Artículos de revistas
Update On Nonsurgical, Ultraconservative Approaches To Treat Effectively Non-cavitated Caries Lesions In Permanent Teeth
Registro en:
European Journal Of Dentistry. , v. 5, n. 2, p. 229 - 236, 2011.
13057456
2-s2.0-79958070425
Autor
Borges B.C.D.
Borges J.S.
de Araujo L.S.N.
Machado C.T.
dos Santos A.J.S.
Pinheiro I.V.A.
Institución
Resumen
Dental caries on tooth surfaces is still a problem in many industrialized countries. For many years, dentistry was influenced by a mechanical approach characterized by the use of high-speed rotary cutting instruments, and dentists predominantly used surgical methods to address caries. This included radical removal of diseased portions of the tooth, along with material-driven geometric extensions to areas that were assumed to be caries-resistant. This concept of extension for prevention was introduced by G. V. Black and influenced dentists for more than 120 years. Recently, a new paradigm of operative conservatism, sometimes referred to as "minimally invasive dentistry," has gained popularity. This paradigm is designed to promote maximum preservation of healthy dental structures over a lifetime. The aim of this review is to discuss the efficacy of current nonsurgical treatments for non-cavitated caries lesions in permanent teeth. Based on results obtained from clinical trials, this review evaluates treatments such as consumption of CPP-ACP added gums, resin infiltration and fissure sealing. Although in a few cases an invasive approach is needed to arrest caries progression, the non-surgical approach generally provides potential benefits that include conserving structure by delaying intervention or minimizing the operative procedure. All current non-invasive methods are effective in treating non-cavitated caries lesions. The adoption of non-invasive approaches in the management of these lesions can preserve dental tissues, thus increasing tooth longevity. 5 2 229 236 Bader, J.D., Shugars, D.A., The evidence supporting alternative management strategies for early occlusal caries and suspected occlusal dentinal caries (2006) J Evid Base Dent Pract, 6, pp. 91-100 Beauchamp, J., Caufield, P.W., Crall, J.J., Evidence-based clinical recommendations for the use of pit-and-fissure sealants: a report of the America Dental Association council on scientific affairs (2009) Dent Clin N Am, 53, pp. 131-147 Paris, S., Meyer-Lueckel, H., Kielbassa, A.M., Resin infiltration of natural caries lesions (2007) J Dent Res, 86, pp. 662-666 Morgan, M.V., Adams, G.G., Bailey, D.L., The anticariogenic effect of sugar-free gum containing CPP-ACP nanocomplexes on approximal caries determined using digital bitewing radiography (2008) Caries Res, 42, pp. 171-184 Kuisch, V.K., Dental caries: a new look at an old disease (2009) Inside Dent, 5, pp. 60-65 Feacherstone, J.D., Dental caries: a dynamic disease process (2008) Aust Dent J, 53, pp. 286-291 Diefenderfer, K.E., Stahl, J., Caries remineralization therapy: implications for dental readiness (2008) Mil Med, 173, pp. 48-50 Maltz, M., Jardim, J.J., Alves, L.R., Health promotion and dental caries (2010) Braz Oral Res, 24 (SPEC ISSUE 1), pp. 18-25 Sharma, S., Kugel, G., Amorphous calcium phosphate sealants - the potential to remineralize (2009) Inside Dent, 5 Bartlett, D.W., Bureau, G.P., Anggiansah, A., Evaluation of the pH of a new carbonated soft drink beverage: an in vivo investigation (2003) J Prosthodont, 12, pp. 21-25 Khan, A.A., Jain, S.K., Shrivastav, A., Prevalence of dental caries among the population of Gwalior (India) in relation of different associated factors (2008) Eur J Dent, 2, pp. 81-85 Kugel, G., Arsenault, P., Papas, A., Treatment modalities for caries management, including a new resin infiltration system (2009) Compend Contin Educ Dent, 30 (SPEC ISSUE 3), pp. 1-10 Kidd, E.A., Fejerskov, O., What Constitutes Dental Caries? Histopathology of carious enamel and dentin related to the action of cariogenic biofilms (2004) J Dent Res, 83 (SPEC ISSUE C), pp. C35-C38 Mount, G.J., A new paradigm for operative dentistry (2007), 52, pp. 264-270Black, G.V., Operative Dentistry (1908) Chicago: Medico-Dental Publishing, 121 Massler, M., Changing concepts in the treatment of carious lesions (1967) Br Dent J, 123, pp. 547-548 ten Cate, J.M., Duijsters, P.P., Alternating demineralization and remineralization of artificial enamel lesions (1982) Caries Res, 16, pp. 201-210 Featherstone, J.B., The continuum of dental caries - evidence for a dynamic disease process (2004) J Dent Res, 83 (SPEC ISSUE C), pp. 39-42 Featherstone, J.B., Clinical aspects of the de/remineralization of teeth (1995) Adv Dent Res, 