BAB 7 KESIMPULAN DAN SARAN…

7.2 Saran

1. Perlu dilakukan simulasi yang lebih lanjut dengan berbagai sudut beban yang lain untuk dapat mensimulasikan beban pengunyahan dari variasi relasi rahang klas II dan III didalam mulut.

2. Perlu dilakukan pembuatan dengan metode lain seperti metode dengan alat CAD-CAM dan CBCT untuk mendapatkan model yang lebih mendekati gigi asli

3. Perlu dilakukan penelitian yang lebih lanjut uji klinis secara in vitro sebagai perbandingan hasil simulasi ini mengingat berbagai keterbatasan dari simulasi ini dalam menyerupai keadaan klinis suatu model.

Abbas MA, Bakar WZW dan Masudi SM. 2014. In vitro evaluation of the ferrule effect and post material on failure load and mode in endodontically treated teeth.

Dentistry ;4:3.

Adiguzel O, Yigit OS, Bahsi E, Yavuz L. 2011. Finite element analysis of endodontically treated tooth restored with different posts under thermal and mechanical loading. IDR; 1(3): 75-80

AL-Amro AA dan Wilson PR. 2009. Effect of ferrule placement on the fracture resistance of cyclically loaded bovine teeth restored with cemented cast post-cores and crowns. Eur J Prosthodont Restor Dent; 17(3):105-10.

Arunpraditkul S, Saengsanon dan S, Pakviwat W. 2009. Fracture Resistance of Endodontically Treated Teeth: Three Walls versus Four Walls of Remaining Coronal Tooth Structure. Journal of Prosthodontics;18:49–53

Belli S. 2011. Monoblocks in root canals: a finite elemental stress analysis study.

International Endodontic Journal; 44:817–26.

Borcis J, Antonic R, Urek MM, Petricevic N, Nola-Fuchs, Catic A. Smojver I. 2007.

3-D stress analysis in first maxillary premolar. Co; antropol; 4: 1025-9

Castro CG, Santana FR, Roscoe MG, Simamoto PC Jr, Santos-Filho PC Soares CJ.

2012. Fracture Resistance and Mode of Failure of Various Types of Root Filled Teeth. Int Endod J; 45: 840-7

Silva NR, Raposo LH, Versluis A, Fernandes-Neto AJ, Soares CJ. 2010. The effect of post, core, crown type, and ferrule presence on the biomechanical behavior of endodontically treated bovine anterior teeth. J Prosthet Dent;104:306-17

Dikbas I, Tanalp J, Ozel E, Koksal T, Ersoy M. 2007. Evaluation of the effect of different crown ferrule designs on the fracture resistance of endodontically treated maxillary central incisors in corporating fiber posts, composite cores and crown restorations. The Journal of Contemporary Dental Practice; 8(7):62-9.

Eliyas S, Jalili J, and Martin N. 2015. Restoration of the root canal treated tooth.

British Dental Journal; 218: 53-62

Gegauff A G. 2000. Effect of crown lengthening and ferrule placement on static load failure of cemented cast post-cores and crowns. J Prosthet Dent;84:169-79.

Hinckfuss S, Wilson P R. 2008. Effect of core material and restoration design on strength of endodontically treated bovine teeth: a laboratory study. J Prosthodont;17:456-61.

Ichim I, Kuzmanovic DV, Love RM. 2006. A finite element analysis of ferrule design on restoration resistance and distribution of stress within a root. International Endodontic Journal; 39: 443–52

Izadi Z M, Jalalian E, Ziaee A E, Zamani L and Javanshir B. 2010. Evaluation of the Effect of Different Ferrule Designs on Fracture Resistance of Maxillary Incisors Restored with Bonded Posts and Cores. Journal of Dentistry;7(3) : 146-55

Jotkowitz A, Samet N. 2010. Rethinking ferrule – a new approach to an old dilemma.

