ARTYKUŁ PRZEGLĄDOWY

Zastosowanie mikrotomografii komputerowej do ilościowej analizy wypełnień kanałów korzeniowych w zębach

Anna Kierklo¹ , Zbisław Tabor² , Rafał Petryniak³ , Marek Dohnalik⁴ , Małgorzata Jaworska¹

1. Department of Dentistry Propaedeutics, Medical University of Bialystok

2. Institute of Teleinformatics, Cracow University of Technology

3. Institute of Applied Informatics, Cracow University of Technology

4. Department of Geophysics for Drilling, The Oil and Gas Institute, Cracow

Opublikowany: 2014-03-24

DOI: 10.5604/17322693.1095271

GICID: 01.3001.0003.1206

Dostępne wersje językowe: pl en

Wydanie: Postepy Hig Med Dosw 2014; 68 : 310-315

Abstrakt

Przypisy

1. Anbu R., Nandini S., Velmurugan N.: Volumetric analysis of rootfillings using spiral computed tomography: An in vitro study. Int.Endod. J., 2010; 43: 64-68
Google Scholar
2. Bankman I.N.: Handbook of medical image processing and analysis.2nd ed. Academic Press, London 2009
Google Scholar
3. BoneJ. http://www.bonej.org (24.11.2013)
Google Scholar
4. De Deus G., Gurgel-Filho E.D., Magalhães K.M., Coutinho-FilhoT.: A laboratory analysis of gutta-percha-filled area obtained usingThermafill, System B and lateral condensation. Int. Endod. J., 2006;39: 378-383
Google Scholar
5. ElAyouti A., Achleithner C., Löst C., Weiger R.: Homogeneity andadaptation of new gutta-percha paste to root canal walls. J. Endod.,2005; 31: 687-690
Google Scholar
6. Gao Y., Peters O.A., Wu H., Zhou X.: An application framework ofthree-dimensional reconstruction and measurement for endodonticresearch. J. Endod., 2009; 35: 269-274
Google Scholar
7. Gharib S.R., Tordik P.A., Imamura G.M., Baginski T.A., Goodell G.:A confocal laser scanning microscope investigation of the Epiphanyobturation system. J. Endod., 2007; 33: 957-961
Google Scholar
8. Guillaume B., Lacoste J.P., Gaborit N., Brossard G., Cruard A., BasléM.F., Chappard D.: Microcomputed tomography used in the analysisof the morphology of root canals in extracted wisdom teeth. Brit. J.Oral Maxillofac. Surg., 2006; 44: 240-244
Google Scholar
9. Gulsahi K., Cehreli Z.C., Onay E.O., Tasman-Dagli F., Ungor M.:Comparison of the area of resin-based sealer and voids in roots obturatedwith gutta-percha. J. Endod., 2007; 33: 1338-1341
Google Scholar
10. Hammad M., Qualtrough A., Silikas N.: Three-dimensional evaluationof effectiveness of hand and rotary instrumentation for retreatmentof canals filled with different materials. J. Endod., 2008;34: 1370-1373
Google Scholar
11. Hammad M., Qualtrough A., Silikas N.: Evaluation of root canalobturation: A three-dimensional in vitro study. J. Endod., 2009;35: 541-544
Google Scholar
12. ImageJ. http://rsb.info.nih.gov/ij (24.11.2013)
Google Scholar
13. Jacobson H.L., Xia T., Baumgartner J.C., Marshall J.G., BeelerW.J.:. Microbial leakage evaluation of the continuous wave of condensation.J. Endod., 2002; 28: 269-271
Google Scholar
14. Jung M., Lommel D., Klimek J.: The imaging of root canal obturationusing micro-CT. Int. Endod. J., 2005; 38: 617-626
Google Scholar
15. Marciano M.A., Ordinola-Zapata R., Cunha T.V., Duarte M.A.,Cavenago B.C., Garcia R.B., Bramante C.M., Bernardineli N., MoraesI.G.: Analysis of four gutta-percha techniques used to fill mesialroot canals of mandibular molars. Int. Endod. J., 2011; 44: 321-329
Google Scholar
16. McMichen F.R., Pearson G., Rahbaran S., Gulabivala K.: A comparativestudy of selected physical properties of five root-canal sealers.Int. Endod. J., 2003; 36: 629-635
