Pengaruh Sistem Pasak Customised Dari Pita Polyethylene Reinforced Fiber Dengan Dan Tanpa Preparasi Ferrule Pada Terhadap Ketahanan Fraktur Dan Pola Fraktur Secara In Vitro
DAFTAR PUSTAKA
1. Ayna B, Celenk S, Atakul F, Uysal E. Three-year clinical evaluation of
endodontically terated anterior teeth restored with a polyethylene fiberreinforced composite. Aust Dent J 2009 ; 54: 136-40.
2. Deliperi S. Direct fiber-reinforced composite restoration in an endodonticallytreated molar:a three-year case report. Op Dent 2008; 209-14.
3. Torabi K, Fattahi F. Fracture resistance of endodontically treated teeth restored
by different FRC pasaks : an in vitro study. Indian J Dent Rest 2009; 20(3): 2827.
4. Terry DA. Restoring the intraradicular space with direct composite resin: fiberreinforced pasak-and-inti system. PPA ; 6(6): 1-3.
5. Terry DA. Design principles for the direct fiber-reinforced composite resin
pasak and inti system. Contemporary Esthetis and Restorative Practice2003; 2231.
6. Bell-Rönnlöf, AML. Fiber-reinforced composites as root canal pasaks. Thesis.
Finland, Turku: departement of Prosthetic Dentistry and Biomaterials Scianca
University of Turku 2007: 16-36.
7. Kivanc BH, Alacam T, Ulusoy OIA, Genc O, Gorgul G. Fracture resistance of
thin-walled roots restored with different pasak system. Int J Endodont 2009 ;
997-1003.
8. Deliperi S, Bardwell DN, Coiana C. Reconstruction of devital teeth using direct
fiber-reinforced composite resins : a case report. J Adesh Dent 2005; 1-7.
9. Turker SB, Akumru HN, Evren B. Prospective clinical trial of polyethylene fiber
ribbind-reinforced, resin composite pasak-inti builtup restorations. Int J
Prosthodont 2007; 55-6.
10. Fragou T, Tortopidis D, Kontonasaki E, Evangelinaki E, Ioannidis K, Petridis H,
Koidis P. The effect ferrule on the fracture mode of endodontically treated
canines restored with fibre post and metal-ceramic or all-ceramic crowns. J Dent
2012; 40: 276-85.
Universitas Sumatera Utara
11. Zicari F, Van Meerbeek B, Scotti R, Naert I. Effect of ferrule and post
placementon fracture resistance of endodontically treated teeth after fatigue
loading. J Dent 2012; 1-9.
12. Plotino G, Buono L, Grande NM, Lamorgese V, Somma F. Farcure Resistance
of Endodontically Treaed Molars Restored With Extensive Composite Resin
Restoration. J Prosthet Dent 2008; 99: 225-32.
13. Attia A, Abdelaziz KM, Freitag S, Kern M. Fracture Load of Composite Resin
and Feldspathic all-Ceramic CAD/CAM Crowns. J Prosthet Dent 2006; 95: 11723.
14. Schwartz RS, Robins JW. Post placement and restoration of endodontically
treated teeth : a literature review. J Endodont 2004 ; 289-301
15. El-Askary FS, Hasehem AAR. The effect of core material and post diameter on
fracture load of endodontically treated lower first premolar.
16. Deliperi S, Bardwell DN. Recontruction of nonvital teeth using direct fibre
reinforced composite resin: pilot clinical study. J Adhes Dent 2009; 11: 71-8.
17. Sadeghi M.A. Comparison of the fracture resistance of endodontically treated
using three diferent post system. J Dent 2006; 69-7.
18. Glazer B. Endodontic post evaluation from metal to quarrtz. Oral Health 2002;
43-5.
19. Belli S, Eskitascioglu G. Biomechanical properties and clinical use off a
polyethylene fibre post-core material. IDSA;8(3): 20-6.
20. Gluskin AH,Ahmad I, Harrera DB. The aesthatic post and core: unifying
radicular form and structure. Pract Proced Aesthet Dent 2002;14 (4): 313-21
21. Ganesh M, Tandon S. Versality of ribbond in contemporary dental practice.
Trends Biometer 2006;20(1):53-8.
22. Ferrari, M. fibre posts and endodonticaaly traeted teeth: a compendium of
scientific and clinical perspective. Wenddywood: Modern Dentistry Media, 2008
: 15-37.
23. Nazarian
A.
the
progression
of
dental
adhesives.
http://www.kerrdental.com/index/cmsfilesystemaction?file=KerrDentalproducts-Articles/adhesives-nazarian.pdf (Aguatus 2.2012).
