Pulp chamber temperature changes during orthodontic bonding – an in vitro study

1. Ward JD, Wolf BJ, Leite LP, Zhou J. Clinical effect of reducing curing times with high-intensity LED lights. Angle Orthod 2015;85:1064–9, doi: 10.2319/080714-556.1. Ward JD Wolf BJ Leite LP Zhou J . Clinical effect of reducing curing times with high-intensity LED lights . Angle Orthod 2015 ; 85 : 1064 – 9 , doi: 10.2319/080714-556.1 . 495554825760887 Open DOISearch in Google Scholar

2. Zarpellon DC, Runnacles P, Maucoski C, Coelho U, Rueggeberg FA, Arrais CAG. Controlling in vivo, human pulp temperature rise caused by LED curing light exposure. Oper Dent 2019;44:235–41. Zarpellon DC Runnacles P Maucoski C Coelho U Rueggeberg FA Arrais CAG . Controlling in vivo, human pulp temperature rise caused by LED curing light exposure . Oper Dent 2019 ; 44 : 235 – 41 . 10.2341/17-364-C30444689 Search in Google Scholar

3. Eliades T. Orthodontic materials research and applications: part 1. Current status and projected future developments in bonding and adhesives. Am J Orthod Dentofacial Orthoped 2006;130:445–51, doi: 10.1016/j.ajodo.2005.12.028. Eliades T . Orthodontic materials research and applications: part 1. Current status and projected future developments in bonding and adhesives . Am J Orthod Dentofacial Orthoped 2006 ; 130 : 445 – 51 , doi: 10.1016/j.ajodo.2005.12.028 . 17045143 Open DOISearch in Google Scholar

4. Asmussen E, Peutzfeldt A. Temperature rise induced by some light emitting diode and quartz-tungsten-halogen curing units. Eur J Oral Sci 2005;113:96–8. Asmussen E Peutzfeldt A . Temperature rise induced by some light emitting diode and quartz-tungsten-halogen curing units . Eur J Oral Sci 2005 ; 113 : 96 – 8 . 10.1111/j.1600-0722.2004.00181.x15693836 Search in Google Scholar

5. Uzel A, Buyukyilmaz T, Kayalioglu M, Uzel I. Temperature rise during orthodontic bonding with various light-curing units – an in vitro study. Angle Orthod 2006;76:330–4. Uzel A Buyukyilmaz T Kayalioglu M Uzel I . Temperature rise during orthodontic bonding with various light-curing units – an in vitro study . Angle Orthod 2006 ; 76 : 330 – 4 . Search in Google Scholar

6. Yazici AR, Muftu A, Kugel G, Perry RD. Comparison of temperature changes in the pulp chamber induced by various light curing units, in vitro. Oper Dent 2006;31:261–5. Yazici AR Muftu A Kugel G Perry RD . Comparison of temperature changes in the pulp chamber induced by various light curing units, in vitro . Oper Dent 2006 ; 31 : 261 – 5 . 10.2341/05-2616827031 Search in Google Scholar

7. LePrince J, Devaux J, Mullier T, Vreven J, Leloup G. Pulpal-temperature rise and polymerization efficiency of LED curing lights. Oper Dent 2006;35:220230. LePrince J Devaux J Mullier T Vreven J Leloup G . Pulpal-temperature rise and polymerization efficiency of LED curing lights . Oper Dent 2006 ; 35 : 220230 . Search in Google Scholar

8. Price RB, Ehrnford L, Andreou P, Felix CA. Comparison of quartz-tungsten-halogen, light-emitting diode, and plasma arc curing lights. J Adhes Dent 2003;5:193–207. Price RB Ehrnford L Andreou P Felix CA . Comparison of quartz-tungsten-halogen, light-emitting diode, and plasma arc curing lights . J Adhes Dent 2003 ; 5 : 193 – 207 . Search in Google Scholar

