Siegward D. Heintzea, Systematic Reviews: I. The Correlation Between Laboratory Tests on Marginal Quality and Bond Strength. II. The Correlation Between Marginal Quality and Clinical Outcome J Adhes Dent 2007; 9: 77-106.
Taylor, M.J; Lynch, E. Microleakage. J. Dent. February 1992, vol. 20, p. 3-10.
Yavuz, I; Aydin H. New Method For Measurement of Surface Areas of Microleakage at The Primary Teeth By Biomolecule Characteristics of Methilene Blue. Biotechnol. & Biotechnol. Eq. , vol. 19, p. 181-187. Tjan, A. and Tan, D. Microleakage at gingival margins of class V composite resin restorations rebonded with various low-viscosity resin systems. Quintessence Int. July 1991, vol. 22, p. 565-573.
Pradelle-Plassea N, Wengerb F, Picarda B, Colona P.Evaluation of microleakage of composite resin restorations by an Aydin, H and Tez, Z. Comparative determination of the adsorption capacities and possible fields of usage of active carbons prepared from the shells of walnut and hazelnut through some commercial active carbons. Turk J Chem. 1996, vol. 16, p. 51-58.
Nelsen, R J.; Wolcoltt, RB and Paffenbarger, GC. Fluid exchange at the margins of dental restorations. J Am Dent Assoc. March 1952, vol. 44, p. 228-295.
Davies, RG. The use of benzene adsorption isotherms in evaluating the surface and pore characteristics of activated carbons. Chemistry and Industry. February 1952, vol. 23, p. 160-165.
Roulet JF, Reich T, Blunck U, Noack M. Quantitative margin analysis in the scanning electron microscope. Scanning Microsc ;3:147-58. Turgut, M D.; Tekcicek, M and Olmez, S. Clinical evaluation of a polyacid-modified resin composite under different conditioning methods in primary teeth. Oper Dent. September-October 2004, vol. , p. 515-523.
Ersin, N K. and Eronat, N. The comparison of a dentin adhesive with calcium hydroxide as a pulp-capping agent on the exposed pulps of human and sheep teeth.Quintessence Int. 2005, vol. 36, p. 280.
Kelsey, WP; Latta, MA; Meara, JD; Barkmeier, WW; Hammesfahr, PD and Jefferies, SR. An accelerated in vitro model for adhesive testing. Am J Dent. October 2004, vol. 17, p. 323-326.
Prati C, Tao L, Simpson M, Pashley DH. Permeability and microleakage of class II resin composite restorations. J Dent ;22:49-56. Raskin A, D'Hoore W, Gonthier S, Degrange M, Dejou J. Reliability of in vitro microleakage tests: a literature review. J Adhes Dent 2001;3:295-308.
Yavuz, I., Aydın H., Ulku R., Kaya S. ve Tümen C., “A New Method: Measurement of Microleakage Volume Using Human, Dog and Bovine Permanent Teeth,” Electronic Journal of Biotechnology, (1), 8-17 (2006).
Yavuz, I.,. Aydın A.H, Ulku R., Dulgergil T.C. ve Akdag M.Z., “New Technique: Measurement of Microleakage Volume in The Marginal Gaps of The Dental Restorations,” Biotechnol. & Biotechnol. Eq, 19 (3), 184-191 (2005).
New Directıon for Measurement of Microleakage in Cariology Research
Siegward D. Heintzea, Systematic Reviews: I. The Correlation Between Laboratory Tests on Marginal Quality and Bond Strength. II. The Correlation Between Marginal Quality and Clinical Outcome J Adhes Dent 2007; 9: 77-106.
Taylor, M.J; Lynch, E. Microleakage. J. Dent. February 1992, vol. 20, p. 3-10.
Yavuz, I; Aydin H. New Method For Measurement of Surface Areas of Microleakage at The Primary Teeth By Biomolecule Characteristics of Methilene Blue. Biotechnol. & Biotechnol. Eq. , vol. 19, p. 181-187. Tjan, A. and Tan, D. Microleakage at gingival margins of class V composite resin restorations rebonded with various low-viscosity resin systems. Quintessence Int. July 1991, vol. 22, p. 565-573.
