nach oben

Erschienen in:

01.03.2006 | Original Article

Tissue responses to an experimental calcium phosphate cement and mineral trioxide aggregate as materials for furcation perforation repair: a histological study in dogs

verfasst von: Jörn Noetzel, Kürsat Özer, Bert-Hendrik Reisshauer, Ata Anil, Ralf Rössler, Konrad Neumann, Andrej M. Kielbassa

Erschienen in: Clinical Oral Investigations | Ausgabe 1/2006

Einloggen, um Zugang zu erhalten

Abstract

The aim was to evaluate histologically the inflammatory reactions and tissue responses to an experimental tricalcium phosphate cement (TCP) and mineral trioxide aggregate (MTA) when used as repair materials in furcation perforations in dogs. Perforations were performed in 24 mandibular premolars of six anaesthetised dogs and filled either with ProRoot MTA (grey) or TCP. The root canals were subsequently shaped and filled, and the access cavities were closed with a bonded composite resin. The animals were killed at 12 weeks. After radiological examination, the teeth and surrounding structures were processed for light microscopy. Concerning the grades of inflammation, MTA exhibited significantly better results than TCP (chi-square test according to Pearson). No furcation was free of inflammatory cells. Mild inflammation was observed in nine of twelve cases with MTA and only twice in those with TCP. No significant differences were revealed between MTA and TCP in terms of bone reorganization or deposition of fibrous connective tissue (Mantel-Haenszel chi-square test). The grade of radiological examination corresponded with the grade of inflammation or differed by only one grade plus or minus. Perforations located in the furcation of teeth remain an endodontic and a periodontal problem with an uncertain prognosis, in spite of the promising modern materials applied.

Alhadainy HA (1994) Root perforations. A review of literature. Oral Surg Oral Med Oral Pathol 78:368–374PubMedCrossRef

Alhadainy HA, Himel VT (1994) An in vitro evaluation of plaster of Paris barriers used under amalgam and glass ionomer to repair furcation perforations. J Endod 20:449–452PubMedCrossRef

Aguirre R, elDeeb ME, elDeeb ME (1986) Evaluation of the repair of mechanical furcation perforations using amalgam, gutta-percha, or indium foil. J Endod 12:249–256PubMedCrossRef

Balla R, LoMonaco CJ, Skribner J, Lin LM (1991) Histological study of furcation perforations treated with tricalcium phosphate, hydroxylapatite, amalgam, and Life. J Endod 17:234–238PubMed

Bogaerts P (1997) Treatment of root perforations with calcium hydroxide and SuperEBA cement: a clinical report. Int Endod J 30:210–219PubMedCrossRef

Chow LC (2001) Calcium phosphate cements. In: Chow LC, Eanes ED (eds) Octacalcium phosphate. Karger, Basel, pp 148–163CrossRef

Donath K, Breuner G (1982) A method for the study of undecalcified bones and teeth with attached soft tissues. The Säge-Schliff (sawing and grinding) technique. J Oral Pathol 11:318–326PubMedCrossRef

elDeeb ME, elDeeb M, Tabibi A, Jensen JR (1982) An evaluation of the use of amalgam, Cavit and calcium hydroxide in the repair of furcation perforations. J Endod 8:459–466PubMedCrossRef

Hartwell GR, England MC (1993) Healing of furcation perforations in primate teeth after repair with decalcified freeze-dried bone: a longitudinal study. J Endod 19:357–361PubMedCrossRef

10.

Himel VT, Brady J, Weir J (1985) Evaluation of repair of mechanical perforations of the pulp chamber floor using biodegradable tricalcium phosphate or calcium hydroxide. J Endod 11:161–165PubMedCrossRef

11.

Holland R, Filho JA, deSouca V, Nery MJ, Bernabe PF, Junior ED (2001) Mineral trioxide aggregate repair of lateral root perforations. J Endod 27:281–284PubMedCrossRef

12.

Hong YC, Wang JT, Hong CY, Brown WE, Chow LC (1991) The periapical tissue reactions to a calcium phosphate cement in the teeth of monkeys. J Biomed Mater Res 25:485–498PubMedCrossRef

13.

Jansen JA, De Ruijter JE, Schaeken HG, Van Der Waerden JPCM, Planell JA, Driessens FCM (1995) Evaluation of tricalciumphosphate/hydroxyapatite cement for tooth replacement: an experimental animal study. J Mater Sci Mater Med 6:653–657CrossRef

14.

Kaufmann J (1944) Untersuchungen am Paradentium der traumatisch perforierten Zahnwurzel. Schweiz Monatschr Zahnheilkd 54:387–447

15.

Legeros RZ (1988) Calcium phosphate materials in restorative dentistry: a review. Adv Dent Res 2:164–180PubMed

16.

Lemon RR (1992) Nonsurgical repair of perforation defects. Internal matrix concept. Dent Clin North Am 36:439–457PubMed

17.

Main C, Mirzayan N, Shabahang S, Torabinejad M (2004) Repair of root perforations using mineral trioxide aggregate: a long-term study. J Endod 30:80–83PubMedCrossRef

18.

Matsuya Y, Matsuya S, Antonucci JM, Takagi S, Chow LC, Akamine A (1999) Effect of powder grinding on hydroxyapatite formation in a polymeric calcium phosphate cement prepared from tetracalcium phosphate and poly(methyl vinyl ether–maleic acid). Biomaterials 20:691–697PubMedCrossRef

19.

Ørstavik D, Mjör IA (1992) Usage test of four endodontic sealers in Macaca fascicularis monkeys. Oral Surg Oral Med Oral Pathol 73:337–344PubMedCrossRef

20.

Pitt Ford TR, Torabinejad M, Abedi HR, Bakland LK, Kariyawasam SP (1996) Using mineral trioxide aggregate as a pulp-capping material. J Am Dent Assoc 127:1491–1494

21.

