Biomedical Engineering Reference
In-Depth Information
[31] B.S. Chong, T.R. Pitt Ford, The role of intracanal medication in root canal treatment, Int. Endod. J. 25
(1992) 97.
[32] G. Sundqvist, D. Figdor, S. Persson, U. Sjogren, Microbiologic analysis of teeth with failed endodon-
tic treatment and the outcome of conservative re-treatment, Oral Surg. Oral Med. Oral Pathol. 85
(1998) 86.
[33] A. Bystrom, R. Claeson, G. Sundqvist, The antibacterial effect of camphorated paramonochlorophenol,
camphorated phenol, and calcium hydroxide in the treatment of infected root canals phenol, Endod.
Dent. Traumatol. 1 (1985) 170
175.
[34] L. Fabricius, G. Dahlen, S.C. Holm, A.J.R. Moller, Influence of combinations of oral bacteria on periapi-
cal tissues of monkeys, Scand. J. Dent. Res. 90 (1982) 200.
[35] A. Shrestha, Z. Shi, K.G. Neoh, A. Kishen, Nanoparticulates for antibiofilm treatment and effect of
aging on its antibacterial activity, J. Endod. 36 (2010) 1030
1035.
[36] Appropriateness of Care and Quality Assurance Guidelines,
fouth ed., American Association of
Endodontics, 2004.
[37] L.I. Grossman, Endodontic Practice, tenth ed., Lea and Febiger, Philadelphia, PA, 1981.
[38] T. Waltimo, T.J. Brunner, M. Vollenweider, W.J. Stark, M. Zehnder, Antimicrobial effect of nanometric
bioactive glass 45S5, J. Dent. Res. 86 (2007) 754
757.
[39] M. Marending, W.J. Stark, T.J. Brunner, J. Fischer, M. Zehnder, Comparative assessment of time-related
bioactive glass and calcium hydroxide effects on mechanical properties of human root dentin, Dent.
Traumatol. 25 (2009) 126
129.
[40] D. Mohn, M. Zehnder, T. Imfeld, W.J. Stark, Radio-opaque nanosized bioactive glass for potential root
canal application: evaluation of radiopacity, bioactivity and alkaline capacity, Int. Endod. J. 43 (2010)
210
217.
[41] Z.Z. Al-Khatib, R.H. Baum, D.R. Morse, C. Yesilsoy, S. Bhambhani, M.L. Furst, The antimicrobial
affect of various endodontic sealers, Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod. 70 (1990)
784
790.
[42] I. Heling, N.P. Chandler, The antimicrobial effect within dentinal tubules of four root canal sealers,
J. Endod. 22 (1996) 257.
[43] L.B. Peters, P.R. Wesselink, W.R. Moorer, The fate and role of bacteria left in root dentinal tubules, Int.
Endod. J. 28 (1995) 95.
[44] B.M. Briseno, B. Willerhausen, Root canal sealer cytotoxicity on human gingival fibroblasts. 1. Zinc
oxide-eugenol based sealers, J. Endod. 16 (1990) 383.
[45] B.H. Sen, B. Piskin, N. Baran, The effect of tubular penetration of root canal sealers on dye microleak-
age, Int. Endod. J. 29 (1996) 23.
[46] A. Wennberg, D. Orstavik, Adhesion of root canal sealers to bovine dentin and gutta-percha, Int. Endod.
J. 23 (1990) 13.
[47] J. Gutmann, D. Witherspoon, Obturation of the Cleaned and Shaped Root Canal System: Pathways of
the Pulp, eighth ed., Mosby Elsevier, St. Louis, MS, 2002.
[48] Z. Chen, W. Wei, Z. Feng, X. Liu, X. Chen, W. Huang, K.Y. Shanghai, Development and in-vitro exper-
iment study of bio-type root canal filling sealer using calcium phosphate cement, 16 (2007) 530
533.
[49] U. Gbureck, O. Knappe, N. Hofmann, J.E. Barralet, Antimicrobial properties of nanocrystalline tetracal-
cium phosphate cements, J. Biomed. Mat. Res. Part B Appl. Biomat. 83B (2007) 132
137.
[50] S.M. Masudi, J.J. Alshakhshir, A. Hassan, Apical Sealing Ability of Nano Hybrid Resin Based
Endodontic Sealer: In Vitro Evaluation of New Experimental Nano Hydrodroxyapatite-Filled Epoxy
Resin, first ed., Lap Lambert Academic Publishing, 2010.
[51] F.J. Harty, B.J. Parkins, A.M. Wengraf, The success rate of apicectomy. A retrospective study of 1,016
cases, Br. Dent. J. 129 (1970) 407
413.
