夹层技术不同充填材料和咬合角度对非龋性颈部缺损牙体应力分布的影响

doi:10.13701/j.cnki.kqyxyj.2022.05.012

口腔医学研究 ›› 2022, Vol. 38 ›› Issue (5): 447-453.DOI: 10.13701/j.cnki.kqyxyj.2022.05.012

夹层技术不同充填材料和咬合角度对非龋性颈部缺损牙体应力分布的影响

刘潇, 陈曦, 李宝, 马改兰, 宫月君, 郭涛^*

新疆医科大学第五附属医院口腔科新疆乌鲁木齐市 830011

收稿日期:2021-09-22 出版日期:2022-05-28 发布日期:2022-05-20
通讯作者: *郭涛,E-mail: 835771078@qq.co
作者简介:刘潇(1996~ ),女,新疆沙湾人,硕士在读,研究方向:牙体牙髓病学。
基金资助:
中华口腔医学会口腔健康促进与口腔医学发展西部临床科研基金项目(编号:CSA-W2017)

Effects of Sandwich Technology and Occlusal Angle of Different Filling Materials on Stress Distribution of Non-caries Cervical Lesions

LIU Xiao, CHEN Xi, LI Bao, MA Gailan, GONG Yuejun, GUO Tao^*

Department of Stomatology, The Fifth Affiliated Hospital of Xinjiang Medical University, Urumqi 830011, China

Received:2021-09-22 Online:2022-05-28 Published:2022-05-20

摘要/Abstract

摘要： 目的: 使用三维有限元法分析运用夹层技术时不同充填材料和咬合角度对患非龋性颈部缺损的下颌第一前磨牙及充填体应力分布的影响。方法: 建立下颌第一前磨牙非龋性颈部缺损三维有限元模型作为对照组,4组材料修复模型作为实验组:A组:3M Filtek Z350XT树脂-玻璃离子水门汀,B组:3M Filtek Z350XT树脂-Cention N,C组:3M Filtek Z350XT Flowable流动树脂-玻璃离子水门汀,D组:3M Filtek Z350XT Flowable流动树脂-Cention N。给予所有模型位于颊尖顶的垂直向载荷(0°)和位于颊尖偏颊侧的侧向载荷(30°、45°、60°)各100 N,用ANSYS 17.0进行应力分布分析。结果: (1)对照组侧向加载时剩余牙体组织Von Mises应力峰值(MPa)比垂直向时分别增加49.3%、222.4%、376%.与对照组相比较,A、B、C、D各组充填完成后均能大幅度地降低牙体组织应力,但组间差异不大。(2)随着载荷角度的增大,内层材料应力峰值(Mpa)由大到小依次为D组＞B组＞C组＞A组。(3)随着载荷角度的增大,外层材料Von Mises 应力峰值由大到小依次为为A组＞B组＞C组＞D组。(4)随着载荷角度的增大,粘接剂在垂直载荷时,按Von Mises 应力峰值由大到小依次为C组＞D组＞A组＞B组,侧向载荷时,由大到小依次为A组＞B组＞C组＞D组。结论: 从结果综合来看,相同咬合状态下,使用3M Filtek Z350XT Flowable流动树脂-Cention N材料组合的夹层技术修复患有非龋性颈部缺损的下颌第一前磨牙时更具优势,此结论也许能为夹层技术修复非龋性颈部缺损材料的选择提供参考。

