Research Article
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Year 2024, Volume: 25 Issue: 1, 51 - 56, 05.07.2024
https://doi.org/10.69601/meandrosmdj.1508347

Abstract

References

  • 1. Karabuda C, Yaltirik M, Bayraktar M. A clinical comparison of prosthetic complications of implant-supported overdentures with different attachment systems. Implant Dent 2008; 17: 74-81.
  • 2. Thomason JM, Kelly SA, Bendkowski A, Ellis JS. Two implant retained overdentures--a review of the literature supporting the McGill and York consensus statements. J Dent 2012; 40: 22-34.
  • 3. Alvarez-Arenal A, Gonzalez-Gonzalez I, deLlanos-Lanchares H, Martin-Fernandez E, Brizuela-Velasco A, Ellacuria-Echebarria J. Effect of implant- and occlusal load location on stress distribution in Locator attachments of mandibular overdenture. A finite element study. J Adv Prosthodont 2017; 9: 371-80.
  • 4. Alsiyabi AS, Felton DA, Cooper LF. The role of abutment-attachment selection in resolving inadequate interarch distance: a clinical report. J Prosthodont 2005; 14: 184-90.
  • 5. Tehini G, Baba NZ, Berberi A, Majzoub Z, Bassal H, Rifai K. Effect of Simulated Mastication on the Retention of Locator Attachments for Implant-Supported Overdentures: An In Vitro Pilot Study. J Prosthodont 2020; 29: 74-9.
  • 6. Nissan J, Oz-Ari B, Gross O, Ghelfan O, Chaushu G. Long-term prosthetic aftercare of direct vs. indirect attachment incorporation techniques to mandibular implant-supported overdenture. Clin Oral Implants Res 2011; 22: 627-30.
  • 7. Ozkir SE, Yilmaz B, Kurkcuoglu I, Culhaoglu A, Unal SM. Surface roughness and adaptation of different materials to secure implant attachment housings. J Prosthet Dent 2017; 117: 87-92.
  • 8. Kunt GE, Güler AU, Ceylan G, Duran I, Ozkan P, Kirtiloğlu T. Effects of Er:YAG laser treatments on surface roughness of base metal alloys. Lasers Med Sci 2012; 27: 47-51.
  • 9. Raeisosadat F, Ghoveizi R, Eskandarion S, Beyabanaki E, Tavakolizadeh S. Influence of Different Surface Treatments on the Shear Bond Strength of Resin Cement to Base Metal Alloys. J Lasers Med Sci 2020; 11: 45-9.
  • 10. Castillo-Oyagüe R, Osorio R, Osorio E, Sánchez-Aguilera F, Toledano M. The effect of surface treatments on the microroughness of laser-sintered and vacuum-cast base metal alloys for dental prosthetic frameworks. Microsc Res Tech 2012; 75: 1206-12.
  • 11. Kawaguchi T, Shimizu H, Lassila LV, Vallittu PK, Takahashi Y. Effect of surface preparation on the bond strength of heat-polymerized denture base resin to commercially pure titanium and cobalt-chromium alloy. Dent Mater J 2011; 30: 143-50.
  • 12. Nakhaei M, Dashti H, Baghbani A, Ahmadi Z. Bond strength of locator housing attached to denture base resin secured with different retaining materials. Dent Res J (Isfahan) 2020; 17: 34-9.
  • 13. Duran İ, Ural Ç, Sarı ME, Yüzbaşıoğlu E, Yılmaz B, Kavut İ. Effect of Er-YAG laser application on shear bond strength of polymethyl methacrylate to Cr-Co alloy. Selcuk Dent J 2016; 3: 87-91.
  • 14. Venkat G, Krishnan M, Srinivasan S, Balasubramanian M. Evaluation of Bond Strength between Grooved Titanium Alloy Implant Abutments and Provisional Veneering Materials after Surface Treatment of the Abutments: An In vitro Study. Contemp Clin Dent 2017; 8: 395-9.
  • 15. Alfadda SA. Effect of Alumina Particle Size on the Bond Strength between Autopolymerized Acrylic Resin and Commercially Pure Titanium. J Prosthodont 2019; 28: 466-70.
  • 16. Fonseca RG, Haneda IG, Almeida-Júnior AA, de Oliveira Abi-Rached F, Adabo GL. Efficacy of air-abrasion technique and additional surface treatment at titanium/resin cement interface. J Adhes Dent 2012; 14: 453-9.
  • 17. Ishii T, Koizumi H, Tanoue N, Naito K, Yamashita M, Matsumura H. Effect of alumina air-abrasion on mechanical bonding between an acrylic resin and casting alloys. J Oral Sci 2009; 51: 161-6.
  • 18. Korkmaz FM, Aycan S. Effect of Fiber Laser Irradiation on the Shear Bond Strength between Acrylic Resin and Titanium. Scanning. 2019; 2019: 5452919.
  • 19. Tanoue N, Matsuda Y, Yanagida H, Matsumura H, Sawase T. Factors affecting the bond strength of denture base and reline acrylic resins to base metal materials. J Appl Oral Sci 2013; 21: 320-6.
  • 20. Matsuda Y, Yanagida H, Ide T, Matsumura H, Tanoue N. Bond strength of poly(methyl methacrylate) denture base material to cast titanium and cobalt-chromium alloy. J Adhes Dent 2010; 12: 223-9.