Universitas Sumatera Utara
1. Ayna B, Celenk S, Atakul F, Uysal E. Three-year clinical evaluation of
endodontically terated anterior teeth restored with a polyethylene fiberreinforced composite. Aust Dent J 2009 ; 54: 136-40.
2. Deliperi S. Direct fiber-reinforced composite restoration in an endodonticallytreated molar:a three-year case report. Op Dent 2008; 209-14.
3. Torabi K, Fattahi F. Fracture resistance of endodontically treated teeth restored
by different FRC pasaks : an in vitro study. Indian J Dent Rest 2009; 20(3): 2827.
4. Terry DA. Restoring the intraradicular space with direct composite resin: fiberreinforced pasak-and-inti system. PPA ; 6(6): 1-3.
5. Terry DA. Design principles for the direct fiber-reinforced composite resin
pasak and inti system. Contemporary Esthetis and Restorative Practice2003; 2231.
6. Bell-Rönnlöf, AML. Fiber-reinforced composites as root canal pasaks. Thesis.
Finland, Turku: departement of Prosthetic Dentistry and Biomaterials Scianca
University of Turku 2007: 16-36.
7. Kivanc BH, Alacam T, Ulusoy OIA, Genc O, Gorgul G. Fracture resistance of
thin-walled roots restored with different pasak system. Int J Endodont 2009 ;
997-1003.
8. Deliperi S, Bardwell DN, Coiana C. Reconstruction of devital teeth using direct
fiber-reinforced composite resins : a case report. J Adesh Dent 2005; 1-7.
9. Turker SB, Akumru HN, Evren B. Prospective clinical trial of polyethylene fiber
ribbind-reinforced, resin composite pasak-inti builtup restorations. Int J
Prosthodont 2007; 55-6.
10. Fragou T, Tortopidis D, Kontonasaki E, Evangelinaki E, Ioannidis K, Petridis H,
Koidis P. The effect ferrule on the fracture mode of endodontically treated
canines restored with fibre post and metal-ceramic or all-ceramic crowns. J Dent
2012; 40: 276-85.
Universitas Sumatera Utara
11. Zicari F, Van Meerbeek B, Scotti R, Naert I. Effect of ferrule and post
placementon fracture resistance of endodontically treated teeth after fatigue
loading. J Dent 2012; 1-9.
12. Plotino G, Buono L, Grande NM, Lamorgese V, Somma F. Farcure Resistance
of Endodontically Treaed Molars Restored With Extensive Composite Resin
Restoration. J Prosthet Dent 2008; 99: 225-32.
13. Attia A, Abdelaziz KM, Freitag S, Kern M. Fracture Load of Composite Resin
and Feldspathic all-Ceramic CAD/CAM Crowns. J Prosthet Dent 2006; 95: 11723.
14. Schwartz RS, Robins JW. Post placement and restoration of endodontically
treated teeth : a literature review. J Endodont 2004 ; 289-301
15. El-Askary FS, Hasehem AAR. The effect of core material and post diameter on
fracture load of endodontically treated lower first premolar.
16. Deliperi S, Bardwell DN. Recontruction of nonvital teeth using direct fibre
reinforced composite resin: pilot clinical study. J Adhes Dent 2009; 11: 71-8.
17. Sadeghi M.A. Comparison of the fracture resistance of endodontically treated
using three diferent post system. J Dent 2006; 69-7.
18. Glazer B. Endodontic post evaluation from metal to quarrtz. Oral Health 2002;
43-5.
19. Belli S, Eskitascioglu G. Biomechanical properties and clinical use off a
polyethylene fibre post-core material. IDSA;8(3): 20-6.
20. Gluskin AH,Ahmad I, Harrera DB. The aesthatic post and core: unifying
radicular form and structure. Pract Proced Aesthet Dent 2002;14 (4): 313-21
21. Ganesh M, Tandon S. Versality of ribbond in contemporary dental practice.
Trends Biometer 2006;20(1):53-8.
22. Ferrari, M. fibre posts and endodonticaaly traeted teeth: a compendium of
scientific and clinical perspective. Wenddywood: Modern Dentistry Media, 2008
: 15-37.
23. Nazarian
A.
the
progression
of
dental
adhesives.
http://www.kerrdental.com/index/cmsfilesystemaction?file=KerrDentalproducts-Articles/adhesives-nazarian.pdf (Aguatus 2.2012).
Universitas Sumatera Utara