关键词: 夹层技术, 咬合角度, 三维有限元法, 应力分析, 非龋性颈部缺损

Abstract: Objective: To analyze the effects of different filling materials and occlusal angles on the stress distribution of mandibular first premolars with non-caries cervical lesions by three-dimensional finite element method. Methods: A three-dimensional finite element model of mandibular first premolars with non-caries neck defect was established as control group. Four groups of material were used as the experimental group. Group A: 3M Filtek Z350XT resin-glass ionomer cement. Group B: 3M Filtek Z350XT resin-Cention N. Group C: 3M Filtek Z350XT Flowable Resin-Glass ionomer Cement. Group D: 3M Filtek Z350XT Flowable Resin -Cention N. All models were given a vertical load (0°) at the buccal tip and a lateral load (30°, 45°, 60°) at the side of the buccal tip with 100N each, and the stress distribution was analyzed using ANSYS 17.0. Results: (1) In the control group, the Von Mises stress peak value increased by 49.3%, 222.4%, and 376% under lateral loading compared with vertical loading, respectively. Compared with the control group, the dental tissue stress was significantly reduced in groups A, B, C, and D after filling, but there was only slight difference among groups. (2) With the increase of load angle, the stress peak value (MPa) of inner material was D>B>C>A. (3) With the increase of loading angle, the Von Mises stress peak of the outer material was A>B>C>D. (4) With the increase of loading angle, the stress peak value (Mpa) of adhesive in vertical loading was C>D>A>B, and the order of peak Von Mises stress in lateral loading was A>B>C>D. Conclusion: 3M Filtek Z350XT Flowable resin-Cention N material combination has more advantages in repairing the mandibular first premolars with non-caries cervical lesions under the same occlusion condition.

Key words: sandwich technique, occlusal angles, three dimensional finite element method, stress analysis, non-carious cervical lesions

刘潇, 陈曦, 李宝, 马改兰, 宫月君, 郭涛. 夹层技术不同充填材料和咬合角度对非龋性颈部缺损牙体应力分布的影响[J]. 口腔医学研究, 2022, 38(5): 447-453.

LIU Xiao, CHEN Xi, LI Bao, MA Gailan, GONG Yuejun, GUO Tao. Effects of Sandwich Technology and Occlusal Angle of Different Filling Materials on Stress Distribution of Non-caries Cervical Lesions[J]. Journal of Oral Science Research, 2022, 38(5): 447-453.

