Effect of CO2 laser on root caries inhibition around composite restorations: an in vitro study

[1]  M. Borsatto,et al.  FTIR and SEM analysis of CO2 laser irradiated human enamel. , 2012, Archives of oral biology.

[2]  C. Turssi,et al.  Fluoride plus CO2 laser against the progression of caries in root dentin. , 2012, American journal of dentistry.

[3]  C. Steiner-Oliveira,et al.  Caries resistance of lased human root surface with 10.6 μm CO2 laser-thermal, morphological, and microhardness analysis , 2010 .

[4]  C. Eduardo,et al.  Absorption and thermal study of dental enamel when irradiated with Nd:YAG laser with the aim of caries prevention , 2009 .

[5]  N. Gutknecht,et al.  Low-fluence CO2 laser irradiation decreases enamel solubility , 2008, Laser Physics.

[6]  Daniel Fried,et al.  Changes in acid resistance of dentin irradiated by a CW 10.6 &mgr;m CO2 laser , 2008, SPIE BiOS.

[7]  Daniel Fried,et al.  Lack of dentin acid resistance following 9.3 um CO2 laser irradiation , 2008, SPIE BiOS.

[8]  R. Lizarelli,et al.  Enamel caries resistance accidentally irradiated by the Nd:YAG laser , 2007 .

[9]  R. F. Z. Lizarelli,et al.  Caries resistance of lased human enamel with Er:YAG laser – morphological and ratio Ca/P analysis , 2007 .

[10]  C.-Y.S. Hsu,et al.  Laser-Fluoride Effect on Root Demineralization , 2006, Journal of dental research.

[11]  A. Martin,et al.  Chemical, morphological and thermal effects of 10.6-microm CO2 laser on the inhibition of enamel demineralization. , 2006, Dental materials journal.

[12]  Luciano Bachmann,et al.  Lasers effects on enamel for caries prevention , 2006 .

[13]  C. Eduardo,et al.  Caries inhibition around composite restorations by pulsed carbon dioxide laser application. , 2005, European journal of oral sciences.

[14]  Beth Thompson Your backbone is important to your team. , 2004, Journal - Oklahoma Dental Association.

[15]  Tsukasa Akasaka,et al.  Three-dimensional topographic scanning electron microscope and Raman spectroscopic analyses of the irradiation effect on teeth by Nd:YAG, Er: YAG, and CO(2) lasers. , 2004, Journal of biomedical materials research. Part B, Applied biomaterials.

[16]  P. Griffin,et al.  Estimating Rates of New Root Caries in Older Adults , 2004, Journal of dental research.

[17]  Daniel Fried,et al.  Thermal and chemical modification of dentin by 9–11‐μm CO2 laser pulses of 5–100‐μs duration , 2002 .

[18]  Koukichi Matsumoto,et al.  Acquired acid resistance of enamel and dentin by CO2 laser irradiation with sodium fluoride solution. , 2002, Journal of clinical laser medicine & surgery.

[19]  Kevin M. Dickenson,et al.  Dental hard tissue modification and removal using sealed transverse excited atmospheric-pressure lasers operating at lambda=9.6 and 10.6 microm. , 2001, Journal of biomedical optics.

[20]  J. Featherstone Caries detection and prevention with laser energy. , 2000, Dental clinics of North America.

[21]  T. H. Jordan,et al.  Effects of Low-energy CO2 Laser Irradiation and the Organic Matrix on Inhibition of Enamel Demineralization , 2000, Journal of dental research.

[22]  F. Lin,et al.  Treatment of tooth fracture by medium energy CO2 laser and DP-bioactive glass paste: Thermal behavior and phase transformation of human tooth enamel and dentin after irradiation by CO2 laser , 2000, Journal of materials science. Materials in medicine.

[23]  Daniel Fried,et al.  TEA-CO2 laser inhibition of artificial carieslike lesion progression in primary and permanent tooth enamel , 2000, Photonics West - Biomedical Optics.

[24]  P. Rechmann,et al.  Lasers in Dentistry VI , 2000 .

[25]  K. Matsumoto,et al.  Acquired acid resistance of dental hard tissues by CO2 laser irradiation. , 1999, Journal of clinical laser medicine & surgery.