9. Kwon SJ, Park YJ, Jun SH, Ahn JS, Lee IB, Cho BH. Thermal irritation of teeth during dental treatment procedures. Restor Dent Endod 2013;38:105–12. Kwon SJ Park YJ Jun SH Ahn JS Lee IB Cho BH . Thermal irritation of teeth during dental treatment procedures . Restor Dent Endod 2013 ; 38 : 105 – 12 . 10.5395/rde.2013.38.3.105376111724010075 Search in Google Scholar

10. Kim MJ, Kim RJY, Ferracane J, Lee IB. Thermographic analysis of the effect of composite type, layering method, and curing light on the temperature rise of photo-cured composites in tooth cavities. Dent Mater 2017;33:e373–83. Kim MJ Kim RJY Ferracane J Lee IB . Thermographic analysis of the effect of composite type, layering method, and curing light on the temperature rise of photo-cured composites in tooth cavities . Dent Mater 2017 ; 33 : e373 – 83 . 10.1016/j.dental.2017.07.00728760330 Search in Google Scholar

11. Kim RJ, Lee IB, Yoo JY, Park SJ, Kim SY, Yi YA. Real-time analysis of temperature changes in composite increments and pulp chamber during photopolymerization. Biomed Res Int 2015;2015:923808, doi: 10.1155/2015/923808. Kim RJ Lee IB Yoo JY Park SJ Kim SY Yi YA . Real-time analysis of temperature changes in composite increments and pulp chamber during photopolymerization . Biomed Res Int 2015 ; 2015 : 923808 , doi: 10.1155/2015/923808 . 462869926557716 Open DOISearch in Google Scholar

12. Zach L, Cohen G. Pulp response to externally applied heat. Oral Surg Oral Med Oral Pathol 1965;19:515–30. Zach L Cohen G . Pulp response to externally applied heat . Oral Surg Oral Med Oral Pathol 1965 ; 19 : 515 – 30 . 10.1016/0030-4220(65)90015-014263662 Search in Google Scholar

13. Silva PC, De Fátima Zanirato Lizarelli R, Moriyama LT, De Toledo Porto Neto S, Bagnato VS. Temperature analysis during bonding of brackets using LED or halogen light base units. Photomed Laser Surg 2005;23:41–6. Silva PC De Fátima Zanirato Lizarelli R Moriyama LT De Toledo Porto Neto S Bagnato VS . Temperature analysis during bonding of brackets using LED or halogen light base units . Photomed Laser Surg 2005 ; 23 : 41 – 6 . 10.1089/pho.2005.23.4115782031 Search in Google Scholar

14. Ulusoy C, Irmak O, Bagis YH, Ulusoy OI. Temperature rise and shear bond strength of bondable buccal tubes bonded by various light sources. Eur J Orthod 2008;30:413–7. Ulusoy C Irmak O Bagis YH Ulusoy OI . Temperature rise and shear bond strength of bondable buccal tubes bonded by various light sources . Eur J Orthod 2008 ; 30 : 413 – 7 . 10.1093/ejo/cjn01318632840 Search in Google Scholar

15. Tarle Z, Meniga A, Knezevic A, Sutalo J, Ristic M, Pichler G. Composite conversion and temperature rise using a conventional, plasma arc and experimental blue LED curing unit. J Oral Rehab 2002;29:662–7. Tarle Z Meniga A Knezevic A Sutalo J Ristic M Pichler G . Composite conversion and temperature rise using a conventional, plasma arc and experimental blue LED curing unit . J Oral Rehab 2002 ; 29 : 662 – 7 . 10.1046/j.1365-2842.2002.00866.x12153456 Search in Google Scholar

16. Turkkahraman H, Kucukesmen HC. Orthodontic bracket shear bond strengths produced by two high-power light-emitting diode modes and halogen light. Angle Orthod 2005;75:854–7. Turkkahraman H Kucukesmen HC . Orthodontic bracket shear bond strengths produced by two high-power light-emitting diode modes and halogen light . Angle Orthod 2005 ; 75 : 854 – 7 . Search in Google Scholar

