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The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs.
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Zeitschriftentitel: | Key Engineering Materials |
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Personen und Körperschaften: | , |
In: | Key Engineering Materials, 396-398, 2008, S. 385-388 |
Format: | E-Article |
Sprache: | Unbestimmt |
veröffentlicht: |
Trans Tech Publications, Ltd.
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Schlagwörter: |
author_facet |
Coelho, Paulo Guilherme Suzuki, Marcelo Coelho, Paulo Guilherme Suzuki, Marcelo |
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author |
Coelho, Paulo Guilherme Suzuki, Marcelo |
spellingShingle |
Coelho, Paulo Guilherme Suzuki, Marcelo Key Engineering Materials The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. Mechanical Engineering Mechanics of Materials General Materials Science |
author_sort |
coelho, paulo guilherme |
spelling |
Coelho, Paulo Guilherme Suzuki, Marcelo 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.396-398.385 <jats:p>The objective of this series of experiments was to evaluate the effect of bioceramic coatings/ incorporations on implant surfaces as a function of implant and surgical drilling design. Methods: A series of four in vivo studies were conducted utilizing the dog proximal tibia model. The models provided implants that remained from 2 to 5 weeks implantation time. The different studies comprised the placement of implants with intimate contact with bone following placement and implant designs that resulted in healing chambers. The various implant types presented surfaces with and without Ca- and P-based bioceramic incorporations. Biomechanical and histomorphometric measurements along with qualitative bone-implant interface morphology evaluation were performed. For all studies, one-way ANOVA at 95% level of significance was employed along with Tukey's post-hoc multiple comparisons. Results: Close contact between cortical and trabecular bone and all the different implant surfaces irrespective of implant fit (with and without healing chambers) showed that all surfaces were biocompatible and osteoconductive. In general, appositional bone healing was observed at all implant regions that were in intimate contact with bone immediately after placement, and an intramembranous-like healing occurred throughout the whole volume of the healing chambers. Irrespective of implant + surgical drilling design, the presence of Ca and P resulted in a bone morphology that showed primary osteonic structures at earlier times than uncoated surfaces. Conclusion: Irrespective of implant design and surgical drilling combination, the presence of Ca and P on the implant surface positively modulated early healing around endosseous implants.</jats:p> The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of <i>In Vivo </i>Studies in Dogs. Key Engineering Materials |
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10.4028/www.scientific.net/kem.396-398.385 |
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Online |
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Trans Tech Publications, Ltd., 2008 |
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Trans Tech Publications, Ltd., 2008 |
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2008 |
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Trans Tech Publications, Ltd. |
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Key Engineering Materials |
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49 |
title |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_unstemmed |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_full |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_fullStr |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_full_unstemmed |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_short |
The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_sort |
the effect of bioceramic surface modifications on different endosseous implant and surgical design. a series of <i>in vivo </i>studies in dogs. |
topic |
Mechanical Engineering Mechanics of Materials General Materials Science |
url |
http://dx.doi.org/10.4028/www.scientific.net/kem.396-398.385 |
publishDate |
2008 |
physical |
385-388 |
description |
<jats:p>The objective of this series of experiments was to evaluate the effect of bioceramic
coatings/ incorporations on implant surfaces as a function of implant and surgical drilling design.
Methods: A series of four in vivo studies were conducted utilizing the dog proximal tibia model.
