Bone‐supportive behavior of microplasma‐sprayed CaP‐coated implants: mechanical and histological outcome in the goat
Identifieur interne : 005409 ( Main/Exploration ); précédent : 005408; suivant : 005410Bone‐supportive behavior of microplasma‐sprayed CaP‐coated implants: mechanical and histological outcome in the goat
Auteurs : R. Junker [Pays-Bas] ; P. J. D. Manders [Pays-Bas] ; J. Wolke [Pays-Bas] ; Y. Borisov [Ukraine] ; J. A. Jansen [Pays-Bas]Source :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2010-02.
Descripteurs français
English descriptors
- KwdEn :
- Albrektsson, Apposition, Average roughness, Biomedical, Biomedical materials research, Bone apposition, Bone contact, Bone contact percentage, Bone formation, Bone healing, Bone mass, Calcium phosphate, Caulier, Clin, Coating thickness, Condyle, Dental implants, Different implant types, Experimental study, Failure load, Femoral, Femoral condyles, Goat, Groot, Hacam, Histological, Histological evaluation, Histological outcome, Histomorphometric, Histomorphometric study, Histomorphometrical, Histomorphometrical evaluation, Hulshoff, Hydroxylapatite, Impl, Implant, Implant shoulder, Implant surface, Implant thread, Implantation, Implantation periods, Implants research, International journal, Jansen, John wiley sons, Junker, Klein, Marginal bone apposition, Maxillofacial, Mechanical evaluation, Mechanical testing, Microplasma, Microplasma spray, Naert, Ndings, Oral impl, Oral implants, Oral maxillofacial implants, Other hand, Present study, Roughness, Screw thread, Statistical analysis, Surface roughness, Titanium, Titanium implants, Torque testing, Trabecular, Trabecular bone, Uncoated, Uncoated implants, Various implant surfaces, Vercaigne, Waerden, Wolke.
- Teeft :
- Albrektsson, Apposition, Average roughness, Biomedical, Biomedical materials research, Bone apposition, Bone contact, Bone contact percentage, Bone formation, Bone healing, Bone mass, Calcium phosphate, Caulier, Clin, Coating thickness, Condyle, Dental implants, Different implant types, Experimental study, Failure load, Femoral, Femoral condyles, Goat, Groot, Hacam, Histological, Histological evaluation, Histological outcome, Histomorphometric, Histomorphometric study, Histomorphometrical, Histomorphometrical evaluation, Hulshoff, Hydroxylapatite, Impl, Implant, Implant shoulder, Implant surface, Implant thread, Implantation, Implantation periods, Implants research, International journal, Jansen, John wiley sons, Junker, Klein, Marginal bone apposition, Maxillofacial, Mechanical evaluation, Mechanical testing, Microplasma, Microplasma spray, Naert, Ndings, Oral impl, Oral implants, Oral maxillofacial implants, Other hand, Present study, Roughness, Screw thread, Statistical analysis, Surface roughness, Titanium, Titanium implants, Torque testing, Trabecular, Trabecular bone, Uncoated, Uncoated implants, Various implant surfaces, Vercaigne, Waerden, Wolke.
Abstract
Background: New microplasma spray (MPS) equipment to deposit calcium phosphate (CaP) ceramic coatings onto titanium substrates has been developed. With this apparatus, it is possible to spray fine particles, as well as to apply textured hydroxylapatite coatings onto titanium surfaces. Moreover, due to the low heat power of the microplasma jet, overheating of the powder particles as well as excessive local overheating of the substrate is reduced. Furthermore, because of the small laminar plasma jet, it is possible to achieve high spray efficiency in the case of spraying of dental implants. Additionally, the low level of noise (25–50 dB) and hardly any dust makes it possible to operate the MSE under normal workroom conditions.
