Journal of Shanghai Jiao Tong University (Medical Science) >
Application of a new Er:YAG laser in root canal irrigation
Received date: 2022-08-18
Accepted date: 2022-11-18
Online published: 2022-12-28
Supported by
Research Discipline Fund from Shanghai Ninth People's Hospital, Shanghai Jiao Tong University School of Medicine;College of Stomatology, Shanghai Jiao Tong University(KQYJXK2020)
Root canal irrigation is essential to disinfect the main root canal, the root canal isthmus, and the lateral root canals. Traditional syringe irrigation is the most widely used irrigation method. Due to the intricate three-dimensional structure of the root canal system, the fluid cannot penetrate all areas. Therefore, syringe irrigation does not flush out tissue residues and dentin debris well. This accumulated hard tissue debris may interfere with the sealing properties of the root canal filling material and hinder disinfection. Laser-activated irrigation has emerged as an effective root canal irrigation technique. The new Er:YAG laser swabbing mode has greatly improved the efficiency of removing debris and medication from root canals.This article summarizes the effectiveness and advantages of Er:YAG laser in root canal irrigation and the current status of the application of Er:YAG laser to root canal treatment.
Yueping PAN , Tingting LI . Application of a new Er:YAG laser in root canal irrigation[J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022 , 42(12) : 1780 -1784 . DOI: 10.3969/j.issn.1674-8115.2022.12.018
| 1 | CARON G, NHAM K, BRONNEC F, et al. Effectiveness of different final irrigant activation protocols on smear layer removal in curved canals[J]. J Endod, 2010, 36(8): 1361-1366. |
| 2 | RICUCCI D, SIQUEIRA J F. Fate of the tissue in lateral canals and apical ramifications in response to pathologic conditions and treatment procedures[J]. J Endod, 2010, 36(1): 1-15. |
| 3 | PRADA I, MICó-MU?OZ P, GINER-LLUESMA T, et al. Update of the therapeutic planning of irrigation and intracanal medication in root canal treatment. A literature review[J]. J Clin Exp Dent, 2019, 11(2): e185-e193. |
| 4 | PANTHANGI S, VISHWAJA U, REDDY C L C, et al. Novel sweeps technology in endodontics: a review[J]. IP Indian J Conserv Endodont, 2021, 6(3): 134-142. |
| 5 | 罗伯特·肯维萨. 口腔激光原理与技术实践[M].赵颖译. 2版. 沈阳: 辽宁科学技术出版社, 2019: 227-229. |
| 5 | KENVISA R. Principles and technical practice of oral laser[M]. 2nd ed. Shenyang: Liaoning Science and Technology Press, 2019: 227-229. |
| 6 | DE MOOR RJ, MEIRE M, GOHARKHAY K, et al. Efficacy of ultrasonic versus laser-activated irrigation to remove artificially placed dentin debris plugs[J]. J Endod, 2010, 36(9): 1580-1583. |
| 7 | VERSTRAETEN J, JACQUET W, DE MOOR R J G, et al. Hard tissue debris removal from the mesial root canal system of mandibular molars with ultrasonically and laser-activated irrigation: a micro-computed tomography study[J]. Lasers Med Sci, 2017, 32(9): 1965-1970. |
| 8 | VATANPOUR M, TOURSAVADKOUHI S, SAJJAD S. Comparison of three irrigation methods: sweeps, ultrasonic, and traditional irrigation, in smear layer and debris removal abilities in the root canal, beyond the fractured instrument[J]. Photodiagnosis Photodyn Ther, 2022, 37: 102707. |
| 9 | DELEU E, MEIRE M A, DE MOOR R J. Efficacy of laser-based irrigant activation methods in removing debris from simulated root canal irregularities[J]. Lasers Med Sci, 2015, 30(2): 831-835. |
| 10 | LUKA? N, JEZER?EK M. Amplification of pressure waves in laser-assisted endodontics with synchronized delivery of Er: YAG laser pulses[J]. Lasers Med Sci, 2018, 33(4): 823-833. |
| 11 | DE MOOR R J, BLANKEN J, MEIRE M, et al. Laser induced explosive vapor and cavitation resulting in effective irrigation of the root canal. Part 2: evaluation of the efficacy[J]. Lasers Surg Med, 2009, 41(7): 520-523. |
