**6. References**


Filling Materials for the Caries 357

[21] Demirci, M.; Ersev, H., Topçubaş, M. & Uçok, M. (2005). Clinical evaluation of a

[22] Eliades, G. (1999). Chemical and biological properties of glass-ionomer cements. In:

[23] Eliades, G.; Kakaboura, A. & Palaghias G. (1998). Acid base reaction and fluoride

[24] Ferrari, M. & Davidson, C.L. (1997). Interdiffusion of a traditional glass ionomer cement into conditioned dentin. *American Journal of Dentistry,* Vol. 10, pp. 295-297. [25] Ford, H. (2002). Resins. In: *Tooth colored restoratives: Principles and techniques*, (9th Edn).

[26] Frencken, J.E.; Pilot, T., Songpaisan, Y. & Phantumvanit, P. (1996). Atraumatic

[27] Fusayama, T.; Nakamura, M., Kurosaki, N. & Iwaku, M. (1979). Non-pressure adhesion

[28] Gungor, H.C.; Altay, N. & Alpar, R. (2004). Clinical evaluation of a polyacid-modified

[29] Harnirattisai, C.; Inokoshi, C. Shimada, Y. & Hosoda H. (1993). Adhesive interface

[30] Hickel, R. & Mmanhart, J. (2001). Longevity of restorations in posterior teeth and

[31] Hosoya, Y. & Garcia-Godoy, F. (1998). Bonding mechanism of Ketac-molar Aplicap and

[32] Hume, W.R. (1994). Influence of dentine on the pulpward release of eugenol or acids from restorative materials. *Journal of Oral Rehabilitation*, Vol. 21, pp. 469-473. [33] Kanca, J. (1992). Resin bonding to wet substrate. I. Bonding to dentin. *Quintessence* 

[34] Knox, J.; Chye, K.Y. & Durning, P. (2004). An ex vivo evaluation of resin-modified glass

[35] Landuyt, K.L.V.; Snauwaert, J., Munck, J.D. et al. (2007). Systematic review of the

[36] Li H.; Burrow, M.F. & Tyas, M.J. (2000). Nanoleakage patterns of four dentin bonding

[37] Luo, Y.; Lo, E.C.M., Fang, D.T.S., Smales, R.J. & Wei, S.H.Y. (2002). Clinical evaluation

reasons for failure. *Journal of Adhesive Dentistry*, Vol. 3, pp. 45-64.

cements. *Journal of Orthodontics,* Vol. 31, pp. 323-328.

systems. *Dental Materials,* Vol. 16, pp. 48-56.

*Materials Journal,* Vol. 24, pp. 321-327.

restorations. *Dental Materials,* Vol. 14, pp. 57-63.

*Public Health Dentistry,* Vol. 56, pp. 135-140.

Quintessence, Chicago.

London. 45

1370.

pp. 254-260.

3757-3785.

*Dentistry,* Vol. 18, pp. 138-143.

*International,* Vol. 23, pp. 39-41.

*Dentistry,* Vol. 15, pp. 403-406.

polyacid-modified resin composite in class V carious lesions: 3-year results. *Dental* 

*Advances in glass ionomer*. Davidson, C.L. & Mjör, I.A. (eds). Pp. 67-84,

release profiles in visible light-cured polyacid modified composite resin

Albers, H.F. (Ed.). pp. 111-156. BC Decker Inc., ISBN: 1-55009-155-7, Hamilton,

restorative treatment (ART): Rationale, technique and development. *Journal of* 

of a new adhesive restorative resin. *Journal of Dental Research,* Vol. 58, pp. 1364-

resin composite-based fissure sealant: two-year results. *Operative Dentistry,* Vol. 29,

between resin and etched dentin of cervical erosion/abrasion lesions. *Operative* 

Fuji IX GP to enamel and dentin*. American Journal of Dentistry*, Vol. 11, pp. 235-239.

polyalkenoates and polyacid-modified composite resins as orthodontic band

chemical composition of contemporary dental adhesives. *Biomaterials,* Vol. 28, pp.

of Dyract AP restorative in permanent molars: 2 year results. *American Journal of* 