British Dental Journal; 209:25–33

Kishen A. 2006. Mechanisms and risk factors for fracture predilection in endodontically treated teeth. Endodontic topics; 13: 57-83

Kruzic JJ, Nalla RK, Kinney JH Ritchie RO. 2004. Mechanistic aspects of in vitrofatique-crack growth in dentin. J Biomaterials; 1-10

Kumari A, vijayalakshmi L, Meena N, Mehta D. 2011. Intraradicular rehabilitation – A restorative solution to a non ideal root – A case report. Int Journal of Clinical Dental Science; 2(1): 41-5

Lamichhane A, Xu C, Zhang F. 2014. Dental Fiber Post Resin Base Material : A Review. J Adv Prosthodont; 6: 60-5

Lara Ferro MC. 2016. Fracture Strength of Weakened Anterior Teeth Associated to Different Reconstructive Techniques. Brazilian Dental Journal; 27(5):556-61.

Lima AF dkk. 2010. Influence of ferrule preparation with or without glass fiber post on fracture resistance of endodontically treated teeth. J Appl Oral Sci; 18(4):360-30 Lin TS, Huang TT, Wu JH. 2009. The effect of designs and material of the post on endodontcally treated premolar using finite element analysis. J Medical and Biological engineering; 30(2): 79-83

Mamoun JS. 2014. On the ferrule effect and the biomechanical stability of teeth restored with cores, posts, and crowns. Eur J Dent; Apr-Jun;8(2):281–6

Mancebo JC, Castellanos EJ and Diego C. 2010. Effect of tooth type and ferrule on the survival of pulpless teeth restored with fiber posts: A 3-year clinical study.

American Journal of dentistry; 23:351-56.

McLean A. 1998. Predictably Restoring Endodontically Treated Teeth. J Can Dent Assoc; 64:782-7

Ng C C, Dumbrigue H B, Al-Bayat M I, Griggs J A, Wakefi eld C W. 2006. Influence of remaining coronal tooth structure location on the fracture resistance of restored endodontically treated anterior teeth. J Prosthet Dent; 95:290–6.

Pérez A, González C, Sancho JL, Rodríguez PJ. 2007. Effect of post design on endodontically restored teeth. CONTRIBUTIONS to SCIENCE; 3(4): 523–30 Rodrigues dkk. 2017. Patient-specific Finite Element Analysis of Fiber Post and Ferrule Design. Journal of endodontic; 43(9); 1539-44

Roscoe MG et al. 2013. Influence of alveolar bone loss, post type, and ferrule presence on the biomechanical behavior of endodontically treated maxillary canines:

Strain measurement and stress distribution. The Journal of Prosthetic Dentistry;

110(2); 118-29

Raygot CG, Chai J dan Jameson DL. 2001. Fracture resistance and primary failure mode of endodontically treated teeth restored with a carbon fiber-reinforced resin post system in vitro. Int J Prosthodont;14(2):141-5

Saker S, Ozcan M. 2015. Retentive strength of fiber-reinforced composite posts with composites resin cores: effect of remaining coronal structure and root canal dentin conditioning protocols. J Prosthet Dent; 114: 856-61

Santos-Filho. 2013. The Effect Of Type Post, Crown, And Ferrule Presence On Stress Distribution Of Maxillary Central Incisors With Weakened' Roots: Finite Element Analysis. Journal of Research in Dentistry; 1(2): 154-64

Saupe WA, Gluskin AH dan Radke RA Jr. 1996. A comparative study of fracture resistance between morphologic dowel and cores and a resin-reinforced dowel system in the intraradicular restoration of structurally compromised roots.

Quintessence Int; 27:483-91.