Pradelle-Plassea N, Wengerb F, Picarda B, Colona P.Evaluation of microleakage of composite resin restorations by an Aydin, H and Tez, Z. Comparative determination of the adsorption capacities and possible fields of usage of active carbons prepared from the shells of walnut and hazelnut through some commercial active carbons. Turk J Chem. 1996, vol. 16, p. 51-58.
Nelsen, R J.; Wolcoltt, RB and Paffenbarger, GC. Fluid exchange at the margins of dental restorations. J Am Dent Assoc. March 1952, vol. 44, p. 228-295.
Davies, RG. The use of benzene adsorption isotherms in evaluating the surface and pore characteristics of activated carbons. Chemistry and Industry. February 1952, vol. 23, p. 160-165.
Roulet JF, Reich T, Blunck U, Noack M. Quantitative margin analysis in the scanning electron microscope. Scanning Microsc ;3:147-58. Turgut, M D.; Tekcicek, M and Olmez, S. Clinical evaluation of a polyacid-modified resin composite under different conditioning methods in primary teeth. Oper Dent. September-October 2004, vol. , p. 515-523.
Ersin, N K. and Eronat, N. The comparison of a dentin adhesive with calcium hydroxide as a pulp-capping agent on the exposed pulps of human and sheep teeth.Quintessence Int. 2005, vol. 36, p. 280.
Kelsey, WP; Latta, MA; Meara, JD; Barkmeier, WW; Hammesfahr, PD and Jefferies, SR. An accelerated in vitro model for adhesive testing. Am J Dent. October 2004, vol. 17, p. 323-326.
Prati C, Tao L, Simpson M, Pashley DH. Permeability and microleakage of class II resin composite restorations. J Dent ;22:49-56. Raskin A, D'Hoore W, Gonthier S, Degrange M, Dejou J. Reliability of in vitro microleakage tests: a literature review. J Adhes Dent 2001;3:295-308.
Yavuz, I., Aydın H., Ulku R., Kaya S. ve Tümen C., “A New Method: Measurement of Microleakage Volume Using Human, Dog and Bovine Permanent Teeth,” Electronic Journal of Biotechnology, (1), 8-17 (2006).
Yavuz, I.,. Aydın A.H, Ulku R., Dulgergil T.C. ve Akdag M.Z., “New Technique: Measurement of Microleakage Volume in The Marginal Gaps of The Dental Restorations,” Biotechnol. & Biotechnol. Eq, 19 (3), 184-191 (2005).
Yavuz, İ., & Aydın, H. (2010). New Directıon for Measurement of Microleakage in Cariology Research. Journal Of International Dental And Medical Research, 3(1), 19-24.
AMA
Yavuz İ, Aydın H. New Directıon for Measurement of Microleakage in Cariology Research. Journal Of International Dental And Medical Research. Mart 2010;3(1):19-24.
Chicago
Yavuz, İzzet, ve Haluk Aydın. “New Directıon for Measurement of Microleakage in Cariology Research”. Journal Of International Dental And Medical Research 3, sy. 1 (Mart 2010): 19-24.
EndNote
Yavuz İ, Aydın H (01 Mart 2010) New Directıon for Measurement of Microleakage in Cariology Research. Journal Of International Dental And Medical Research 3 1 19–24.
IEEE
İ. Yavuz ve H. Aydın, “New Directıon for Measurement of Microleakage in Cariology Research”, Journal Of International Dental And Medical Research, c. 3, sy. 1, ss. 19–24, 2010.
ISNAD
Yavuz, İzzet - Aydın, Haluk. “New Directıon for Measurement of Microleakage in Cariology Research”. Journal Of International Dental And Medical Research 3/1 (Mart 2010), 19-24.
JAMA
Yavuz İ, Aydın H. New Directıon for Measurement of Microleakage in Cariology Research. Journal Of International Dental And Medical Research. 2010;3:19–24.
MLA
Yavuz, İzzet ve Haluk Aydın. “New Directıon for Measurement of Microleakage in Cariology Research”. Journal Of International Dental And Medical Research, c. 3, sy. 1, 2010, ss. 19-24.
Vancouver
Yavuz İ, Aydın H. New Directıon for Measurement of Microleakage in Cariology Research. Journal Of International Dental And Medical Research. 2010;3(1):19-24.