MTA in der Kinderzahnmedizin – Grundlagen zum Material und Anwendungen in der Kinderzahnmedizin

Literatur
1 Lee jr. JF, Monsef M, Torabinejad M. Sealing ability of a mineral trioxide aggregate for repair of lateral root perforations. J Endod 1993; 19: 541-544
2 Schwartz RS, Mauger M, Clement DJ et al. Mineral trioxide aggregate: a new material for endodontics. J Am Dent Assoc 1999; 130: 967-975
3 Song JS, Mante FK, Romanow WJ et al. Chemical analysis of powder and set forms of Portland cement, gray ProRoot MTA, white Pro Root MTA, and gray MTA-Angelus. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2006; 102: 809-815
4 United States Patent US 5,769,638, Date of Patent: June 23, 1998
5 Steffen R, van Waes H. Understanding mineral trioxide aggregate/Portland-cement: a review of literature and background factors. Eur Arch Paediatr Dent 2009; 10: 93-97
6 Monteiro Bramante C, Demarchi AC, deMorales IG et al. Presence of arsenic in different types of MTA and white and gray Portland cement. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 2008; 106: 909-913
7 Rao A, Rao A, Ramya Shenoy R. Mineral trioxide aggregate – a review. J Clin Pediatr Dent 2009; 34: 1-8
8 Steffen R, Fadi AA, van Waes HJM. Pulpotomy – is MTA/Portland Cement the Future?. In: Splieth C, ed. Revolutions in paediatric Dentistry. London: Quintessenz; 2011: 174-183
9 Bortoluzzi EA, Araujo GS, Guerreiro-Tanomaru JM et al. Marginal gingiva discoloration by gray MTA: a case report. J Endod 2007; 33: 325-327
10 Belobrov I, Parashos P. Treatment of tooth discoloration after the use of white mineral trioxide aggregate. J Endod 2011; 37: 1017-1020
11 Krastl G, Allgayer N, Lenherr P et al. Tooth discoloration induced by endodontic materials: a literature review. Dental Traumatol 2013; 29: 2-7
12 Verein Deutscher Zementwerke e.V.. Zement-Taschenbuch. 51. Aufl.. Düsseldorf: Bau & Technik; 2008
13 Wiltbank KB, Schwartz SA, Schindler WG. Effect of selected accelerants on the physical properties of mineral trioxide aggregate and Portland cement. J Endod 2007; 33: 1235-1238
14 Rajasekharan S, Martens LC, Cauwels RG et al. Biodentine TM material characteristics and clinical applications: a review of the literature. Eur Arch Paediatr Dent 2014; 15: 147-158
15 Güven E, Tasli PN, Yalvac ME et al. In vitro comparison of induction capacity and biomineralization ability of mineral trioxide aggregate and a bioceramic root canal sealer. Int Endod J 2013; 46: 1173-1182
16 Malhotra N, Agarwal A, Mala K. Mineral trioxide Aggregate: Part 1 A Review of Physical Properties & Part 2 A Review of the Material Aspects. Compend Contin Educ Dent 2013; 34: 38-43
17 Grazziotin-Soares R, Nekoofar MH, Davies TE et al. Effect of bismuth oxide on white mineral trioxide aggregate: chemical characterization and physical properties. Int Endod J 2014; 47: 520-533
18 Asgary S, Eghbal MJ, Parirokh M et al. Comparison of mineral trioxide aggregateʼs composition with Portland cements and a new endodontic cement. J Endod 2009; 35: 243-250
19 Kee-Yeon K, Zhu Q, Safavi K et al. Analysis of six heavy metals in Ortho mineral trioxide aggregate and ProRoot mineral trioxide aggregate by inductively coupled plasma-optical emission spectrometry. Aust Endod J 2013; 39: 126-130
20 De-Deus G, deSouza MC, Sergio Fidel RA et al. Negligible expression of arsenic in some commercially available brands of Portland cement and mineral trioxide aggregate. J Endod 2009; 35: 887-890
21 Schembri M, Peplow G, Camilleri J. Analyses of heavy metals in mineral trioxide aggregate and Portland cement. J Endod 2010; 36: 1210-1215
22 ISO 9917-1 (2010). http://www.iso.org/iso/catalogue_detail.htm/csnumber=45818
23 Krämer N, Frankenberger R. Endodontie im Milchgebiss. Quintessenz 2007; 58: 1077-1083
24 Hutcheson C, Seale NS, McWhorter A et al. Multi-surface composite vs stainless steel crown restorations after mineral trioxide aggregate pulpotomy: a randomized controlled trial. Paediat Dent 2012; 34: 460-467
25 Duda S, Dammaschke T. Die direkte Überkappung – Voraussetzungen für klinische Behandlungserfolge. Endod 2009; 18: 21-31
26 Van Waes H, Steffen R. Die Pulpotomie in der Milchzahnendodontie. Das Vorgehen, die Materialien und die besondere Rolle des Portland-Zements. Endod J 2009; 4: 20-25
27 Katsanos N. Oral Presentation Nr. 21, 11 th EAPD Congress, Strassbourg, 26.5.2012.
28 Innes NP, Evans DJ, Stirrups DR. Sealing caries in primary molars: randomized control trial, 5-year results. J Dent Res 2011; 90: 1405-1410
29 Gruythuysen R, vanStrijp AJ, Wu MK. Long-term survival of indirect pulp treatment performed in primary and permanent teeth with clinically diagnosed deep carious lesions. J Endod 2010; 36: 1490-1493
30 International Association of Dental Traumatology. Guidelines for the management of traumatic dental injuries. Part I, II and III. Dent Traumatol 2007; 23: 66-71 130–136; 196–202
31 Bakland LK, Andreasen JO. Will mineral trioxide aggregate replace calcium hydroxide in treating pulpal and periodontal healing complications subsequent to dental trauma? A review. Dent Traumat 2012; 28: 25-32
32 Sangwan P, Sangwan A, Duhan J et al. Tertiary dentinogenesis with calcium hydroxide: a review of proposed mechanisms. Int Endod J 2013; 46: 3-19
33 Nagy MM, Tawfik HE, Hashem AA et al. Regenerative potential of immature permanent teeth with necrotic pulps after different regenerative protocols. J Endod 2014; 40: 192-198
34 Yildirim T, Gençoğlu N. Use of mineral trioxide aggregate in the treatment of horizontal root fractures with a 5-year follow-up: report of a case. J Endod 2009; 35: 292-295
35 Twati WA, Wood DJ, Liskiewicz TW et al. An evaluation of the effect of non-setting calcium hydroxide on human dentine: a pilot study. Eur Arch Paediatr Dent 2009; 10: 104-109
36 Hatibović-Kofman S, Raimundo L, Zheng L et al. Fracture resistance and histological findings of immature teeth treated with mineral trioxide aggregate. Dent Traumatol 2008; 24: 272-276