| 12 | LLOYD A, UHLES J P, CLEMENT D J, et al. Elimination of intracanal tissue and debris through a novel laser-activated system assessed using high-resolution micro-computed tomography: a pilot study[J]. J Endod, 2014, 40(4): 584-587. |
| 13 | DE MEYER S, MEIRE M A, COENYE T, et al. Effect of laser-activated irrigation on biofilms in artificial root canals[J]. Int Endod J, 2017, 50(5): 472-479. |
| 14 | AZIM A A, AKSEL H, ZHUANG T, et al. Efficacy of 4 irrigation protocols in killing bacteria colonized in dentinal tubules examined by a novel confocal laser scanning microscope analysis[J]. J Endod, 2016, 42(6): 928-934. |
| 15 | SWIMBERGHE R C D, BUYSE R, MEIRE M A, et al. Efficacy of different irrigation technique in simulated curved root canals[J]. Lasers Med Sci, 2021, 36(6): 1317-1322. |
| 16 | GEORGE R, MEYERS I A, WALSH L J. Laser activation of endodontic irrigants with improved conical laser fiber tips for removing smear layer in the apical third of the root canal[J]. J Endod, 2008, 34(12): 1524-1527. |
| 17 | ?ZER S Y, BASARAN E. Evaluation of microleakage of root canal fillings irradiated with different output powers of erbium, chromium: yttrium-scandium-gallium-garnet laser[J]. Aust Endod J, 2013, 39(1): 8-14. |
| 18 | GREGORCIC P, JEZERSEK M, MOZINA J. Optodynamic energy-conversion efficiency during an Er: YAG-laser-pulse delivery into a liquid through different fiber-tip geometries[J]. J Biomed Opt, 2012, 17(7): 075006. |
| 19 | ARICIO?LU B, ?IKMAN A ?, BABACAN M. The comparison of cleaning efficacy and apical extrusion of advanced irrigation activation methods with a novel Er: YAG laser modality: sweeps[J]. Lasers Dent Sci, 2021, 5(1): 43-52. |
| 20 | OZBAY Y, ERDEMIR A. Effect of several laser systems on removal of smear layer with a variety of irrigation solutions[J]. Microsc Res Tech, 2018, 81(10): 1214-1222. |
| 21 | MACEDO R G, WESSELINK P R, ZACCHEO F, et al. Reaction rate of NaOCl in contact with bovine dentine: effect of activation, exposure time, concentration and pH[J]. Int Endod J, 2010, 43(12): 1108-1115. |
| 22 | GOLOB B S, OLIVI G, VRABEC M, et al. Efficacy of photon-induced photoacoustic streaming in the reduction of Enterococcus faecalis within the root canal: different settings and different sodium hypochlorite concentrations[J]. J Endod, 2017, 43(10): 1730-1735. |
| 23 | OLIVI M, RAPONI G, PALAIA G, et al. Disinfection of root canals with laser-activated irrigation, photoactivated disinfection, and combined laser techniques: an ex vivo preliminary study[J]. Photobiomodul Photomed Laser Surg, 2021, 39(1): 62-69. |
| 24 | WU L, JIANG S, GE H, et al. Effect of optimized irrigation with photon-induced photoacoustic streaming on smear layer removal, dentin microhardness, attachment morphology, and survival of the stem cells of apical papilla[J]. Lasers Surg Med, 2021, 53(8): 1105-1112. |
| 25 | KU?TARCI A, ER K, SISO S H, et al. Efficacy of laser-activated irrigants in calcium hydroxide removal from the artificial grooves in root canals: an ex vivo study[J]. Photomed Laser Surg, 2016, 34(5): 205-210. |
| 26 | LIAPIS D, DE BRUYNE M A A, DE MOOR R J G, et al. Postoperative pain after ultrasonically and laser-activated irrigation during root canal treatment: a randomized clinical trial[J]. Int Endod J, 2021, 54(7): 1037-1050. |
| 27 | JEZER?EK M, JEREB T, LUKA? N, et al. Evaluation of apical extrusion during novel Er: YAG laser-activated irrigation modality[J]. Photobiomodul Photomed Laser Surg, 2019, 37(9): 544-550. |
| 28 | YAO K, SATAKE K, WATANABE S, et al. Effect of laser energy and tip insertion depth on the pressure generated outside the apical foramen during Er: YAG laser-activated root canal irrigation[J]. Photomed Laser Surg, 2017, 35(12): 682-687. |
| 29 | KELE? A, ARSLAN H, KAMALAK A, et al. Removal of filling materials from oval-shaped canals using laser irradiation: a micro-computed tomographic study[J]. J Endod, 2015, 41(2): 219-224. |
/
| 〈 |
|
〉 |