9, pp. 1-340. , ed Brännström, M., (1982) Dentin and pulp in restorative dentistry, , London: Wolfe Medical Publications Ltd Reynolds, E.C., Walsh, I.J., Additional aids to the remineralization of tooth structure (2005) Preservation and restoration of tooth structure, pp. 111-118. , Mount GJ, Hume WR, eds., 2 nd edn. Brisbane: Knowledge Books and Software Ngo, H.C., Mount, G.J., McIntyre, J., Chemical exchange between glass-ionomer restorations and residual carious dentine in permanent molar: an in vivo study (2006) J Dent, 34, pp. 608-613 Pitts, N.B., Modern concepts of caries measurement (2004) J Dent Res, 83 (SPEC ISSUE C), pp. 43-47 McComb, D., Systematic review of conservative operative caries management strategies (2001) J Dent Educ, 65, pp. 1154-1161 Zero, D.T., Dentifrices, mouthwashes, and remineralization/ caries arrestment strategies (2006) BMC Oral Health, 6, pp. S9 Mjör, I.A., Holst, D., Eriksen, H.M., Caries and restoration prevention (2008) J Am Dent Assoc, 139, pp. 565-570 Reynolds, E.C., Cain, C.J., Shen, P., Retention in plaque and remineralization of enamel lesions by various forms of calcium in a mouthrinse or sugar-free chewing gum (2003) J Dent Res, 82, pp. 206-211 Manton, D.J., Walker, G.D., Cai, F., Cochrane, N.J., Shen, P., Reynolds, E.C., Remineralization of enamel subsurface lesions in situ by the use of three commercially available sugar-free gums (2008) Int J Paediatr Dent, 18, pp. 284-290 Walker, G.D., Cai, F., Shen, P., Casein phosphopeptideamorphous calcium phosphate incorporated into sugar confections inhibit the progression of enamel subsurface lesions in situ (2010) Caries Res, 44, pp. 33-40 Paris, S., Meyer-Lueckel, H., Inhibition of caries progression by resin infiltration in situ (2010) Caries Res, 44, pp. 47-54 Paris, S., Meyer-Lueckel, H., Colfen, H., Resin infiltration of artificial enamel caries lesions with experimental light curing resins (2007) Dent Mater J, 26, pp. 582-588 Paris, S., Hopfenmuller, W., Meyer-Lueckel, H., Resin infiltration of caries lesion: an efficacy randomized trial (2010) J Dent Res, , doi: 10. 1177/0022034510369289 Martignon, S., Ekstrand, K.R., Ellwood, R., Efficacy of sealing proximal early active lesions: an 18-month clinical study evaluated by conventional and subtraction radiography (2006) Caries Res, 40, pp. 382-388 Phark, J.H., Duarte Jr., S., Meyer-Lueckel, H., Caries infiltration with resins: a novel treatment option for interproximal caries (2009) Compend Contin Educ Dent, 30 (SPES ISSUE 3), pp. 13-17 ten Cate, J.M., Remineralization of deep enamel dentin caries lesions (2008) Aust Dent J, 53, pp. 281-285 Doméjean-Orliaguet, S., Tubert-Jeannin, S., Riordan, P.J., French dentists' restorative treatment decisions (2004) Oral Health Prev Dent, 2, pp. 125-131 Traebert, J., Wesoloski, C.I., Lacerda, J.T., Threshold of restorative decision in dental caries treatment among dentists from small Brazilian cities (2007) Oral Health Prev Dent, 5, pp. 131-135 Mertz-Fairhurst, E.J., Curtis-Jr., J.W., Ergle, J.W., Ultraconservative and cariostatic sealed restorations: results at year 10 (1998) J Am Dent Assoc, 129, pp. 55-66 Alves, L.S., Fontanella, V., Damo, A.C., Qualitative and quantitative radiographic assessment of sealed carious dentin: a 10-year prospective study (2010) Oral Surg Oral Med Oral Pathol Oral Radiol Endod, 109, pp. 135-141 Maltz, M., Oliveira, E.F., Fontanella, V., A clinical, microbiologic, and radiographic study of deep lesions, after incomplete caries removal (2002) Quintessence Int, 33, pp. 151-159 Weerheijm, K.L., van Amerongen, W.E., Eggink, C.O., The clinical diagnosis of occlusal caries: a problem (1989) ASDC J Dent Child, 56, pp. 196-200 Murdoch-Kinck, C., McLean, M., Minimally invasive dentistry (2003) J Am Dent Assoc, 134, pp. 87-95 Brostck, A., Early diagnosis and minimally invasive treatment of occlusal caries - a clinical approach (2004) Oral Health Prev Dent, 2 (SUPPL. 1), pp. 313-319 Borges, B.C., Campos, G.B., da Silveira, A.D., de Lima, K.C., Pinheiro, I.V., Efficacy of a pit and fissure sealant in arresting dentin non-cavitated caries: a 1-year follow-up, randomized, single-blind, controlled clinical trial (2010) Am J Dent, 23, pp. 311-316 Silveira, A.D., Borges, B.C., Varela, H.A., Progression of non-cavitated lesions in dentin through a nonsurgical approach: a preliminary 12-month clinical observation (2010) Eur J Dent, , in press Uysal, T., Amasyali, M., Koyuturk, A.E., Efficiency of amorphous calcium phosphate-containing orthodontic composite and resin modified glass ionomer cement on demineralization evaluated by a new laser fluorescence device (2009) Eur J Dent, 3, pp. 127-134