Url:
DOI: 10.1111/j.1600-0501.2009.01819.x
Affiliations:
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<term>Apposition</term>
<term>Average roughness</term>
<term>Biomedical</term>
<term>Biomedical materials research</term>
<term>Bone apposition</term>
<term>Bone contact</term>
<term>Bone contact percentage</term>
<term>Bone formation</term>
<term>Bone healing</term>
<term>Bone mass</term>
<term>Calcium phosphate</term>
<term>Caulier</term>
<term>Clin</term>
<term>Coating thickness</term>
<term>Condyle</term>
<term>Dental implants</term>
<term>Different implant types</term>
<term>Experimental study</term>
<term>Failure load</term>
<term>Femoral</term>
<term>Femoral condyles</term>
<term>Goat</term>
<term>Groot</term>
<term>Hacam</term>
<term>Histological</term>
<term>Histological evaluation</term>
<term>Histological outcome</term>
<term>Histomorphometric</term>
<term>Histomorphometric study</term>
<term>Histomorphometrical</term>
<term>Histomorphometrical evaluation</term>
<term>Hulshoff</term>
<term>Hydroxylapatite</term>
<term>Impl</term>
<term>Implant</term>
<term>Implant shoulder</term>
<term>Implant surface</term>
<term>Implant thread</term>
<term>Implantation</term>
<term>Implantation periods</term>
<term>Implants research</term>
<term>International journal</term>
<term>Jansen</term>
<term>John wiley sons</term>
<term>Junker</term>
<term>Klein</term>
<term>Marginal bone apposition</term>
<term>Maxillofacial</term>
<term>Mechanical evaluation</term>
<term>Mechanical testing</term>
<term>Microplasma</term>
<term>Microplasma spray</term>
<term>Naert</term>
<term>Ndings</term>
<term>Oral impl</term>
<term>Oral implants</term>
<term>Oral maxillofacial implants</term>
<term>Other hand</term>
<term>Present study</term>
<term>Roughness</term>
<term>Screw thread</term>
<term>Statistical analysis</term>
<term>Surface roughness</term>
<term>Titanium</term>
<term>Titanium implants</term>
<term>Torque testing</term>
<term>Trabecular</term>
<term>Trabecular bone</term>
<term>Uncoated</term>
<term>Uncoated implants</term>
<term>Various implant surfaces</term>
<term>Vercaigne</term>
<term>Waerden</term>
<term>Wolke</term>
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<term>Apposition</term>
<term>Average roughness</term>
<term>Biomedical</term>
<term>Biomedical materials research</term>
<term>Bone apposition</term>
<term>Bone contact</term>
<term>Bone contact percentage</term>
<term>Bone formation</term>
<term>Bone healing</term>
<term>Bone mass</term>
<term>Calcium phosphate</term>
<term>Caulier</term>
<term>Clin</term>
<term>Coating thickness</term>
<term>Condyle</term>
<term>Dental implants</term>
<term>Different implant types</term>
<term>Experimental study</term>
<term>Failure load</term>
<term>Femoral</term>
<term>Femoral condyles</term>
<term>Goat</term>
<term>Groot</term>
<term>Hacam</term>
<term>Histological</term>
<term>Histological evaluation</term>
<term>Histological outcome</term>
<term>Histomorphometric</term>
<term>Histomorphometric study</term>
<term>Histomorphometrical</term>
<term>Histomorphometrical evaluation</term>
<term>Hulshoff</term>
<term>Hydroxylapatite</term>
<term>Impl</term>
<term>Implant</term>
<term>Implant shoulder</term>
<term>Implant surface</term>
<term>Implant thread</term>
<term>Implantation</term>
<term>Implantation periods</term>
<term>Implants research</term>
<term>International journal</term>
<term>Jansen</term>
<term>John wiley sons</term>
<term>Junker</term>
<term>Klein</term>
<term>Marginal bone apposition</term>
<term>Maxillofacial</term>
<term>Mechanical evaluation</term>
<term>Mechanical testing</term>
<term>Microplasma</term>
<term>Microplasma spray</term>
<term>Naert</term>
<term>Ndings</term>
<term>Oral impl</term>
<term>Oral implants</term>
<term>Oral maxillofacial implants</term>
<term>Other hand</term>
<term>Present study</term>
<term>Roughness</term>
<term>Screw thread</term>
<term>Statistical analysis</term>
<term>Surface roughness</term>
<term>Titanium</term>
<term>Titanium implants</term>
<term>Torque testing</term>
<term>Trabecular</term>
<term>Trabecular bone</term>
<term>Uncoated</term>
<term>Uncoated implants</term>
<term>Various implant surfaces</term>
<term>Vercaigne</term>
<term>Waerden</term>
<term>Wolke</term>
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<front><div type="abstract">Background: New microplasma spray (MPS) equipment to deposit calcium phosphate (CaP) ceramic coatings onto titanium substrates has been developed. With this apparatus, it is possible to spray fine particles, as well as to apply textured hydroxylapatite coatings onto titanium surfaces. Moreover, due to the low heat power of the microplasma jet, overheating of the powder particles as well as excessive local overheating of the substrate is reduced. Furthermore, because of the small laminar plasma jet, it is possible to achieve high spray efficiency in the case of spraying of dental implants. Additionally, the low level of noise (25–50 dB) and hardly any dust makes it possible to operate the MSE under normal workroom conditions.</div>
</front>
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