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根管再治疗过程中冲洗剂清除硅酸钙基根管封闭剂效果的研究进展
张波,李霞,杨梦绮
PDF(796 KB)
PDF(796 KB)
根管再治疗过程中冲洗剂清除硅酸钙基根管封闭剂效果的研究进展
),李霞2(),杨梦绮1Research progress on the removal of calcium silicate-based root canal sealers during retreatment process
),Xia Li2(),Mengqi Yang1近年来硅酸钙基根管封闭剂因其优异的粘接封闭性、生物相容性等特性,在根管治疗中得到广泛应用。其优越的粘接封闭性提高了根管治疗的效果,但当根管治疗失败需要再治疗时,目前的常规根管再治疗方法以及机械预备和化学冲洗的技术改进难以有效地清除硅酸钙基根管封闭剂,根管再治疗的成功率随之受到挑战。因此本文聚焦于冲洗剂对硅酸钙基根管封闭剂的溶解作用,从物理溶解和化学溶解两方面对冲洗剂成分清除硅酸钙基根管封闭剂的能力进行综述,以期为临床上选择有效去除硅酸钙基根管封闭剂的根管冲洗剂,以及探索适宜的根管冲洗策略提供新思路。
In recent years, Calcium Silicate-based Root Canal Sealers have been widely used in root canal therapy because of its excellent adhesive sealing and biocompatibility. Its superior adhesive sealing improves the effect of root canal therapy, but when the root canal therapy fails and needs to be retreated, the current conventional root canal retreatment methods, as well as the technical improvement of mechanical preparation and chemical irrigation, are difficult to effectively remove the Calcium Silicate-based Root Canal Sealers, and the power of root canal retreatment is also challenged. Therefore, this paper focuses on the dissolution of the irrigating agents on the Calcium Silicate-based Root Canal Sealers, and summarizes the ability of the irrigating agent components to remove the Calcium Silicate-based Root Canal Sealers from both physical dissolution and chemical dissolution, with a view to providing a new idea for the clinical selection of root canal irrigating agent that can effectively remove the Calcium Silicate-based Root Canal Sealers, as well as the exploration of appropriate root canal irrigation strategies.
硅酸钙基根管封闭剂 / 冲洗剂 / 物理溶解 / 化学溶解 / 溶解度
calcium silicate-based root canal sealer / irrigating agent / physical dissolution / chemical dissolution / solubility
R781.05
| 1 | Hargreaves KM, Cohen S, Berman LH. Preface[M]//Cohen’s pathways of the pulp. Amsterdam: Elsevier, 2011. |
| 2 | Rossi-Fedele G, Ahmed HM. Assessment of root canal filling removal effectiveness using micro-computed tomography: a systematic review[J]. J Endod, 2017, 43(4): 520-526. |
| 3 | 马昂. Er: YAG激光活化冲洗技术对根管内氢氧化钙清除效果和根尖封闭性能的影响[D]. 长春: 吉林大学, 2022. |
| 3 | Ma A. Effect of Er:YAG laser activation irrigation technology on removal effect of calcium hydroxide in root canals and apical sealing ability[D]. Chang-chun: Jilin University, 2022. |
| 4 | Primus CM, Tay FR, Niu LN. Bioactive tri/dical-cium silicate cements for treatment of pulpal and pe-riapical tissues[J]. Acta Biomater, 2019, 96: 35-54. |
| 5 | Camilleri J. Classification of hydraulic cements used in dentistry[J]. Front Dent Med, 2020, 1: 9. |
| 6 | Akcay M, Arslan H, Durmus N, et al. Dentinal tubule penetration of AH Plus, iRoot SP, MTA fillapex, and guttaflow bioseal root canal sealers after different final irrigation procedures: a confocal microscopic study[J]. Lasers Surg Med, 2016, 48(1): 70-76. |
| 7 | Atav Ates A, Dumani A, Yoldas O, et al. Post-obturation pain following the use of carrier-based system with AH Plus or iRoot SP sealers: a randomized controlled clinical trial[J]. Clin Oral Investig, 2019, 23(7): 3053-3061. |
| 8 | Kebudi Benezra M, Schembri Wismayer P, Camilleri J. Interfacial characteristics and cytocompatibility of hydraulic sealer cements[J]. J Endod, 2018, 44(6): 1007-1017. |
| 9 | Harrison JW. Irrigation of the root canal system[J]. Dent Clin North Am, 1984, 28(4): 797-808. |
| 10 | Boutsioukis C, Arias-Moliz MT, Chávez de Paz LE. A critical analysis of research methods and experimental models to study irrigants and irrigation systems[J]. Int Endod J, 2022, 55(): 295-329. |
| 11 | Eren SK, ?rs SA, Aksel H, et al. Effect of irrigants on the color stability, solubility, and surface characteristics of calcium-silicate based cements[J]. Restor Dent Endod, 2022, 47(1): e10. |