Pitt Ford TR, Torabinejad M, McKendry DJ, Hong CU, Kariyawasam SP (1995) Use of mineral trioxide aggregate for repair of furcal perforations. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 79:756–762CrossRef

22.

Salman MA, Quinn F, Dermody J, Hussey D, Claffey N (1999) Histological evaluation of repair using a bioresorbable membrane beneath a resin-modified glass ionomer after mechanical furcation perforation in dogs’ teeth. J Endod 25:181–186PubMedCrossRef

23.

Schmitz JP, Hollinger JO, Milam SB (1999) Reconstruction of bone using calcium phosphate bone cements: a critical review. J Oral Maxillofac Surg 57:1122–1226PubMedCrossRef

24.

Sinai IH, Romea DJ, Glassman G, Morse DR, Fantasia J, Furst ML (1989) An evaluation of tricalcium phosphate as a treatment for endodontic perforations. J Endod 15:399–403PubMedCrossRef

25.

Torabinejad M, Chivian N (1999) Clinical applications of mineral trioxide aggregate. J Endod 25:197–205PubMedCrossRef

26.

Yildirim T, Gencoglu N, Firat I, Perk C, Guzel O (2005) Histologic study of furcation perforations treated with MTA or Super EBA in dogs’ teeth. Oral Surg Oral Med Oral Pathol Oral Radiol Endod 100:120–124PubMedCrossRef

27.

Yoshikawa M, Tadao T (2000) Reconstruction of alveolar bone defect by calcium phosphate compounds. J Biomed Mater Res 53:430–437PubMedCrossRef

Titel: Tissue responses to an experimental calcium phosphate cement and mineral trioxide aggregate as materials for furcation perforation repair: a histological study in dogs
verfasst von: Jörn Noetzel
Kürsat Özer
Bert-Hendrik Reisshauer
Ata Anil
Ralf Rössler
Konrad Neumann
Andrej M. Kielbassa
Publikationsdatum: 01.03.2006
Verlag: Springer-Verlag
Erschienen in: Clinical Oral Investigations / Ausgabe 1/2006
Print ISSN: 1432-6981
Elektronische ISSN: 1436-3771
DOI: https://doi.org/10.1007/s00784-005-0032-1

Neu im Fachgebiet Zahnmedizin

Parodontalbehandlung verbessert Prognose bei Katheterablation

19.04.2024 Vorhofflimmern Nachrichten

Werden Personen mit Vorhofflimmern in der Blanking-Periode nach einer Katheterablation gegen eine bestehende Parodontitis behandelt, verbessert dies die Erfolgsaussichten. Dafür sprechen die Resultate einer prospektiven Untersuchung.

Invasive Zahnbehandlung: Wann eine Antibiotikaprophylaxe vor infektiöser Endokarditis schützt

11.04.2024 Endokarditis Nachrichten

Bei welchen Personen eine Antibiotikaprophylaxe zur Prävention einer infektiösen Endokarditis nach invasiven zahnärztlichen Eingriffen sinnvoll ist, wird diskutiert. Neue Daten stehen im Einklang mit den europäischen Leitlinienempfehlungen.

Zell-Organisatoren unter Druck: Mechanismen des embryonalen Zahnwachstums aufgedeckt

08.04.2024 Zahnmedizin Nachrichten

Der Aufbau von Geweben und Organen während der Embryonalentwicklung wird von den Zellen bemerkenswert choreografiert. Für diesen Prozess braucht es spezielle sogenannte „Organisatoren“. In einer aktuellen Veröffentlichung im Fachjournal Nature Cell Biology berichten Forschende durch welchen Vorgang diese Organisatoren im Gewebe entstehen und wie sie dann die Bildung von Zähnen orchestrieren.

Die Oralprophylaxe & Kinderzahnheilkunde umbenannt

11.03.2024 Kinderzahnmedizin Nachrichten

Infolge der Umbenennung der Deutschen Gesellschaft für Kinderzahnheilkunde in Deutsche Gesellschaft für Kinderzahnmedizin (DGKiZ) wird deren Mitgliederzeitschrift Oralprophylaxe & Kinderzahnheilkunde in Oralprophylaxe & Kinderzahnmedizin umbenannt. Aus diesem Grunde trägt die erste Ausgabe in 2024 erstmalig den neuen Titel.

Bestellen Sie unseren kostenlosen Newsletter Update Zahnmedizin und bleiben Sie gut informiert – ganz bequem per eMail.

Newsletter bestellen

Springer Medizin

Abstract

Bitte loggen Sie sich ein, um Zugang zu diesem Inhalt zu erhalten

Weitere Artikel der Ausgabe 1/2006

Healing of intrabony defects following treatment with an oily calcium hydroxide suspension (Osteoinductal). A controlled clinical study

Effect of an oily calcium hydroxide suspension on early wound healing after nonsurgical periodontal therapy

Reprint of Criteria for the clinical evaluation of dental restorative materials

Roots of the maxillary first and second molars in horizontal relation to alveolar cortical plates and maxillary sinus: computed tomography assessment for infection spread

Halogen and LED light curing of composite: temperature increase and Knoop hardness

Carbamide peroxide bleaching agents: effects on surface roughness of enamel, composite and porcelain

Neu im Fachgebiet Zahnmedizin

Parodontalbehandlung verbessert Prognose bei Katheterablation

Invasive Zahnbehandlung: Wann eine Antibiotikaprophylaxe vor infektiöser Endokarditis schützt

Zell-Organisatoren unter Druck: Mechanismen des embryonalen Zahnwachstums aufgedeckt

Die Oralprophylaxe & Kinderzahnheilkunde umbenannt

Newsletter