The effect of whole‐body vibration on peri‐implant bone healing in rats
Identifieur interne : 004457 ( Main/Exploration ); précédent : 004456; suivant : 004458The effect of whole‐body vibration on peri‐implant bone healing in rats
Auteurs : Toru Ogawa [Belgique, Japon] ; Xiaolei Zhang [Belgique] ; Ignace Naert [Belgique] ; Peter Vermaelen [Belgique] ; Christophe M. Deroose [Belgique] ; Keiichi Sasaki [Japon] ; Joke Duyck [Belgique]Source :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2011-03.
Descripteurs français
- Wicri :
- topic : Industrie mécanique, Médecine nucléaire.
English descriptors
- KwdEn :
- Anova, Bone formation, Bone fraction, Bone healing, Bone marrow stromal cells, Bone response, Bone scintigraphy, Consecutive frequency steps, Control animals, Control group, Control groups, Cylindrical implants, Dental implants, Duyck, Early loading, Engineering design, Fracture healing, Goodfellow cambridge, Healing, Healing period, Healing time, Healing time anova, Histomorphometrical, Histomorphometrical analyses, Histomorphometrical results, Immediate implant loading, Implant, Implant installation, Implant osseointegration, Implant surface, Implants research, International journal, John wiley sons, Katholieke universiteit leuven, Leuven, Lmhf, Lmhf loading, Loading, Loading anova, Loading conditions, Loading effect, Lower limb, Mechanical engineering, Mechanical signals, Mechanical strain, Molecular imaging, Molecular pathways, Nuclear medicine, Ogawa, Oral impl, Oral maxillofacial implants, Oral pathology, Osseointegration, Ovariectomized rats, Pilot study, Plain radiographs, Positive effect, Positron emission tomography, Prosthetic dentistry, Proximal metaphysis, Reference site, Reference sites, Roi1, Roi2, Rubin, Rubin mcleod, Sasaki, Test animals, Test group, Tibia, Titanium implants, Uptake ratio, Vibration, Vibration device, Vibration effect, Xation plate.
- Teeft :
- Anova, Bone formation, Bone fraction, Bone healing, Bone marrow stromal cells, Bone response, Bone scintigraphy, Consecutive frequency steps, Control animals, Control group, Control groups, Cylindrical implants, Dental implants, Duyck, Early loading, Engineering design, Fracture healing, Goodfellow cambridge, Healing, Healing period, Healing time, Healing time anova, Histomorphometrical, Histomorphometrical analyses, Histomorphometrical results, Immediate implant loading, Implant, Implant installation, Implant osseointegration, Implant surface, Implants research, International journal, John wiley sons, Katholieke universiteit leuven, Leuven, Lmhf, Lmhf loading, Loading, Loading anova, Loading conditions, Loading effect, Lower limb, Mechanical engineering, Mechanical signals, Mechanical strain, Molecular imaging, Molecular pathways, Nuclear medicine, Ogawa, Oral impl, Oral maxillofacial implants, Oral pathology, Osseointegration, Ovariectomized rats, Pilot study, Plain radiographs, Positive effect, Positron emission tomography, Prosthetic dentistry, Proximal metaphysis, Reference site, Reference sites, Roi1, Roi2, Rubin, Rubin mcleod, Sasaki, Test animals, Test group, Tibia, Titanium implants, Uptake ratio, Vibration, Vibration device, Vibration effect, Xation plate.
Abstract
Purpose: The aim of this study was to evaluate the effect of low‐magnitude, high‐frequency (LMHF) loading, applied by means of whole‐body vibration (WBV), on peri‐implant bone healing and implant osseointegration in rat tibiae.
