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Investigation of the bone tissue response to glass-ionomer microimplants in the canine maxillary alveolar ridge

This paper reports the results of experimental use of glass-ionomer microimplants in the augmentation of the maxillary alveolar ridge in dogs. The study included ten adult mongrel dogs 5 years of age, weighing between 50 and 70 pounds (25-30 kg), divided into 2 groups of 5 dogs each. In both groups,...

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Published in:	Journal of Oral Science 2003, Vol.45(4), pp.207-212
Main Authors:	Buric, Nikola, Jovanovic, Goran, Krasic, Dragan, Kesic, Ljiljana
Format:	Article
Language:	English
Subjects:	Aluminum Silicates - pharmacology Aluminum Silicates - toxicity alveolar ridge Alveolar Ridge Augmentation - methods Animals augmentation Biocompatible Materials - pharmacology Biocompatible Materials - toxicity Bone Regeneration - drug effects Bone Substitutes - pharmacology Bone Substitutes - toxicity canine Dogs Glass Ionomer Cements glass-ionomer microimplant Implants, Experimental Maxilla Particle Size Tooth Socket - drug effects
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creator	Buric, Nikola Jovanovic, Goran Krasic, Dragan Kesic, Ljiljana
description	This paper reports the results of experimental use of glass-ionomer microimplants in the augmentation of the maxillary alveolar ridge in dogs. The study included ten adult mongrel dogs 5 years of age, weighing between 50 and 70 pounds (25-30 kg), divided into 2 groups of 5 dogs each. In both groups, the maxillary 4th premolar and 1st molar were removed after the elevation of a buccal mucoperiosteal flap. The alveolar bone adjacent to the extracted teeth was also removed. In the experimental group (5 dogs), Ionogran® a glass-ionomer microimplants (GIMIs) (Ionogran® particle size of 0.5-1.0 mm, IONOS Medizinische Produkte GmbH & Co. KG, D-8031 Seefeld, Gemany) were used for augmentation and were inserted in the created defects. The extraction sockets and bone defects were augmented with an average amount of 2 g of GIMIs. In the control group, the bone defects were left unfilled as a control for bone healing. Histological examination showed that the glass-ionomer microimplants were extremely osteoconductive and inert materials. Stimulation of growth of new bone tissue in contact with the glassionomer microimplants was evident. No inflammatory cells were detected on or adjacent to the GIMIs. In the control group, incomplete bone healing with fibrous scar tissue and inflammatory cells was noted. These results indicate that glass-ionomer microimplants represent highly osteoconductive and biocompatible materials for use in bone surgery.
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The study included ten adult mongrel dogs 5 years of age, weighing between 50 and 70 pounds (25-30 kg), divided into 2 groups of 5 dogs each. In both groups, the maxillary 4th premolar and 1st molar were removed after the elevation of a buccal mucoperiosteal flap. The alveolar bone adjacent to the extracted teeth was also removed. In the experimental group (5 dogs), Ionogran® a glass-ionomer microimplants (GIMIs) (Ionogran® particle size of 0.5-1.0 mm, IONOS Medizinische Produkte GmbH & Co. KG, D-8031 Seefeld, Gemany) were used for augmentation and were inserted in the created defects. The extraction sockets and bone defects were augmented with an average amount of 2 g of GIMIs. In the control group, the bone defects were left unfilled as a control for bone healing. Histological examination showed that the glass-ionomer microimplants were extremely osteoconductive and inert materials. Stimulation of growth of new bone tissue in contact with the glassionomer microimplants was evident. No inflammatory cells were detected on or adjacent to the GIMIs. In the control group, incomplete bone healing with fibrous scar tissue and inflammatory cells was noted. 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The study included ten adult mongrel dogs 5 years of age, weighing between 50 and 70 pounds (25-30 kg), divided into 2 groups of 5 dogs each. In both groups, the maxillary 4th premolar and 1st molar were removed after the elevation of a buccal mucoperiosteal flap. The alveolar bone adjacent to the extracted teeth was also removed. In the experimental group (5 dogs), Ionogran® a glass-ionomer microimplants (GIMIs) (Ionogran® particle size of 0.5-1.0 mm, IONOS Medizinische Produkte GmbH & Co. KG, D-8031 Seefeld, Gemany) were used for augmentation and were inserted in the created defects. The extraction sockets and bone defects were augmented with an average amount of 2 g of GIMIs. In the control group, the bone defects were left unfilled as a control for bone healing. Histological examination showed that the glass-ionomer microimplants were extremely osteoconductive and inert materials. Stimulation of growth of new bone tissue in contact with the glassionomer microimplants was evident. No inflammatory cells were detected on or adjacent to the GIMIs. In the control group, incomplete bone healing with fibrous scar tissue and inflammatory cells was noted. 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subjects	Aluminum Silicates - pharmacology Aluminum Silicates - toxicity alveolar ridge Alveolar Ridge Augmentation - methods Animals augmentation Biocompatible Materials - pharmacology Biocompatible Materials - toxicity Bone Regeneration - drug effects Bone Substitutes - pharmacology Bone Substitutes - toxicity canine Dogs Glass Ionomer Cements glass-ionomer microimplant Implants, Experimental Maxilla Particle Size Tooth Socket - drug effects
title	Investigation of the bone tissue response to glass-ionomer microimplants in the canine maxillary alveolar ridge
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