[26]  J. Featherstone,et al.  Artificial caries removal and inhibition of artificial secondary caries by pulsed CO2 laser irradiation. , 1999, American journal of dentistry.

[27]  W. Gilmour,et al.  The effect of a resin-modified glass ionomer restorative material on artificially demineralised dentine caries in vitro. , 1998, Journal of dentistry.

[28]  W. Seka,et al.  CO2 Laser Inhibition of Artificial Caries-like Lesion Progression in Dental Enamel , 1998, Journal of dental research.

[29]  J. Featherstone,et al.  Caries prevention by CO2 laser treatment: dependency on the number of pulses used. , 1998, Journal of the American Dental Association.

[30]  J. Featherstone,et al.  Effects of Collagenase on Root Demineralization , 1997, Journal of dental research.

[31]  D. Locker Incidence of root caries in an older Canadian population. , 1996, Community dentistry and oral epidemiology.

[32]  L. Foster,et al.  Validity of clinical judgements for the presence of secondary caries associated with defective amalgam restorations , 1994, British Dental Journal.

[33]  I. Mjör,et al.  The age of restorations in situ. , 1994, Acta odontologica Scandinavica.

[34]  J L Fox,et al.  Initial Dissolution Rate Studies on Dental Enamel after CO2 Laser Irradiation , 1992, Journal of dental research.

[35]  R Z LeGeros,et al.  Calcium phosphates in oral biology and medicine. , 1991, Monographs in oral science.

[36]  S. Fure,et al.  Salivary conditions and cariogenic microorganisms in 55, 65, and 75-year-old Swedish individuals. , 1990, Scandinavian journal of dental research.

[37]  J. Featherstone,et al.  Laser irradiation of human dental enamel and dentine. , 1986, The New Zealand dental journal.

[38]  S. Kuroda,et al.  Changes in heated and in laser-irradiated human tooth enamel and their probable effects on solubility , 1986, Calcified Tissue International.

[39]  N. Nuttall,et al.  Variation among dentists in planning treatment , 1983, British Dental Journal.

[40]  R F Sognnaes,et al.  Lased Enamel: Ultrastructural Observations of Pulsed Carbon Dioxide Laser Effects , 1972, Journal of dental research.

[41]  Daniel Fried,et al.  Modeling the modification depth of carbon dioxide laser‐treated dental enamel , 1999, Lasers in surgery and medicine.

[42]  I. Mjör,et al.  Marginal failures of amalgam and composite restorations. , 1997, Journal of dentistry.

[43]  E. M. Benelli,et al.  In situ anticariogenic potential of glass ionomer cement. , 1993, Caries research.

[44]  C. Nyssen-Behets,et al.  Increased resistance to artificial caries-like lesions in dentin treated with CO2 laser. , 1992, Caries research.

[45]  J L Fox,et al.  Combined effects of laser irradiation and chemical inhibitors on the dissolution of dental enamel. , 1992, Caries research.

[46]  R. Legeros 6. Calcium Phosphates in Enamel, Dentin and Bone , 1991 .

[47]  J. Featherstone,et al.  Morphology, histology and crystallography of human dental enamel treated with pulsed low-energy infrared laser radiation. , 1987, Caries research.

[48]  F. Driessens,et al.  The mineral solubility of human tooth roots. , 1987, Archives of oral biology.

[49]  C. P. Shields,et al.  Effect of pulsed low energy infrared laser irradiation on artificial caries-like lesion formation. , 1986, Caries research.

[50]  Hicks Mj A polarized light and scanning electron microscopic study of sodium-fluoride treated, acid-etched, caries-like lesions of human enamel. , 1986 .

[51]  J M ten Cate,et al.  Comparison of artificial caries-like lesions by quantitative microradiography and microhardness profiles. , 1983, Caries research.

[52]  J. M. ten Cate,et al.  Alternating demineralization and remineralization of artificial enamel lesions. , 1982, Caries research.

[53]  S. Kantola Laser-induced effects on tooth structure. IV. A study of changes in the calcium and phosphorus contents in dentine by electron probe microanalysis. , 1972, Acta odontologica Scandinavica.

[54]  A. Scheinin,et al.  LASER-INDUCED EFFECTS ON TOOTH STRUCTURE , 1968 .