Schwartz RS, and Robbins JW. 2004. Post Placement and Restoration of Endodontically Treated Teeth: A Literature Review. Journal Of Endodontics; 30(5):

289-301

Seo M et al., 2009. Finite element analysis of maxillary central incisors restored with various post-and-core applications. 대한치과보존학회지; 34(4): 324-32

Sherfudhin H et al. 2011. Effect of different ferrule designs on the fracture resistance and failure pattern of endodontically treated teeth restored with fiber posts and all ceramic crown. J Appl Oral Sci;19(1):28-33

Sophia T et al. 2014. The concept of monobloc in Endodontic - A review. Journal of Dentistry; 6(2):83-7.

Sorensen J A, Engelman M J. 1990. Ferrule design and fracture resistance of endodontically treated teeth. J Prosthet Dent;63:529-36

Stankiewicz N R and Wilson P R. 2002. The ferrule effect: a literature review.

International Endodontic Journal; 35: 575-58.

Subrata G. 2007. Penggunaan finite element analysis dalam penelitian kedokteran gigi, IPROSI: 192-201

Tay FR dan Pashley DH. 2007. Monoblocks in root canals - a hypothetical or a tangible goal. J Endod; 33(4):391–8.

Tjan A H, Whang S B. 1985. Resistance to root fracture of dowel channels with various thicknesses of buccal dentin walls. The Journal Of Prosthetic Dentistry;

53:496-500

Torabi K, Fattahi F. 2009. Fracture resistance of endodontically treated teeth restored by different FRC post : An in vitro study. Indian J Dent Res; 20(3): 282-7

Trushkowsky RD. 2014. Restoration of endodontically treated teeth : Criteria and technique considerations. Quintessence Int;45:557-67

Varna R, Varghese NO, Vaughese JM. 2010. Reinforcement of root canal with thin dentinal wall using flowable composite and fibre posts. KDJ; 33(2): 45-8

Yamamoto et al. 2011. Finite element analysis and fracture resistances testing of a new intraradicular post. J Appl Oral Sci; 427-34

Zhi-Yue L, Yu-Xing Z. 2003. Effects of post-core design and ferrule on fracture resistance of endodontically treated maxillary central incisors. J Prosthet Dent;

89:368-73.

Lampiran 1

ALUR PENELITIAN

Model gigi insisivus sentralis kanan atas dikonstrusi pada komputer dengan menggunakan software AUTOCAD 2016, model digital kemudian diubah untuk

mengakomodasi guttapercha, restorasi pasak, inti, mahkota, dan ligmen periodontal

Empat model 3D dibuatkan preparasi ferrule konvensional yang melibatkan dentin koronal yang distimulasi dibuat interval 0,5 mm sampai setinggi 2 mm dan dengan

ketebalan dentin konstan 1 mm

Total deformation, equivalent elastic strain dan equivalent stress engineering data yaitu menginput mechanical properties dari setiap material

komponen model Model geometry di pasangkan pada software Ansys, setelah model dipasang kemudian

pada model dilakukan meshing

Analisa Data

Lampiran 2. Surat Persetujuan Komisi Etik

Lampiran 3. Surat Izin Penelitian di Laboratorium Pengaturan dan Pengukuran Departemen Teknik Mesin Fakultas Teknik USU

Lampiran 4. Surat Keterangan Telah Melakukan Penelitian di Laboratorium Pengaturan dan Pengukuran Departemen Teknik Mesin Fakultas Teknik USU

Lampiran 5. Hasil Analisis FEA : Total Deformation Pemberian Beban 25 Newton

Lampiran 6. Hasil Analisis FEA : Total Deformation Pemberian Beban 170 Newton

Lampiran 7. Hasil Analisis FEA : Equivalent Elastic Strain Pemberian Beban 25 Newton

Lampiran 8. Hasil Analisis FEA : Equivalent Elastic Strain Pemberian Beban 170 Newton

Lampiran 9. Hasil Analisis FEA : Equivalent Stress Pemberian Beban 25 Newton

Lampiran 10. Hasil Analisis FEA : Equivalent Stress Pemberian Beban 170 Newton