Effect Of Air-Abrasion And Er:Yag Laser On The Bond Strength Between The Metal Housing Of An Overdenture Attachment System And The Hard Relining Material

Year 2024, Volume: 25 Issue: 1, 51 - 56, 05.07.2024
https://doi.org/10.69601/meandrosmdj.1508347

Abstract

Objective. This study investigated the effect of air-abrasion and erbium:yttrium-aluminum-garnet (Er:YAG) laser treatments on push-out bond strength (PBS) between hard relining material and metal housing of an overdenture attachment system.

Material and Methods. A total of 36 metal housings were randomly divided into 3 subgroups according to surface pretreatments (n=12): Control (no surface treatment; C), air-abrasion (A), and Er:YAG laser (L). Surface roughness (Ra) of specimens was determined using a profilometer. One additional specimen per group was evaluated by scanning electron microscopy (SEM). The hard relining material was bonded to metal housings, and a PBS test was performed using a universal testing machine. Data were statistically analyzed using 1-way analysis of variance (ANOVA), Tukey’s honestly significant difference (HSD), and Tamhane’s T2 tests (α=.05).

Results. C and L groups showed the lowest and highest Ra values, respectively. The mean Ra of the A group was statistically different from the mean values of the C and L groups (P<.001). The L group showed higher PBS values than the C group (P<.05), whereas the A group exhibited statistically similar PBS values to both C and L groups (P>.05).

Conclusions. Air-abrasion did not significantly increase the bond strength between the metal housing and hard relining material. Er:YAG laser irradiation noticeably improved the PBS but caused surface microcracks.