17. Aksakalli S, Demir A, Selek M, Tasdemir S. Temperature increase during orthodontic bonding with different curing units using an infrared camera. Acta Odontol Scand 2014;72:36–41. Aksakalli S Demir A Selek M Tasdemir S . Temperature increase during orthodontic bonding with different curing units using an infrared camera . Acta Odontol Scand 2014 ; 72 : 36 – 41 . 10.3109/00016357.2013.79495423638766 Search in Google Scholar

18. Hannig M, Bott B. In-vitro pulp chamber temperature rise during composite resin polymerization with various light-curing sources. Dent Mater 1999;15:275–81. Hannig M Bott B . In-vitro pulp chamber temperature rise during composite resin polymerization with various light-curing sources . Dent Mater 1999 ; 15 : 275 – 81 . 10.1016/S0109-5641(99)00047-010551096 Search in Google Scholar

19. Weerakoon AT, Meyers IA, Symons AL, Walsh LJ. Pulpal heat changes with newly developed resin photopolymerisation systems. Aust Endod J 2002;28:108–11. Weerakoon AT Meyers IA Symons AL Walsh LJ . Pulpal heat changes with newly developed resin photopolymerisation systems . Aust Endod J 2002 ; 28 : 108 – 11 . 10.1111/j.1747-4477.2002.tb00402.x12510474 Search in Google Scholar

20. Lee YK. Translucency of dental ceramic, post and bracket. Materials (Basel) 2015;8:7241–9. Lee YK . Translucency of dental ceramic, post and bracket . Materials (Basel) 2015 ; 8 : 7241 – 9 . 10.3390/ma8115379545889328793634 Search in Google Scholar

21. Lopes Filho H, Maia LE, Araujo MV, Ruellas AC. Influence of optical properties of esthetic brackets (color, translucence, and fluorescence) on visual perception. Am J Orthod Dentofacial Orthoped 2012;141:460–7. Lopes Filho H Maia LE Araujo MV Ruellas AC . Influence of optical properties of esthetic brackets (color, translucence, and fluorescence) on visual perception . Am J Orthod Dentofacial Orthoped 2012 ; 141 : 460 – 7 . 10.1016/j.ajodo.2011.10.02622464528 Search in Google Scholar

22. Lopez Filho H, Maia LEG, Araujo MVA, Ruellas ACO. Influence of optical properties of esthetic brackets (color, translucence, and fluorescence) on visual perception. Am J Orthod Dentofacial Orthoped 2012;141:460–7. Lopez Filho H Maia LEG Araujo MVA Ruellas ACO . Influence of optical properties of esthetic brackets (color, translucence, and fluorescence) on visual perception . Am J Orthod Dentofacial Orthoped 2012 ; 141 : 460 – 7 . 10.1016/j.ajodo.2011.10.026 Search in Google Scholar

23. Jena A, Duggal R, Mehrotra AK. Physical properties and clinical characteristics of ceramic brackets: a comprehensive review. Trends Biomater Artif Organs 2007;20:101–15. Jena A Duggal R Mehrotra AK . Physical properties and clinical characteristics of ceramic brackets: a comprehensive review . Trends Biomater Artif Organs 2007 ; 20 : 101 – 15 . Search in Google Scholar

24. Lee YK. Colour and translucency of tooth-coloured orthodontic brackets. Eur J Orthod 2008;30:205–10. Lee YK . Colour and translucency of tooth-coloured orthodontic brackets . Eur J Orthod 2008 ; 30 : 205 – 10 . 10.1093/ejo/cjm12218390838 Search in Google Scholar

25. Yu B, Lee YK. Aesthetic color performance of plastic and ceramic brackets: an in vitro study. J Orthod 2011;38:167–74. Yu B Lee YK . Aesthetic color performance of plastic and ceramic brackets: an in vitro study . J Orthod 2011 ; 38 : 167 – 74 . 10.1179/1465312114143421875990 Search in Google Scholar