Hard Tissue Preservation in Minimally Invasive Mandibular Third Molar Surgery Using In Situ Hardening TCP Bone Filler
| Primer Autor |
Engelke, Wilfried
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| Co-autores |
Lazzarini, Marcio#Beltran, Victor
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| Título |
Hard Tissue Preservation in Minimally Invasive Mandibular Third Molar Surgery Using In Situ Hardening TCP Bone Filler
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| Editorial |
HINDAWI LTD
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| Revista |
BIOMED RESEARCH INTERNATIONAL
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| Lenguaje |
en
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| Resumen |
Background. Maintenance of hard tissue in the case of impacted thirdmolars (M3M) with close relationship to the mandibular canal is still a surgical challenge which may be overcome using the inward fragmentation technique. Methods. A consecutive case series of 12 patients required the extraction of 13 impacted M3M with a close relationship to the inferior alveolar nerve (IAN). Via occlusal miniflaps, M3M were exposed occlusal under endoscopic vision and removed by inward fragmentation. All patients received socket preservation with resorbable in situ hardening TCP particles to reduce the risk of pocket formation at the second molar. Results. All 13 sites healed uneventfully. Bone height was assessed using CBCT cross-sectional reformats pre- and 3 months postoperatively. The bone height was reduced by 1.54 mm lingual (SD 0.88), 2.91 mm central (SD 0.93), and 2.08 mm buccal (SD 1.09). Differences were significant at a 0.05% level. No tissue invagination at the extraction sites was observed. Conclusions. Major bone defects can be avoided safely using inward fragmentation surgery. The self-hardening bone filler appears to enhance the mineralization of the intrabony defect.
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| Tipo de Recurso |
Artículo original
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| Description |
The first author was supported in part by MEC Project, PAI80160012, of the National Commission for Scientific and Technological Research, CONICYT, Chile. The study was supported with biomaterial from Sunstar Suisse SA, Etoy, Switzerland, to the Universidad de La Frontera, Temuco, Chile (DIUFRO Project no. DI17-0170).
El primer autor recibió financiación parcial del Proyecto MEC, PAI80160012, de la Comisión Nacional de Investigación Científica y Tecnológica, CONICYT, Chile. El estudio contó con el apoyo de biomaterial de Sunstar Suisse SA, Etoy, Suiza, para la Universidad de La Frontera, Temuco, Chile (Proyecto DIUFRO n.º DI17-0170).
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| doi |
10.1155/2018/5274754
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| Formato Recurso |
pdf
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| Ubicación del archivo |
http://dx.doi.org/10.1155/2018/5274754
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| Categoría OCDE |
Biotechnology & Applied Microbiology# Medicine, Research & Experimental
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| Disciplinas de la OCDE |
Odontología, Cirugía y Medicina Oral
Cirugía
Ortopedia
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| Id de Web of Science |
WOS:000451162000001
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| Título de la cita (Recomendado-único) |
Hard Tissue Preservation in Minimally Invasive Mandibular Third Molar Surgery Using <i>In Situ</i> Hardening TCP Bone Filler
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| Identificador del recurso (Mandatado-único) |
Artículo original
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| Versión del recurso (Recomendado-único) |
version publicada
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| Editorial |
HINDAWI LTD
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| Revista/Libro |
BIOMED RESEARCH INTERNATIONAL
|
| Categoría WOS |
Biotecnología y Microbiología Aplicada# Medicina, Investigación y Experimental
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| ISSN |
2314-6133
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| Idioma |
en
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| Referencia del Financiador (Mandatado si es aplicable-repetible) |
ANID PAI80160012#UFRO DI17-0170
ANID PAI80160012
unstar Suisse SA
UFRO DI17-0170
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| Descripción |
The first author was supported in part by MEC Project, PAI80160012, of the National Commission for Scientific and Technological Research, CONICYT, Chile. The study was supported with biomaterial from Sunstar Suisse SA, Etoy, Switzerland, to the Universidad de La Frontera, Temuco, Chile (DIUFRO Project no. DI17-0170).
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| Formato |
pdf
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| Tipo de ruta |
dorada#verde
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| Access Rights |
acceso abierto
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| Derechos de acceso |
acceso abierto
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| License |
CC BY
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| Página de inicio (Recomendado-único) |
26
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| Página final (Recomendado-único) |
29
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