Google Scholar
17. Metzger Z., Zary R., Cohen R., Teperovich E., Paque F.: The qualityof root canal preparation and root canal obturation in canalstreated with rotary versus self-adjusting files: A three-dimensionalmicro-computed tomographic study. J. Endod., 2010; 36: 1569-1573
Google Scholar
18. Mokeem-Saleh A., Hammad M., Silikas N., Qualtrough A., WattsD.C.: A laboratory evaluation of the physical and mechanical propertiesof selected root canal sealers. Int. Endod. J., 2010; 43: 882-888
Google Scholar
19. Mutal L., Gani O.: Presence of pores and vacuoles in set endodonticsealers. Int. Endod. J., 2005; 38: 690-696
Google Scholar
20. Nair M.K., Nair U.P.: Digital and advanced imaging in endodontics:a review. J. Endod., 2007; 33: 1-6
Google Scholar
21. Oliver C.M., Abbot P.V.: Correlation between clinical success andapical dye penetration. Int. Endod. J., 2001; 34: 637-644
Google Scholar
22. Ørstavik D., Nordahl I., Tibballs J.E.: Dimensional change followingsetting of root canal sealer materials. Dent. Mater., 2001;17: 512-519
Google Scholar
23. Peters O.A., Schönenberger K., Laib A.: Effects of four Ni-Ti preparationtechniques on root canal geometry assessed by micro computedtomography. Int. Endod. J., 2001; 34: 221-230
Google Scholar
24. Petryniak R., Tabor Z., Kierklo A., Jaworska M.: Detection ofvoids of dental root canal obturation using microCT. In: LectureNotes in Computer Science, vol. 7594, eds.: L. Bolc, R. Tadeusiewicz,L.J. Chmielewski, K. Wojciechowski. Springer-Verlag, Berlin Heidelberg2012, 549-556
Google Scholar
25. Rhodes J.S., Pitt Ford T.R., Lynch J.A., Liepins P.J., Curtis R.V.:Micro-computed tomography: a new tool for experimental endodontology.Int. Endod. J., 1999; 32: 165-170
Google Scholar
26. Semesh H., Wu M.K., Wesselink P.R.: Leakage along apical root fillingswith and without smear layer using two different leakage models:A two-month longitudinal ex vivo study. Int. Endod. J., 2006; 39: 968-976
Google Scholar
27. Somma F., Cretella G., Carotenuto M., Pecci R., Bedini R., De BiasiM., Angerame D.: Quality of thermoplasticized and single pointroot fillings assessed by micro-computed tomography. Int. Endod.J., 2011; 44: 362-369
Google Scholar
28. Vier-Pelisser F.V., Dummer P.M., Bryant S., Marca C., Só M.V.,Figueiredo J.A.: The anatomy of the root canal system of three-rootedmaxillary premolars analysed using high-resolution computedtomography. Int. Endod. J., 2010; 43: 1122-1131
Google Scholar
29. Wu M.K., Kast’aková A., Wesselink P.R.: Quality of cold and warmgutta-percha fillings in oval canals in mandibular premolars. Int.Endod. J., 2001; 34: 485-491
Google Scholar
30. Xu Q., Ling J., Cheung G.S., Hu Y.: A quantitative evaluation ofsealing ability of 4 obturation techniques by using a glucose leakagetest. Oral Surg. Oral Med. Oral Pathol. Oral Radiol. Endod., 2007;104: e109-e113
Google Scholar
31. Zakizadeh P., Marshall S.J., Hoover C.I., Peters O.A., Noblett W.C.,Gansky S.A., Goodis H.E.: A novel approach in assessment of coronalleakage of intraorifice barriers: A saliva leakage and micro-computedtomographic evaluation. J. Endod., 2008; 35: 871-875
Google Scholar
32. Zaslansky P., Fratzl P., Rack A., Wu M.K., Wesselink P.R., ShemeshH.: Identification of root filling interfaces by microscopy and tomographymethods. Int. Endod. J., 2011; 44: 395-401
Google Scholar

Pełna treść artykułu

PDF