参考文献

[1] 陈智.关于”楔状缺损”命名的探讨[J].中华口腔医学杂志,2020,55(5):329-332.
[2] Turssi CP, Binsaleh F, Lippert F, et al. Interplay between toothbrush stiffness and dentifrice abrasivity on the development of non-carious cervical lesions [J]. Clin Oral Investig, 2019, 23(9):3551-3556.
[3] Sabrah AH, Turssi CP, Lippert F, et al. 3D-Image analysis of the impact of toothpaste abrasivity on the progression of simulated non-carious cervical lesions [J]. J Dent, 2018, 73:14-18.
[4] Yang J, Cai D, Wang F, et al. Non-carious cervical lesions (NCCLs) in a random sampling community population and the association of NCCLs with occlusive wear [J]. J Oral Rehabil, 2016, 43(12):960-966.
[5] Haralur SB, Alqahtani AS, AlMazni MS, et al. Association of non-carious cervical lesions with oral hygiene habits and dynamic occlusal parameters [J]. Diagnostics (Basel), 2019, 9(2):43.
[6] Jakupovic S, Vukovic A, Korac S, et al. The prevalence, distribution and expression of noncarious cervical lesions (NCCL) in permanent dentition [J]. Materia Socio Medica, 2010, 22(4):200-204.
[7] Kolak V, Pešić D, Melih I, et al. Epidemiological investigation of non-carious cervical lesions and possible etiological factors [J]. J Clin Exp Dent, 2018, 10(7):e648-e656.
[8] 王惠芸.我国人牙的测量和统计[J].中华口腔科杂志,1959,7(3):149-155.
[9] 康婷,石思琼,赵威,等.上颌第一前磨牙舌尖斜形折裂不同修复设计的有限元分析[J].口腔医学研究,2019,35(10):953-956.
[10] Correia AMO, Tribst JPM, Matos FS, et al. Polymerization shrinkage stresses in different restorative techniques for non-carious cervical lesions [J]. J Dent, 2018, 76: 68-74.
[11] Pai S, Naik N, Patil V, et al. Numerical three-dimensional finite element modeling of cavity shape and optimal material selection by analysis of stress distribution on class V cavities of mandibular premolars [J]. J Int Soc Prev Community Dent, 2020, 10(3):279-285.
[12] Jiang YS, Feng L, Gao XJ. Influence of base materials on stress distribution in endodontically treated maxillary premolars restored with endocrowns [J]. Beijing Da Xue Xue Bao Yi Xue Ban, 2021, 53(4):764-769.
[13] 赵凌,杨丽媛,刘翠玲,等.不同修复方法对深型楔状缺损牙应力分布影响的三维有限元分析[J].华西口腔医学杂志,2017,35(1):77-81.
[14] Guimaraes JC, Guimaraes SG, Brandao DL, et al. Stress amplifi-cations in dental non-carious cervical lesions [J]. J Biomech, 2014, 47(2):410-416.
[15] Du JK, Wu JH, Chen PH, et al. Influence of cavity depth and restoration of non-carious cervical root lesions on strain distribution from various loading sites [J]. BMC Oral Health, 2020, 20(1):98-108.
[16] 汪春仙,刘赟,熊贵忠.不同材料及方法修复楔状缺损的临床评价[J].临床口腔医学杂志,2016,32(6):44-46.
[17] 梁扬师,宁海燕,梁斌.纳米树脂联合玻璃离子夹层技术修复牙颈部楔状缺损的效果[J].临床口腔医学杂志,2020,36(6):352-356.
[18] Paula AM, Boing TF, Wambier LM, et al. Clinical performance of non-carious cervical restorations restored with the "sandwich technique" and composite resin: A systematic review and meta-analysis [J]. J Adhes Dent, 2019, 21(6):497-508.
[19] Francois P, Fouquet V, Attal JP, et al. Commercially available fluoride-releasing restorative materials: A review and a proposal for classification [J]. Materials, 2020, 13(10):2313.
[20] Meshram P, Meshram V, Palve D, et al. Comparative evaluation of microleakage around class Ⅴcavities restored with alkasite restorative material with and without bonding agent and flowable composite resin: An in vitro study [J]. Indian J Dent Res, 2019, 30(3):403-407.
[21] Pai S, Naik N, Patil V, et al. Evaluation and comparison of stress distribution in restored cervical lesions of mandibular premolars: Three-dimensional finite element analysis [J]. J Int Soc Prev Community Dent, 2019, 9(6):605-611.
[22] Szesz A, Parreiras S, Martini E, et al. Effect of flowable composites on the clinical performance of non-carious cervical lesions: A systematic review and meta-analysis [J]. J Dent, 2017, 65:11-21.
[23] Guimaraes JC, Soella GG, Durand LB, et al. Stress amplifications in dental non-carious cervical lesions [J]. J Biomech, 2014, 47(2):410-416.

夹层技术不同充填材料和咬合角度对非龋性颈部缺损牙体应力分布的影响

Effects of Sandwich Technology and Occlusal Angle of Different Filling Materials on Stress Distribution of Non-caries Cervical Lesions

PDF (PC)

可视化

摘要/Abstract

引用本文

使用本文

参考文献

相关文章 6

编辑推荐

Metrics

[1]	薛凯佳, 林毅, 刘家驹. SDR直接充填与Ceramage嵌体修复非龋性颈部缺损的疗效观察[J]. 口腔医学研究, 2021, 37(8): 727-731.
[2]	苏涛, 王星星, 向彪, 吴刚, 邹敏. 不同刚度的无托槽隐形矫治器扩大上颌牙弓的有限元分析[J]. 口腔医学研究, 2020, 36(5): 454-458.
[3]	高洁,葛振林. 利用微螺钉种植体支抗矫治骨性Ⅲ类错牙合畸形的现状[J]. 口腔医学研究, 2018, 34(12): 1274-1276.
[4]	肖燕，沈凯奇. 3D打印纤维桩修复不同形态根管的有限元分析[J]. 口腔医学研究, 2017, 33(3): 273-277.
[5]	葛奕辰,蒋少康,李轻如,朱卓立. “All-on-4”在不同骨质条件下应力分布的三维有限元分析[J]. 口腔医学研究, 2016, 32(12): 1252-1256.
[6]	宋亮,徐斌,陈慧娟,刘柳慧,胡开明. 桩核冠修复不同程度缺损下颌前磨牙的三维有限元分析[J]. 口腔医学研究, 2015, 31(10): 1013-1016.