The Comparative Study of Push-out Bond Strength of Two Different Root Canal Sealers with Cold Lateral Condensation Obturation Technique - Invitro Study
Neha Dubey1* and Rahul Maria2
1Post Graduate Student, Department of Conservative Dentistry and Endodontics,
Bhabha College of Dental Sciences, India
2Professor and HOD, Department of Conservative Dentistry and Endodontics, Bhabha College of Dental Sciences, India
*Corresponding Author:Neha Dubey, Post Graduate Student, Department of
Conservative Dentistry and Endodontics, Bhabha College of Dental Sciences, India.
Received: December 22, 2022; Published: January 11, 2023
Aim: To evaluate and compare the pushout bond strength of BioCeramic sealer and AH plus sealer using Gutta percha with cold lateral compaction technique.
Material and Methodology: Forty-five human extracted single rooted teeth Mandibular 1st premolar teeth with completely formed apices were selected, instrumentation were done by using Protaper Next rotary system using X1, X2 and X3. The teeth were divided into three groups based upon the sealer used Group 1: Bioceramic sealer (CeraFill RCSTM), Group 2: Epoxy resin-based sealer (AH Plus sealer), and Group 3: Obturated using Gutta percha only using cold lateral compaction technique and stored for 4 week. After obturation, each tooth was prepared for push-out bond strength test with root slices of 2mm thickness using universal testing machine.
Results: The highest bond strength was found in Group1 Bioceramic sealer (CeraFill RCSTM) (P < 0.05) compare to other groups. Statistical analysis is done by ANOVA, Student‘t’ test.
Conclusion: The push-out bond strength of Bioceramic sealer was highest followed by resin based sealer and lowest bond strength was observed in Group 3
Keywords:Bioceramic Sealer; AH Plus sealer; Push-Out Bond Strength; Obturation Technique
- HA Farag., et al. “Effect of different irrigating protocols on push out bond strength of Resilon/Epiphany obturation system”. Tanta Dental Journal (2015): 1-8.
- Bassem M Eid., et al. “Assessment of Two Root Canal Sealers Push-Out Bond Strength in Root Canals Obturated Using Two Different Obturation Techniques”. Egyptian Dental Journal 65.1487 (2019): 1494.
- Deepika Khandelwal., et al. “Recent Advances in Root Canal Sealers”. International Journal of Clinical Dentistry 9.3 (2006).
- David Donnermeyer., et al. “Retreatability of three calcium silicate-containing sealers and one epoxy resin-based root canal sealer with four different root canal instruments”. Clinical Oral Investigations 22 (2018): 811-817.
- , et al. “Push-out bond strength of root fillings made with C-Point and BC sealer vs. gutta percha and AH Plus after the instrumentation of oval canals with the Self-Adjusting File vs. WaveOne”. Original Scientific (2015).
- HM Abada and AM Farag. “Push-out bond strength of different root canal obturation systems to root canal dentin”. Tanta Dental Journal 12 (2015): 185-191.
- Andari Putrianti and Munyati Usman. “Effects Of Cold Lateral Versus Warm Vertical Compaction Obturation on the Push-Out Bond Strength of Bioroot™, A Calcium Silicate-Based Sealer”. International Journal of Applied Pharmaceutics (2020).
- Eduardo Diogo Gurgel-Filho., et al. “Comparative evaluation of push-out bond strength of a MTA-based root canal sealer”. Brazilian Journal of Oral Sciences 2 (2019): 114-117.
- Mohammed S Khalil and Anas F Mahdee. “Intracanal Adaptation, Intratubular Penetration, and Push-Out Bond Strength of Different Root Canal Sealers: A Comparative In vitro Study”. Journal of Research in Medical and Dental Science 1 (2021): 242-250.
- Ricardo Shalina and Marissa Celine. “Comparison Of Three Bioceramic Sealers in Terms of Dentinal Sealing Ability In The Root Canal”. International Journal of Applied Pharmaceutics2 (2020).
- Nafiz tamer almqayyad., et al. “Assessment of push out bond strength and interfacial adaptation of two new endodontics sealers, endosequuence BC and MTA fillapex to root canal dentine (An in vitro study)”. International Journal of Advanced Research 3 (2018): 1043-1050.
- Almqayyad Tamer Nafiz., et al. “Assessment of Push-Out Bond Strength And Interfacial Adaptation Of Two New Endodontic Sealers; Endosequence Bc And Mta Fillapex To Root Canal Dentine (An In Vitro Study)”. International Journal of Advanced Research (2018): 1043-1050.
- Bhat SS., et al. “Evaluation of resistance of teeth subjected to fracture after endodontic treatment using different root canal sealers: an in vitro study”. Journal of Indian Society of Pedodontics and Preventive Dentistry 30 (2012): 305-309.
- Shokouhinejad N., et al. “Push-out bond strength of gutta-percha with a new bioceramic sealer in the presence or absence of smear layer”. Australian Endodontic Journal 3 (2013): 102-106.
- , et al. “Dentinal Tubule penetration and adaptation of Bio-C Sealer and AH-Plus”. European Endodontic Journal 6 (2021): 216-220.
- Aly Y., et al. “Bond strength and marginal adaptation of a novel root-end filling material”. Bulletin of the National Research Centre 44 (2020): 142.
- Zhang W., et al. “Assessment of a new root canal sealer’s apical sealing ability”. Oral Surgery, Oral Medicine, Oral Pathology, Oral Radiology, and Endodontology 107 (2009): e79-82.
- Gaurav Jain., et al. “Influence of endodontic irrigants on the push-out bond strength of root canal sealers”. Journal of Dental Specialities 1 (2019): 9-18.
- Yap WY., et al. “An in vitro comparison of bond strength of different sealers/obturation systems to root dentin using the push-out test at 2 weeks and 3 months after obturation”. Medical Principles and Practice 26 (2017): 464-469.
- Gurgel-Fi lho ED., et al. “Comparative evaluation of push-out bond strength of a MTA-based root canal sealer”. Brazilian Journal of Oral Sciences 2 (2014): 114-117.
- Quintão C., et al. “Adhesion capacity of bioceramic and resin-based root canal sealer toroot dentin: An integrative review”. Revista Brasileira de Odontologia 77 (2020): 1.
- Schwartz RS. “Adhesive dentistry and endodontics. Part 2: bonding in the root canal system-the promise and the problems: a review”. Journal of Endodontics 12 (2006): 1125-1134.