References

  • 1. Karabuda C, Yaltirik M, Bayraktar M. A clinical comparison of prosthetic complications of implant-supported overdentures with different attachment systems. Implant Dent 2008; 17: 74-81.
  • 2. Thomason JM, Kelly SA, Bendkowski A, Ellis JS. Two implant retained overdentures--a review of the literature supporting the McGill and York consensus statements. J Dent 2012; 40: 22-34.
  • 3. Alvarez-Arenal A, Gonzalez-Gonzalez I, deLlanos-Lanchares H, Martin-Fernandez E, Brizuela-Velasco A, Ellacuria-Echebarria J. Effect of implant- and occlusal load location on stress distribution in Locator attachments of mandibular overdenture. A finite element study. J Adv Prosthodont 2017; 9: 371-80.
  • 4. Alsiyabi AS, Felton DA, Cooper LF. The role of abutment-attachment selection in resolving inadequate interarch distance: a clinical report. J Prosthodont 2005; 14: 184-90.
  • 5. Tehini G, Baba NZ, Berberi A, Majzoub Z, Bassal H, Rifai K. Effect of Simulated Mastication on the Retention of Locator Attachments for Implant-Supported Overdentures: An In Vitro Pilot Study. J Prosthodont 2020; 29: 74-9.
  • 6. Nissan J, Oz-Ari B, Gross O, Ghelfan O, Chaushu G. Long-term prosthetic aftercare of direct vs. indirect attachment incorporation techniques to mandibular implant-supported overdenture. Clin Oral Implants Res 2011; 22: 627-30.
  • 7. Ozkir SE, Yilmaz B, Kurkcuoglu I, Culhaoglu A, Unal SM. Surface roughness and adaptation of different materials to secure implant attachment housings. J Prosthet Dent 2017; 117: 87-92.
  • 8. Kunt GE, Güler AU, Ceylan G, Duran I, Ozkan P, Kirtiloğlu T. Effects of Er:YAG laser treatments on surface roughness of base metal alloys. Lasers Med Sci 2012; 27: 47-51.
  • 9. Raeisosadat F, Ghoveizi R, Eskandarion S, Beyabanaki E, Tavakolizadeh S. Influence of Different Surface Treatments on the Shear Bond Strength of Resin Cement to Base Metal Alloys. J Lasers Med Sci 2020; 11: 45-9.
  • 10. Castillo-Oyagüe R, Osorio R, Osorio E, Sánchez-Aguilera F, Toledano M. The effect of surface treatments on the microroughness of laser-sintered and vacuum-cast base metal alloys for dental prosthetic frameworks. Microsc Res Tech 2012; 75: 1206-12.
  • 11. Kawaguchi T, Shimizu H, Lassila LV, Vallittu PK, Takahashi Y. Effect of surface preparation on the bond strength of heat-polymerized denture base resin to commercially pure titanium and cobalt-chromium alloy. Dent Mater J 2011; 30: 143-50.
  • 12. Nakhaei M, Dashti H, Baghbani A, Ahmadi Z. Bond strength of locator housing attached to denture base resin secured with different retaining materials. Dent Res J (Isfahan) 2020; 17: 34-9.
  • 13. Duran İ, Ural Ç, Sarı ME, Yüzbaşıoğlu E, Yılmaz B, Kavut İ. Effect of Er-YAG laser application on shear bond strength of polymethyl methacrylate to Cr-Co alloy. Selcuk Dent J 2016; 3: 87-91.
  • 14. Venkat G, Krishnan M, Srinivasan S, Balasubramanian M. Evaluation of Bond Strength between Grooved Titanium Alloy Implant Abutments and Provisional Veneering Materials after Surface Treatment of the Abutments: An In vitro Study. Contemp Clin Dent 2017; 8: 395-9.
  • 15. Alfadda SA. Effect of Alumina Particle Size on the Bond Strength between Autopolymerized Acrylic Resin and Commercially Pure Titanium. J Prosthodont 2019; 28: 466-70.
  • 16. Fonseca RG, Haneda IG, Almeida-Júnior AA, de Oliveira Abi-Rached F, Adabo GL. Efficacy of air-abrasion technique and additional surface treatment at titanium/resin cement interface. J Adhes Dent 2012; 14: 453-9.
  • 17. Ishii T, Koizumi H, Tanoue N, Naito K, Yamashita M, Matsumura H. Effect of alumina air-abrasion on mechanical bonding between an acrylic resin and casting alloys. J Oral Sci 2009; 51: 161-6.
  • 18. Korkmaz FM, Aycan S. Effect of Fiber Laser Irradiation on the Shear Bond Strength between Acrylic Resin and Titanium. Scanning. 2019; 2019: 5452919.
  • 19. Tanoue N, Matsuda Y, Yanagida H, Matsumura H, Sawase T. Factors affecting the bond strength of denture base and reline acrylic resins to base metal materials. J Appl Oral Sci 2013; 21: 320-6.
  • 20. Matsuda Y, Yanagida H, Ide T, Matsumura H, Tanoue N. Bond strength of poly(methyl methacrylate) denture base material to cast titanium and cobalt-chromium alloy. J Adhes Dent 2010; 12: 223-9.
There are 20 citations in total.

Details

Primary Language English
Subjects Dentistry (Other)
Journal Section Research Article
Authors

Hüseyin Şeker This is me

Yener Okutan

Göknil Alkan Demetoğlu

Early Pub Date July 1, 2024
Publication Date July 5, 2024
Published in Issue Year 2024 Volume: 25 Issue: 1

Cite

EndNote Şeker H, Okutan Y, Alkan Demetoğlu G (July 1, 2024) Effect Of Air-Abrasion And Er:Yag Laser On The Bond Strength Between The Metal Housing Of An Overdenture Attachment System And The Hard Relining Material. Meandros Medical And Dental Journal 25 1 51–56.