[6] Azzopardi, A.; Bartlett, D.W., Watson, T.F. & Sherriff, M. (2001). The measurement and prevention of erosion and abrasion*. Journal of Dentistry,* Vol. 29, pp. 395-400. [7] Bayne, S.C.; Thompson, J.Y. & Taylor, D.F. (2002). Dental materials, In: *Sturdevant's art &* 

[8] Billington, R.W.; Williams, J.A., Dorban, A. & Pearson G.J. (2004). Glass ionomer cement:

[9] Bishara, S.; Ostby, A. Lafoon J. et al. (2007). A self-conditioner for resin-modified glass

[10] Bowen, R.J. (1958). Synthesis of a silica-resin filling material progress report (abstract).

[11] Bowen, R.J. (1962). Dental filling material comprising vinyl silane treated fused silica

[12] Bowen, R.L. & Cobb, E.N. (1983). A method for bonding to dentin and enamel. *Journal of* 

[13] Brackett, M.G.; Dib, A., Brackett, W.W., Estrada, B.E. & Reyes, A.A. (2002). One year

[14] Brackett, W.W.; Covey, D.A. & St Germain, H.A. Jr. (2002). One-year clinical

[15] Brudevold, F.; Buonocore, M. & Wileman, W. (1956). A report on a resin composition

[16] Burgess, J.O. (2001). Fluoride-releasing materials, In: *Fundamentals of operative dentistry:* 

[17] Chalmers, J.M. (2006). Minimal intervention dentistry: Part 2. Strategies for addressing

[18] Cobb, D.S.; MacGregor, K.M., Vargas, M.A., et al. (2000). The physical properties of

[19] Cochran, M.A. & Matis, B.A. (2001). Diagnosis and treatment of root caries, In:

[20] Davidson, C. (2006). Advances in glass-ionomer cements. *Journal of Applied Oral Science,*

addition to fluoride ion. *Biomaterials,* Vol. 25, pp. 3399-3402.

01087-3, St. Louis, Missouri, USA.

*Journal of Dental Research,* Vol. 27, p. 90.

*American Dental Association,* Vol. 107, pp. 734-736.

methods. *Operative Dentistry,* Vol. 27, pp. 218-222.

*of American Dental Association,* Vol. 131, pp. 1610-1615.

ISBN: 0-86715-382-2, Illinois, USA.

*US Patent,* pp. 306-319.

pp. 112-116.

846-851.

USA.

72, pp. 435-440.

Vol. 14, pp. 3–9.

*science of operative dentistry*, (4th Edn). Roberson, T.M.; Heymann, H.O. & Swift, E.J. (Eds), pp. 135-233, Mosby Inc., A Harcourt Health Sciences Company, ISBN: 0-323-

Evidence pointing to fluorine release in the form of monofluorophosphate in

ionomers in bonding orthodontic brackets. *Angle Orthodontics*, Vol. 77, pp. 711-715.

and a binder consisting of the reaction product of bisphenol and glycidyl acrylate.

clinical performance of a resin-modified glass ionomer anda resin composite restorative material in unprepared Class V restorations*. Operative Dentistry,* Vol. 27,

performance of a self-etching adhesive in class V resin composites cured by two

capable of bonding to human dentin surfaces. *Journal of Dental Research,* Vol. 35, pp.

*A contemporary approach,* (2nd Edn). Summitt, J.B.; Robbins, J.W. & Schwartz, R.S. (Eds), pp. 377-385, Quintessence Publishing Co. Inc., ISBN: 0-86715-382-2, Illinois,

restorative challenges in older patients. *Journal of Canadian Dental Association,* Vol.

packable and conventional posterior resin-based composites: A comparison. *Journal* 

*Fundamentals of operative dentistry: A contemporary approach,* (2nd Edn). Summitt, J.B.; Robbins, J.W. & Schwartz, R.S. (Eds), pp. 365-376, Quintessence Publishing Co. Inc.,


Filling Materials for the Caries 359

[56] Qvist, V.; Laurberg, L., Poulsen, A. & Teglers, P.T. (2004). Class II restorations in

[57] Rawls, H.R. & Upshaw, J.E. (2003). Restorative resins. In: *Phillip's science of dental* 

