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private practice. Community Dent Oral Epidemiol 1984;12:325-31. 189. Nordblad A, Larmas M. A 3-year longitudinal caries study of permanent tooth surfaces at risk in Finnish school children. Caries Res 1985;19:271-7. 190. Nuttall NM, Nugent ZJ. Indicators of dental extractions and full mouth clearances: a longitudinal analysis. Community Dent Oral Epidemiol 1997;25:181-3. 191. Nuttall N, Deery C. Predicting the experience of dentinal caries or restorative dental treatment in adolescents using D1 and D3 visual caries assessments. Community Dent Oral Epidemiol 2002;30:329-34. 192. O’Hickey S, Pigott B. Dental caries experience of Dublin school children after 10 1/2 years of fluoridation. J Ir Dent Assoc 1983;29:5-8. 193. O’Sullivan DM, Tinanoff N. The association of early dental caries patterns with caries incidence in preschool children. J Public Health Dent 1996;56:81-3. 194. Palin-Palokas T, Hausen H, Alvesalo L, Heinonen OP. Risk factors of dental caries in 9–10-year-old mentally retarded Finnish children. Community Dent Oral Epidemiol 1984;12:376-80. 195. Paunio P, Rautava P, Helenius H, Alanen P, Sillanpää M. The Finnish Family Competence Study: the relationship between caries, dental health habits and general health in 3-year-old Finnish children. Caries Res 1993;27:154-60. 196. Peretz B, Ram D, Azo E, Efrat Y. Preschool caries as an indicator of future caries: a longitudinal study. Pediatr Dent 2003;25:114-8. 197. Persson LÅ, Samuelson G. From breastmilk to family food. Infant feeding in three Swedish communities. Acta Paediatr Scand 1984;73:685-92. 198. Persson LA, Holm AK, Arvidsson S, Samuelson G. Infant feeding and dental caries – a longitudinal study of Swedish children. Swed Dent J 1985;9:201-6. 199. Petti S, Bossa MC, Tarsitani G, Falcolini G, Lumbau A, Campus G. Variables affecting salivary Streptococcus mutans counts in a cohort of 12-year-old subjects. Minerva Stomatol 1999;48:361-6. 200. Pienihäkkinen K, Jokela J, Alanen P. Risk-based early prevention in comparison with routine prevention of dental caries: a 7-year follow-up of a controlled clinical trial; clinical and economic aspects. BMC Oral Health 2005;5:2. 201. Pitts NB. Risk assessment and caries prediction. J Dent Educ 1998;62:762-70. 202. Potoczek S, Wigdorowicz-Makowerowa N, Krakowian H, Rzadkowska K. Dental caries in children in the city of Wroclaw before the introduction of fluoridation of water supply in the year 1967. II. Deciduous dentition. Arch Immunol Ther Exp (Warsz) 1972;20:967-73. 203. Poulsen VJ. Caries risk children in the Danish child dental service. Scand J Prim Health Care 1987;5:169-75. 204. Poulsen S, Holm AK. The relation between dental caries in the primary and permament dentition of the same individual. J Public Health Dent 1980;40:17-25. 320 Karies – diagnostik, riskbedömning och icke-invasiv behandling
205. Poulton R, Thomson WM, Davies S, Kruger E, Brown RH, Silva P. Good teeth, bad teeth and fear of the dentist. Behav Res Ther 1997;35:327-34. 206. Powell LV. Caries prediction: a review of the literature. Community Dent Oral Epidemiol 1998;26:361-71. 207. Raitio M, Pienihäkkinen K, Scheinin A. Assessment of single risk indicators in relation to caries increment in adolescents. Acta Odontol Scand 1996;54:113-7. 208. Raitio M, Pienihäkkinen K, Scheinin A. Multifactorial modeling for prediction of caries increment in adolescents. Acta Odontol Scand 1996;54:118-21. 209. Reisine S, Litt M, Tinanoff N. A biopsychosocial model to predict caries in preschool children. Pediatr Dent 1994; 16:413-8. 210. Retnakumari N. Prevalence of dental caries and risk assessment among primary school children of 6–12 years in the Varkala municipal area of Kerala. J Indian Soc Pedod Prev Dent 1999;17:135-42. 211. Rise J, Birkeland JM, Haugejorden O, Blindheim O, Furevik J. Identification of high caries risk children using prevalence of filled surfaces as predictor variable for incidence. Community Dent Oral Epidemiol 1979;7:340-5. 212. Rodrigues CS, Sheiham A. The relationships between dietary guidelines, sugar intake and caries in primary teeth in low income Brazilian 3-year-olds: a longitudinal study. Int J Paediatr Dent 2000;10:47-55. 213. Roeters FJ, Verdonschot EH, Bronkhorst EM, van ’t Hof MA. Prediction of the need for bitewing radiography in detecting caries in the primary dentition. Community Dent Oral Epidemiol 1994;22:456-60. 214. Rugg-Gunn AJ, Hackett AF, Appleton DR, Jenkins GN, Eastoe JE. Relationship between dietary habits and caries increment assessed over two years in 405 English adolescent school children. Arch Oral Biol 1984;29:983-92. 215. Rugg-Gunn AJ, Hackett AF, Appleton DR. Relative cariogenicity of starch and sugars in a 2-year longitudinal study of 405 English schoolchildren. Caries Res 1987;21:464-73. 216. Rundegren J, Ericson T. Actual caries development compared with expected caries activity. Community Dent Oral Epidemiol 1978;6:97-102. 