| 12 | Rebolloso de Barrio E, Gancedo-Caravia L, García-Barbero E, et al. Effect of exposure to root canal irrigants on the push-out bond strength of calcium silicate-based cements[J]. Clin Oral Investig, 2021, 25(5): 3267-3274. |
| 13 | Barton AFM. Solubility parameters[J]. Chem Rev, 1975, 75(6): 731-753. |
| 14 | Salimi A, Roosta A. Experimental solubility and thermodynamic aspects of methylene blue in diffe-rent solvents[J]. Thermochimica Acta, 2019, 675: 134-139. |
| 15 | Borges RP, Sousa-Neto MD, Versiani MA, et al. Changes in the surface of four calcium silicate-containing endodontic materials and an epoxy resin-based sealer after a solubility test[J]. Int Endod J, 2012, 45(5): 419-428. |
| 16 | Zhou HM, Shen Y, Zheng W, et al. Physical properties of 5 root canal sealers[J]. J Endod, 2013, 39(10): 1281-1286. |
| 17 | Faria-Júnior NB, Tanomaru-Filho M, Berbert FL, et al. Antibiofilm activity, pH and solubility of endo-dontic sealers[J]. Int Endod J, 2013, 46(8): 755-762. |
| 18 | Siboni F, Taddei P, Zamparini F, et al. Properties of BioRoot RCS, a tricalcium silicate endodontic sea-ler modified with povidone and polycarboxylate[J]. Int Endod J, 2017, 50(): e120-e136. |
| 19 | Camilleri J, Wang C, Kandhari S, et al. Methods for testing solubility of hydraulic calcium silicate ce-ments for root-end filling[J]. Sci Rep, 2022, 12(1): 7100. |
| 20 | Komabayashi T, Colmenar D, Cvach N, et al. Comprehensive review of current endodontic sealers[J]. Dent Mater J, 2020, 39(5): 703-720. |
| 21 | Antunes TBM, Janini ACP, Pelepenko LE, et al. Heating stability, physical and chemical analysis of calcium silicate-based endodontic sealers[J]. Int Endod J, 2021, 54(7): 1175-1188. |
| 22 | Eskandari F, Razavian A, Hamidi R, et al. An upda-ted review on properties and indications of calcium silicate-based cements in endodontic therapy[J]. Int J Dent, 2022, 2022: 6858088. |
| 23 | Torres FFE, Zordan-Bronzel CL, Guerreiro-Tanomaru JM, et al. Effect of immersion in distilled water or phosphate-buffered saline on the solubility, volumetric change and presence of voids within new calcium silicate-based root canal sealers[J]. Int Endod J, 2020, 53(3): 385-391. |
| 24 | Donnermeyer D, Bürklein S, Dammaschke T, et al. Endodontic sealers based on calcium silicates: a sys-tematic review[J]. Odontology, 2019, 107(4): 421-436. |
| 25 | 国家食品药品监督管理局. 牙科根管封闭材料: [S]. 北京: 中国标准出版社, 2010. |
| 25 | State Food and Drug Administration of the People’s Republic of China. Dental root canal sealing mate-rials: [S]. Beijing: Standards Press of China, 2010. |
| 26 | International Organization for Standardization. Dentistry-Root canal sealing materials: [S]. International Organization for Standardization, 2012. |
| 27 | Dotto L, Sarkis-Onofre R, Bacchi A, et al. The use of solvents for gutta-percha dissolution/removal du-ring endodontic retreatments: a scoping review[J]. J Biomed Mater Res B Appl Biomater, 2021, 109(6): 890-901. |
| 28 | Katunari? A, Dijani? P, Juri? Ka?uni? D, et al. Efficiency evaluation of various solvents in retreatment of endodontic filling in extracted teeth[J]. Acta Stomatol Croat, 2022, 56(1): 2-11. |
| 29 | Whitworth JM, Boursin EM. Dissolution of root canal sealer cements in volatile solvents[J]. Int Endod J, 2000, 33(1): 19-24. |
| 30 | Bayram E, Dalat D, Bayram M. Solubility evaluation of different root canal sealing materials[J]. J Contemp Dent Pract, 2015, 16(2): 96-100. |
| 31 | Alzraikat H, Taha NA, Hassouneh L. Dissolution of a mineral trioxide aggregate sealer in endodontic solvents compared to conventional sealers[J]. Braz Oral Res, 2016, 30: S1806-S83242016000100215. |
| 32 | Ma JZ, Al-Ashaw AJ, Shen Y, et al. Efficacy of ProTaper Universal Rotary Retreatment system for gutta-percha removal from oval root canals: a micro-computed tomography study[J]. J Endod, 2012, 38(11): 1516-1520. |