[58] Roberson, T.M.; Heymann, H.O. & Ritter A.V. (2002). Introduction to composite

Health Sciences Company, ISBN: 0-323-01087-3, St. Louis, Missouri, USA. [59] Roulet, J.F. (1987). Polymer constructions used in restorative dentistry. In: *Degradation of* 

[60] Ruse, N.D. (1999). What is a compomer? *Journal of Canadian Dental Association,* Vol. 65,

[62] Saito, S.; Tosaki, S. & Hirota, K. (1999). Characteristics of glass ionomer cements. In:

[63] Sakoolnamarka, R.; Burrow, M.F. & Tyas, M.J. (2002). Micromorphological study of

[64] Sales, D.; Sae-Lee, D., Matsuya, S. & Ana, I.D. (2003). Short-term fluoride and cations

[65] Sano, H.; Takatsu, T. Ciucchi, B. et al. (1995). Nanoleakage: Leakage within the hybrid

[66] Scholtanus, J. & Huysmans, M. (2007). Clinical failure of class-II restorations of a highly

[67] Sennou, H.E.; Lebugle, A.A. & Gregoire, G.L. (1999). X-ray photoelectron spectroscopy

[68] Seppa, L.; Fors, H. & Ogaard, B. (1993). The effect of fluoride application on fluoride

[69] Sideridou, I.; Achilias, D.S., Spyroudi, C. & Karabela, M. (2004). Water sorption

[70] Sidhu, S.K. & Schmalz, G. (2001). The biocompatibility of glass-ionomer cement

[71] Stansbury, J.W. (1992). Synthesis and evaluation of new oxaspiro monomers for double ring-opening polymerization. *Journal of Dental Research,* Vol. 71, pp. 1408-1412. [72] Sugizaki, J. (1991). The effect of various primers on the dentin adhesion of resin composite. *Japanese Journal of Conservative Dentistry,* Vol. 34, pp. 228-265. [73] Swift JR, E.J.; Sturdevant, J.R. & Ritter, A.V. (2002). Classes I and II indirect tooth-

*Advances in glass-ionomer cements*. Davidson, C.L. & Mjör, I.A. (eds). Quintessence,

resin-dentin interface of non-carious cervical lesions. *Operative Dentistry,* Vol. 27,

release from polyacid-modified composites in distilled water and an acidic lactate

viscous glass-ionomer material over a 6-year period: a retrospective study. *Journal* 

study of the dentin-glass ionomer cement interface*. Dental Materials, Vol*. 15, pp.

release and the antibacterial action of glass ionomers*. Journal of Dental Research,* Vol.

characteristics of light-cured dental resins and composites based on Bis-

materials. A status report for the American Journal of Dentistry. *American Journal of* 

colored restorations, In: *Sturdevant's art & science of operative dentistry*, (4th Edn).

[61] Ryge, G. (1980). Clinical criteria. *International Dental Journal,* Vol. 30, pp. 347-358.

compomer. *European Journal of Oral Science,* Vol. 112, pp. 188-196.

*dental polymers,* pp. 3-59, Karger, New York.

buffer. *Biomaterials,* Vol. 21, pp. 1687-1696.

layer. *Operative Dentistry,* Vol. 20, pp. 18-25.

EMA/PCDMA. *Biomaterials,* Vol. 25, pp. 367-76.

*of Dentistry,* Vol. 35, pp. 156-162.

*Dentistry,* Vol. 14, pp. 387-396.

pp. 500-504. 39

Chicago.

pp. 493-499.

229-237.

72, pp. 1310-1314.

primary teeth: 7-year study on three resin-modified glass ionomer cements and a

*materials,* (11th edn). Anusavice, K.J. (Ed.). pp. 399-441, WB Saunders, Philladelphia.

restorations. In: *Sturdevant's art & science of operative dentistry*, (4th Edn). Roberson, T.M.; Heymann, H.O. & Swift, E.J. (Eds), pp. 471-500, Mosby Inc., A Harcourt


[38] McLean, J.W. & Gasser, O. (1985). Glass-cermet cements. *Quintessence International,* Vol.