217. Russell JI, MacFarlane TW, Aitchison TC, Stephen KW, Burchell CK. Caries prevalence and microbiological and salivary caries activity tests in Scottish adolescents. Community Dent Oral Epidemiol 1990;18:120-5. 218. Rymar J. [A pilot study with a prospective view to examine a new saliva test’s (Dentobuff-Dentocult) application for screening an infant population]. Tandlaegebladet 1981;85:503-6. 219. Saemundsson SR, Slade GD, Spencer AJ, Davies MJ. The basis for clinicians’ caries risk grouping in children. Pediatr Dent 1997;19:331-8. 220. Sayegh A, Shehabi A, Hilow H. Multifactorial modelling for caries prediction in Jordanian university students. Community Dent Health 1997;14:97-101. KAPITEL 5 • Riskbedömning 321
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Karies - diagnostik, riskbedömning
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Karies - diagnostik, riskbedömning
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Primärt urval av studier 63 Bedöm
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Resultat 176 FOTI 176 DiFOTI 176 DI
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Metodik 356 Litteratursökning 356
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SBU:s sammanfattning och slutsatser
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Bakgrund Karies är en kronisk sjuk
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Gradering av slutsatsernas evidenss
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Visuell-taktil diagnostik Studier s
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Hur kan kariesskador predikteras me
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Barn (1-3 år) som borstar tändern
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Kostnadseffektivitet för diagnosti
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undersöks. Frekvensen röntgenunde
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sönderfall av tanden, då patiente
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av tandhälsan och har inga symtom.
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ning. Riskbedömning görs rutinmä
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Betydelsen av effektiv tidig behand
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Validitet och reliabilitet Validite
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negativa prediktionsvärdet (NPV) b
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ytterligare i Faktaruta 1.6. Exempe
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Samhällsnivå Sociodemografi och v
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Faktaruta 1.1 Olika aspekter på va
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Faktaruta 1.3 Fyrfältstabell med k
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Faktaruta 1.4 Diagram som illustrer
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Faktaruta 1.6 Beräkning av likelih
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Faktaruta 1.7 Nomogram som visar hu
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Referenser 1. Fiske J, Davis DM, Fr
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2. Metodik för sökning och utvär
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Primärt urval av studier För att
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laget för slutsatserna. En metod s
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• Förklarat/analyserat bortfall
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Otillräckligt vetenskapligt underl
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3. Praxisundersökning avseende bit
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svenska och norska tonåringar unde
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Totalt antal undersökta Stockholm
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Østfold Totalt antal undersökta %
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4. Diagnostik 4.1 Visuell-taktil di
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Bakgrund Den primära metoden för
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undersökare och bedömdes ha ett m
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diagnostik av emaljkaries på tuggy
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Aktiv (pågående) och inaktiv (kro
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Tabell 4.1.1 Inklusionskriterier f
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Dropout/ missing data Method or tec
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Table 4.1.7 continued Author, year,
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Referenser 1. Rocha RO, Ardenghi TM
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tion compared with conventional rad
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63. Banerjee A, Watson TF, Kidd EA.