The models provided implants that remained from 2 to 5 weeks implantation time. The different
studies comprised the placement of implants with intimate contact with bone following placement
and implant designs that resulted in healing chambers. The various implant types presented surfaces
with and without Ca- and P-based bioceramic incorporations. Biomechanical and
histomorphometric measurements along with qualitative bone-implant interface morphology
evaluation were performed. For all studies, one-way ANOVA at 95% level of significance was
employed along with Tukey's post-hoc multiple comparisons. Results: Close contact between
cortical and trabecular bone and all the different implant surfaces irrespective of implant fit (with
and without healing chambers) showed that all surfaces were biocompatible and osteoconductive. In
general, appositional bone healing was observed at all implant regions that were in intimate contact
with bone immediately after placement, and an intramembranous-like healing occurred throughout
the whole volume of the healing chambers. Irrespective of implant + surgical drilling design, the
presence of Ca and P resulted in a bone morphology that showed primary osteonic structures at
earlier times than uncoated surfaces. Conclusion: Irrespective of implant design and surgical
drilling combination, the presence of Ca and P on the implant surface positively modulated early
healing around endosseous implants.</jats:p> |
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author | Coelho, Paulo Guilherme, Suzuki, Marcelo |
author_facet | Coelho, Paulo Guilherme, Suzuki, Marcelo, Coelho, Paulo Guilherme, Suzuki, Marcelo |
author_sort | coelho, paulo guilherme |
container_start_page | 385 |
container_title | Key Engineering Materials |
container_volume | 396-398 |
description | <jats:p>The objective of this series of experiments was to evaluate the effect of bioceramic coatings/ incorporations on implant surfaces as a function of implant and surgical drilling design. Methods: A series of four in vivo studies were conducted utilizing the dog proximal tibia model. The models provided implants that remained from 2 to 5 weeks implantation time. The different studies comprised the placement of implants with intimate contact with bone following placement and implant designs that resulted in healing chambers. The various implant types presented surfaces with and without Ca- and P-based bioceramic incorporations. Biomechanical and histomorphometric measurements along with qualitative bone-implant interface morphology evaluation were performed. For all studies, one-way ANOVA at 95% level of significance was employed along with Tukey's post-hoc multiple comparisons. Results: Close contact between cortical and trabecular bone and all the different implant surfaces irrespective of implant fit (with and without healing chambers) showed that all surfaces were biocompatible and osteoconductive. In general, appositional bone healing was observed at all implant regions that were in intimate contact with bone immediately after placement, and an intramembranous-like healing occurred throughout the whole volume of the healing chambers. Irrespective of implant + surgical drilling design, the presence of Ca and P resulted in a bone morphology that showed primary osteonic structures at earlier times than uncoated surfaces. Conclusion: Irrespective of implant design and surgical drilling combination, the presence of Ca and P on the implant surface positively modulated early healing around endosseous implants.</jats:p> |
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spelling | Coelho, Paulo Guilherme Suzuki, Marcelo 1662-9795 Trans Tech Publications, Ltd. Mechanical Engineering Mechanics of Materials General Materials Science http://dx.doi.org/10.4028/www.scientific.net/kem.396-398.385 <jats:p>The objective of this series of experiments was to evaluate the effect of bioceramic coatings/ incorporations on implant surfaces as a function of implant and surgical drilling design. Methods: A series of four in vivo studies were conducted utilizing the dog proximal tibia model. The models provided implants that remained from 2 to 5 weeks implantation time. The different studies comprised the placement of implants with intimate contact with bone following placement and implant designs that resulted in healing chambers. The various implant types presented surfaces with and without Ca- and P-based bioceramic incorporations. Biomechanical and histomorphometric measurements along with qualitative bone-implant interface morphology evaluation were performed. For all studies, one-way ANOVA at 95% level of significance was employed along with Tukey's post-hoc multiple comparisons. Results: Close contact between cortical and trabecular bone and all the different implant surfaces irrespective of implant fit (with and without healing chambers) showed that all surfaces were biocompatible and osteoconductive. In general, appositional bone healing was observed at all implant regions that were in intimate contact with bone immediately after placement, and an intramembranous-like healing occurred throughout the whole volume of the healing chambers. Irrespective of implant + surgical drilling design, the presence of Ca and P resulted in a bone morphology that showed primary osteonic structures at earlier times than uncoated surfaces. Conclusion: Irrespective of implant design and surgical drilling combination, the presence of Ca and P on the implant surface positively modulated early healing around endosseous implants.</jats:p> The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of <i>In Vivo </i>Studies in Dogs. Key Engineering Materials |
spellingShingle | Coelho, Paulo Guilherme, Suzuki, Marcelo, Key Engineering Materials, The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs., Mechanical Engineering, Mechanics of Materials, General Materials Science |
title | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_full | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_fullStr | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_full_unstemmed | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_short | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
title_sort | the effect of bioceramic surface modifications on different endosseous implant and surgical design. a series of <i>in vivo </i>studies in dogs. |
title_unstemmed | The Effect of Bioceramic Surface Modifications on Different Endosseous Implant and Surgical Design. A Series of In Vivo Studies in Dogs. |
topic | Mechanical Engineering, Mechanics of Materials, General Materials Science |
url | http://dx.doi.org/10.4028/www.scientific.net/kem.396-398.385 |