[39] McLean, J.W.; Nicholson, J.W. & Wilson, A.D. (1994). Proposed nomenclature for glass-

[40] Meyer, J-M.; Cattani-Lorente, M.A. & Dupuis, V. (1998). Compomers: Between glass-

[41] Millar, B.J.; Abiden, F. & Nicholson, J.W. (1998). In vitro caries inhibition by polyacid-

[42] Miyazaki, S.; Iwasaki, K., Onose, H. & Moore, B.K. (2001). Enamel and dentin bond

[43] Mjör, I.; Dahl, J., Moorhead, J.E., et al. (2000). Age of restorations at replacement in

[44] Mjör, I.A. (1989). Amalgam and composite resin restorations: Longevity and reasons for

[45] Mount, G.J. (2002). *An atlas of glass-ionomer cements. A clinician's guide*, (3rd Edn). pp. 10-

[46] Murchison, D.F.; Roeters, J., Vargas, M.A., et al. (2006). Direct anterior restorations. In:

[47] Nakabayashi, N.; Kojima, K. & Masuhara, E. (1982). The promotion of adhesion by the

[48] Nakajima, M.; Ogata, M., Harada, N., Tagami, J. & Pashley, D.H. (2000). Bond strengths

[50] Nicholson, J.W. (2007). Polyacid-modified composite resins ("compomers") and their

[51] Nicholson, J.W. & McKenzie, M.A. (1999). The properties of polymerizable luting

[52] Niessen, L.C. & Gibson, G. (1997). Oral health for a lifetime: Preventive strategies for the

[53] Perdigao, J. & Swift, E.J. (1994). Analysis of dental adhesive systems using scanning electron microscopy. *International Dental Journal,* Vol. 44, pp. 349-359. [54] Pounder, B.; Gregory, W.A. & Powers, J.M. (1987). Bond strengths of repaired

[55] Puckett, A.D.; Fitchie, J.G., Kirk, P.C. & Gamblin, J. (2007). Direct composite restorative

use in clinical dentistry. *Dental Materials*, Vol. 23, pp. 615-622.

cements. *Journal of Oral Rehabilitation,* Vol. 26, pp. 767-774.

older adult. *Quintessence International,* Vol. 28, pp. 626-630.

composite resins. *Operative Dentistry,* Vol. 12, pp. 127-131.

materials. *The Dental Clinics of North America,* Vol. 51, pp. 659-675.

mineralizing treatment. *Journal of Adhesive Dentistry,* Vol. 2, pp. 29-38. [49] Ngo, H.; Mount, G.J. & Peters, M.C. (1997). A study of glass-ionomer cement and its

61-80, Quintessence Publishing Corp, Inc., Chicago.

45.Martin Dunitz Ltd, London. 12

ISBN: 0-86715-382-2, Illinois, USA.

*Research,* Vol. 16, pp. 265-273.

ionomer cements and composites. *Biomaterials,* Vol. 19, pp. 529–39.

ionomer dental cements and related materials. *Quintessence International,* Vol. 25,

modified composite resins ("compomers"). *Journal of Dentistry,* Vol. 26, pp. 133-136.

strengths of single application bonding systems. *American Journal of Dentistry,* Vol.

permanent teeth in general dental practice. *Acta Odontologica Scandinavia,* Vol. 58,

replacement. In: *Quality of evaluation of dental restorations*. Anusavice, K. (Ed.), pp.

*Fundamentals of operative dentistry: A contemporary approach,* (3rd Edn). Summitt, J.B.; Robbins, J.W. & Schwartz, R.S. (Eds), pp. 261-288, Quintessence Publishing Co. Inc.,

infiltration of monomers into tooth substrates. *Journal of Biomedicine & Material* 

of self-etching primer adhesives to in vitro demineralized dentin following

interface with enamel and dentin using a low temperature, high resolution scanning electron microscope technique*. Quintessence International,* Vol. 28, pp. 63-

16, pp. 333-343.

pp. 587–589.

14, pp. 361-366.

pp. 97–101.

69.


**Part 5** 

**Dental Caries in Children** 

Roberson, T.M.; Heymann, H.O. & Swift, E.J. (Eds), pp. 571-589, Mosby Inc., A Harcourt Health Sciences Company, ISBN: 0-323-01087-3, St. Louis, Missouri, USA.