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93. Rosén B, Birkhed D, Nilsson K,
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4.2 Röntgendiagnostik Slutsatser G
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antingen med kabel eller via trådl
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Risker med röntgenstrålning Rönt
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När observatörerna skulle bestäm
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Faktaruta 4.2.2 Nomogrammet som byg
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Metodik för litteraturgenomgång E
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procent och specificiteten mellan 9
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0,1 99 0,2 LR+ LR- 0,5 Visuell insp
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Intern och extern validitet Diagnos
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Kommentarer Vilka tänder eller tan
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för att en tvådimensionell bild a
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Method Number of teeth and surfaces
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52 molars and 11 premolars with occ
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Method Comparison method Outcome me
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Referenser 1. Akdeniz BG, Grondahl
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33. Espelid I, Tveit AB. A comparis
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66. Caliskan Yanikoglu F, Östurk F
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in proximal surfaces versus direct
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131. Wenzel A, Hintze H. The choice
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4.3 Tilläggsmetoder för kariesdia
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kariesskada [81,82]. En diagnostisk
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(a) (b) (c) (d) (e) Figur 4.3.1 Eff
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scerar starkt, medan demineralisera
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förhållandet var tvärtom för pr
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Tabell 4.3.1 Inklusionskriterier f
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Dropout/ missing data Comparison me
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Number of individuals Number of tee
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Number of individuals Number of tee
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Referenser 1. Grossman ES, Cleaton-
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30. Hall AF, DeSchepper E, Ando M,
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of occlusal caries in children. Car
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4.4. Etiska aspekter Som det framg
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• Salivens flöde och/eller buffr
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för riskfaktorn ifråga innan sjuk
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medel vid beslutsfattande. I slutä
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55 procent). Karjalainen och medarb
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Kariesskador i primära tänder som
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som hade högst sockerkonsumtion fa
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Övriga inkluderade studier har lå
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områdena Aiken och Portland i Nort
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studier visar att låg- och mellanr
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Faktaruta 5.1 Inklusionskriterier f
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Table 5.1 Caries prediction in pre-
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Table 5.1 continued Author Year, re
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Table 5.2 Caries prediction in pre-
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Table 5.3 Caries prediction in scho
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Table 5.4 Caries prediction in scho
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Page 268 and 269: Table 5.5 Caries prediction in adul
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Page 274 and 275: Table 5.6 Caries prediction in adul
Page 290 and 291: Table 5.7 Tillförlitligheten hos t
Page 292 and 293: Table 5.8 Post-eruptive age as risk
Page 296 and 297: Table 5.9 Post-eruptive age as risk
Page 300 and 301: Table 5.10 Excluded studies. Author
Page 302 and 303: Table 5.10 continued Author, year,
Page 308 and 309: 19. Karjalainen S, Söderling E, Se
Page 310 and 311: social factors and diseases. Int De
Page 312 and 313: isk assessment program in an elderl
Page 314 and 315: 121. Demers M, Brodeur JM, Simard P
Page 316 and 317: study. Community Dent Oral Epidemio
Page 320 and 321: 221. Schröder U, Granath L. Dietar
Page 322 and 323: groups. Oral Surg Oral Med Oral Pat
Page 324 and 325: 287. Ravald N, Birkhed D, Hamp SE.
Page 326 and 327: En nyss frambruten tand är mer mot
Page 328 and 329: Övriga produkter Ozon De syraprodu
Page 330 and 331: En studie, som undersökte effekten
Page 332 and 333: för få för slutsatser om effekti
Page 334 and 335: Table 6.2 Treatment of early corona
Page 336 and 337: Table 6.3 Treatment of early corona
Page 342 and 343: Table 6.4 Treatment of early root s
Page 346 and 347: Table 6.5 Excluded studies. Author,
Page 348 and 349: Referenser 1. Abernathy JR, Graves
Page 350 and 351: composite resin restorations. Acta
Page 353 and 354: 7. Ekonomiska aspekter Slutsatser A
Page 355 and 356: Kostnaden för visuell-taktil under
Page 357 and 358: Faktaruta 7.1 Hur beräknas kostnad
Page 359 and 360: 7.1 7.1 1 800 Kronor Kronor 1 600 1
Page 361 and 362: 8. Tänkbara praxisförändringar T
Page 363: Referenser 1. Ekstrand K. Faglig vi
Page 366 and 367: DFS DFT dft DiFOTI Dikotomisering D
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Likelihood-kvot Lingual Makroskopis
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Rotcement Sensitivitet Specificitet
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Svante Twetman Professor, odontolog
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Bilaga 1. Sökstrategier Kapitel 4.
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Kapitel 5 fortsättning NOT Cariost
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Bilaga 2. Granskningsmallar Diagnos
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Studier om riskbedömning Första f
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Studier om behandling av tidiga kar
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Bilaga 3. Sensitivitet, specificite
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9 8 8,0 8,0 LR+ emalj LR- emalj LR
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Sensitivitet och specificitet 2,0 1
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200 Procent 180 160 140 120 100 80
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180 160 140 120 100 80 60 40 20 0 8
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15. Lussi A. Comparison of differen
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49. Kordic A, Lussi A, Luder HU. Pe
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Ont i ryggen, ont i nacken (2000),
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Rapporter på engelska Obstructive
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