| 33 | Oltra E, Cox TC, LaCourse MR, et al. Retreatability of two endodontic sealers, EndoSequence BC Sealer and AH Plus: a micro-computed tomographic comparison[J]. Restor Dent Endod, 2017, 42(1): 19-26. |
| 34 | Kaplowitz GJ. Evaluation of gutta-percha solvents[J]. J Endod, 1990, 16(11): 539-540. |
| 35 | 张文文. 硬化水泥石高效清洗剂的研究[D]. 天津: 天津工业大学, 2014. |
| 35 | Zhang WW. Study on the highly efficient cleaning agent of hardened cement stone[D]. Tianjin: Tiangong University, 2014. |
| 36 | Wang T, Wu K, Kan LL, et al. Current understan-ding on microbiologically induced corrosion of concrete in sewer structures: a review of the evaluation methods and mitigation measures[J]. Constr Build Mater, 2020, 247: 118539. |
| 37 | Nandini S, Natanasabapathy V, Shivanna S. Effect of various chemicals as solvents on the dissolution of set white mineral trioxide aggregate: an in vitro study[J]. J Endod, 2010, 36(1): 135-138. |
| 38 | Saghiri MA, Garcia-Godoy F, Gutmann JL, et al. Removal of white mineral trioxide aggregate cement: a promising approach[J]. Biomed Res Int, 2013, 2013: 469164. |
| 39 | Wang Z, Ma J, Shen Y, et al. Acidic pH weakens the microhardness and microstructure of three trical-cium silicate materials[J]. Int Endod J, 2015, 48(4): 323-332. |
| 40 | Scrivener K, Ouzia A, Juilland P, et al. Advances in understanding cement hydration mechanisms[J]. Cem Concr Res, 2019, 124: 105823. |
| 41 | Garrib M, Camilleri J. Retreatment efficacy of hydraulic calcium silicate sealers used in single cone obturation[J]. J Dent, 2020, 98: 103370. |
| 42 | Inderpal SS. In vitro evaluation of the solubility of Endosequence BC sealer in acidic solutions[D]. Ri-chmond Virginia: Virginia Commonwealth University, 2021. |
| 43 | Rezaei G, Liu XH, Jalali P. Efficacy of different solvents for achieving patency in teeth obturated using bioceramic sealer[J]. J Endod, 2023, 49(2): 219-223. |
| 44 | Carrillo CA. Retreatability of tricalcium silicate-based boot canal sealing materials using different solutions[D]. Texas: University of Texas School of Dentistry, 2020. |
| 45 | Carrillo CA, Kirkpatrick T, Freeman K, et al. Retrievability of calcium silicate-based root canal sea-lers during retreatment: an ex vivo study[J]. J Endod, 2022, 48(6): 781-786. |
| 46 | Kaushal R, Bansal R, Malhan S. A comparative evaluation of smear layer removal by using ethy-lenediamine tetraacetic acid, citric acid, and maleic acid as root canal irrigants: an in vitro scanning electron microscopic study[J]. J Conserv Dent, 2020, 23(1): 71-78. |
| 47 | Ballal NV, Sona M, Tay FR. Effects of smear layer removal agents on the physical properties and microstructure of mineral trioxide aggregate cement[J]. J Dent, 2017, 66: 32-36. |
| 48 | D?browska K, Palatyńska-Ulatowska A, Klimek L. The effect of irrigation with citric acid on biodentine tricalcium silicate-based cement: SEM-EDS in vitro study[J]. Materials (Basel), 2022, 15(10): 3467. |
| 49 | Ballal NV, Ulusoy ??, Rao S, et al. The efficacy of different irrigation protocols in removing tricalcium silicate-based sealers from simulated root canal irregularities[J]. Microsc Res Tech, 2019, 82(11): 1862-1868. |
| 50 | Zhekov K. Obtrution of the root canal system with hydraulic condesation and bioceramic sealer[D]. Bulgaria: Pharmacy Plovdiv University, 2022. |
| 51 | 青岛四通八达商贸有限公司. 一种精密仪器雾化器积垢清洁剂: 201711086951.5[P]. 2019-05-14. |
| 51 | Qingdao Sitong Bada Trading Co Ltd. A scale cleaner for precision instrument atomizer: 201711086-951.5 [P]. 2019-05-14. |
| 52 | Halder N, Vemuri S, Guptha Anila BS, et al. To co-mpare the efficacy of various organic solvents on retrievability of Biodentine and their effect on microhardness of Biodentine and radicular dentin: an in vitro study[J]. J Conserv Dent, 2023, 26(1): 98-103. |
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