adult patients with an anterior open bite[J]. Am J Orthod Dentofac Orthop, 2016, 150(5): 796-801.
doi: 10.1016/j.ajodo.2016.03.032
[39] Laranjo F, Pinho T. Cephalometric study of the upper airways and dentoalveolar height in open bite patients[J]. Int Orthod, 2014, 12(4): 467-482.
[40] Arriola-Guillén LE, Flores-Mir C. Molar heights and incisor inclinations in adults with class Ⅱand class Ⅲ skeletal open-bite malocclusions[J]. Am J Orthod Dentofac Orthop, 2014, 145(3): 325-332.
doi: 10.1016/j.ajodo.2013.12.001
[41] 何开云. 不同垂直骨面型安氏Ⅱ1类错𬌗的嚼肌形态及其功能的相关性研究[D]. 青岛: 青岛大学, 2008.
He KY. Ultrasonographic images and electromyographic activity of masseter muscle in class Ⅱ1 malocclusions with different vertical craniofacial morphology[D]. Qingdao: Qingdao University, 2008.
[42] Lawson W, Patel ZM, Lin FY. The development and pathologic processes that influence maxillary sinus pneumatization[J]. Anat Rec (Hoboken), 2008, 291(11): 1554-1563.
doi: 10.1002/ar.v291:11
[43] Sonone J, Nagpure PS, Puttewar M, et al. Changes in maxillary sinus volume and it's walls thickness due to chronic rhinosinusitis: a prospective study[J]. Indian J Otolaryngol Head Neck Surg, 2019, 71(suppl 3): 2182-2185.
doi: 10.1007/s12070-019-01613-1
[44] Cho SH, Kim TH, Kim KR, et al. Factors for maxillary sinus volume and craniofacial anatomical features in adults with chronic rhinosinusitis[J]. Arch Otolaryngol Head Neck Surg, 2010, 136(6): 610-615.
doi: 10.1001/archoto.2010.75
[45] Kaymakci M, Erel F, Bulbul E, et al. Maxillary sinus aeration in allergic rhinitis[J]. J Craniofac Surg, 2015, 26(4): e288-e290.
doi: 10.1097/SCS.0000000000001558
[46] Kim HY, Kim MB, Dhong HJ, et al. Changes of maxillary sinus volume and bony thickness of the paranasal sinuses in longstanding pediatric chronic rhinosinusitis[J]. Int J Pediatr Otorhinolaryngol, 2008, 72(1): 103-108.
doi: 10.1016/j.ijporl.2007.09.018
[47] 尚红坤, 阮标, 李斯斯, 等. 上颌窦三维立体形态与上颌窦炎关系的研究[J]. 临床耳鼻咽喉头颈外科杂志, 2012, 26(20): 921-925.
Shang HK, Ruan B, Li SS, et al. The relationship between three-dimensional morphology of maxillary sinus and maxillary sinusitis[J]. J Clin Otorhinolaryngol Head Neck Surg, 2012, 26(20): 921-925.
[48] Kapusuz Gencer Z, Ozkırış M, Okur A, et al. The effect of nasal septal deviation on maxillary sinus volumes and development of maxillary sinusitis[J]. Eur Arch Otorhinolaryngol, 2013, 270(12): 3069-3073.
doi: 10.1007/s00405-013-2435-y pmid: 23512432
[49] 闫宏岭, 田佳新, 葛玥铭, 等. 上颌窦气化程度与腺样体肥大相关性分析[J]. 中国耳鼻咽喉头颈外科, 2015, 22(1): 49-50.
Yan HL, Tian JX, Ge YM, et al. Analysis of the relationship between the degree of maxillary sinus pneumatization and adenoid hypertrophy[J]. Chin Arch Otolaryngol Head Neck Surg, 2015, 22(1): 49-50.
[50] 韩嘉为, 张罗, 韩德民. 上颌窦形态与阻塞性睡眠呼吸暂停低通气综合征严重程度的关系[J]. 首都医科大学学报, 2011, 32(1): 32-36.
Han JW, Zhang L, Han DM. Correlation between the appearance of the maxillary sinus and the severity of obstructive sleep apnea hypopnea syndrome[J]. J Cap Med Univ, 2011, 32(1): 32-36.
[51] Butaric LN. Differential scaling patterns in maxillary sinus volume and nasal cavity breadth among modern humans[J]. Anat Rec, 2015, 298(10): 1710-1721.
doi: 10.1002/ar.v298.10
[52] Leite JGDS, Nogueira JF, Pallanch J, et al. “M” line: new anatomical landmark for the maxillary sinus natural ostium[J]. Clin Otolaryngol, 2020, 45(2): 177-181.
doi: 10.1111/coa.v45.2
[53] Yeung AWK, Colsoul N, Montalvao C, et al. Visibility, location, and morphology of the primary maxillary sinus ostium and presence of accessory ostia: a retrospective analysis using cone beam computed tomography (CBCT)[J]. Clin Oral Investig, 2019, 23(11): 3977-3986.
doi: 10.1007/s00784-019-02829-9
[54] Zang HR, Liu YX, Han DM, et al. Airflow and temperature distribution inside the maxillary sinus: a computational fluid dynamics simulation[J]. Acta Otolaryngol, 2012, 132(6): 637-644.
doi: 10.3109/00016489.2011.651228
[55] 苏英锋, 刘迎曦, 孙秀珍, 等. 健康国人鼻腔气流场数值模拟研究[J]. 中国耳鼻咽喉头颈外科, 2015, 22(11): 545-547, 562.
Su YF, Liu YX, Sun XZ, et al. Numerical simulation of intranasal airflow field[J]. Chin Arch Otolaryngol Head Neck Surg, 2015, 22(11): 545-547, 562.
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[2] 刘玲. 镍铬合金中铍对可铸造性和陶瓷金属结合力的影响[J]. 国际口腔医学杂志, 1999, 26(06): .
[3] 王昆润. 在种植体上制作固定义齿以后下颌骨密度的动态变化[J]. 国际口腔医学杂志, 1999, 26(06): .
[4] 王昆润. 重型颌面部炎症死亡和康复病例的实验室检查指标比较[J]. 国际口腔医学杂志, 1999, 26(06): .
[5] 逄键梁. 两例外胚层发育不良儿童骨内植入种植体后牙槽骨生长情况[J]. 国际口腔医学杂志, 1999, 26(05): .
[6] 温秀杰. 氟化物对牙本质脱矿抑制作用的体外实验研究[J]. 国际口腔医学杂志, 1999, 26(05): .
[7] 杨春惠. 耳颞神经在颞颌关节周围的分布[J]. 国际口腔医学杂志, 1999, 26(04): .
[8] 王昆润. 牙周炎加重期应选用何种抗生素[J]. 国际口腔医学杂志, 1999, 26(04): .
[9] 杨儒壮 孙宏晨 欧阳喈. 纳米级高分子支架材料在组织工程中的研究进展[J]. 国际口腔医学杂志, 2004, 31(02): 126 -128 .
[10] 严超然,李龙江. 肿瘤靶向药物载体系统的研究进展[J]. 国际口腔医学杂志, 2008, 35(S1): .