Url:
DOI: 10.1111/j.1600-0501.2010.02020.x
Affiliations:
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Le document en format XML
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<term>Bone formation</term>
<term>Bone fraction</term>
<term>Bone healing</term>
<term>Bone marrow stromal cells</term>
<term>Bone response</term>
<term>Bone scintigraphy</term>
<term>Consecutive frequency steps</term>
<term>Control animals</term>
<term>Control group</term>
<term>Control groups</term>
<term>Cylindrical implants</term>
<term>Dental implants</term>
<term>Duyck</term>
<term>Early loading</term>
<term>Engineering design</term>
<term>Fracture healing</term>
<term>Goodfellow cambridge</term>
<term>Healing</term>
<term>Healing period</term>
<term>Healing time</term>
<term>Healing time anova</term>
<term>Histomorphometrical</term>
<term>Histomorphometrical analyses</term>
<term>Histomorphometrical results</term>
<term>Immediate implant loading</term>
<term>Implant</term>
<term>Implant installation</term>
<term>Implant osseointegration</term>
<term>Implant surface</term>
<term>Implants research</term>
<term>International journal</term>
<term>John wiley sons</term>
<term>Katholieke universiteit leuven</term>
<term>Leuven</term>
<term>Lmhf</term>
<term>Lmhf loading</term>
<term>Loading</term>
<term>Loading anova</term>
<term>Loading conditions</term>
<term>Loading effect</term>
<term>Lower limb</term>
<term>Mechanical engineering</term>
<term>Mechanical signals</term>
<term>Mechanical strain</term>
<term>Molecular imaging</term>
<term>Molecular pathways</term>
<term>Nuclear medicine</term>
<term>Ogawa</term>
<term>Oral impl</term>
<term>Oral maxillofacial implants</term>
<term>Oral pathology</term>
<term>Osseointegration</term>
<term>Ovariectomized rats</term>
<term>Pilot study</term>
<term>Plain radiographs</term>
<term>Positive effect</term>
<term>Positron emission tomography</term>
<term>Prosthetic dentistry</term>
<term>Proximal metaphysis</term>
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<term>Reference sites</term>
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<term>Roi2</term>
<term>Rubin</term>
<term>Rubin mcleod</term>
<term>Sasaki</term>
<term>Test animals</term>
<term>Test group</term>
<term>Tibia</term>
<term>Titanium implants</term>
<term>Uptake ratio</term>
<term>Vibration</term>
<term>Vibration device</term>
<term>Vibration effect</term>
<term>Xation plate</term>
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<term>Bone formation</term>
<term>Bone fraction</term>
<term>Bone healing</term>
<term>Bone marrow stromal cells</term>
<term>Bone response</term>
<term>Bone scintigraphy</term>
<term>Consecutive frequency steps</term>
<term>Control animals</term>
<term>Control group</term>
<term>Control groups</term>
<term>Cylindrical implants</term>
<term>Dental implants</term>
<term>Duyck</term>
<term>Early loading</term>
<term>Engineering design</term>
<term>Fracture healing</term>
<term>Goodfellow cambridge</term>
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<term>Healing period</term>
<term>Healing time</term>
<term>Healing time anova</term>
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<term>Histomorphometrical analyses</term>
<term>Histomorphometrical results</term>
<term>Immediate implant loading</term>
<term>Implant</term>
<term>Implant installation</term>
<term>Implant osseointegration</term>
<term>Implant surface</term>
<term>Implants research</term>
<term>International journal</term>
<term>John wiley sons</term>
<term>Katholieke universiteit leuven</term>
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<term>Lmhf</term>
<term>Lmhf loading</term>
<term>Loading</term>
<term>Loading anova</term>
<term>Loading conditions</term>
<term>Loading effect</term>
<term>Lower limb</term>
<term>Mechanical engineering</term>
<term>Mechanical signals</term>
<term>Mechanical strain</term>
<term>Molecular imaging</term>
<term>Molecular pathways</term>
<term>Nuclear medicine</term>
<term>Ogawa</term>
<term>Oral impl</term>
<term>Oral maxillofacial implants</term>
<term>Oral pathology</term>
<term>Osseointegration</term>
<term>Ovariectomized rats</term>
<term>Pilot study</term>
<term>Plain radiographs</term>
<term>Positive effect</term>
<term>Positron emission tomography</term>
<term>Prosthetic dentistry</term>
<term>Proximal metaphysis</term>
<term>Reference site</term>
<term>Reference sites</term>
<term>Roi1</term>
<term>Roi2</term>
<term>Rubin</term>
<term>Rubin mcleod</term>
<term>Sasaki</term>
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<term>Test group</term>
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<term>Titanium implants</term>
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<front><div type="abstract">Purpose: The aim of this study was to evaluate the effect of low‐magnitude, high‐frequency (LMHF) loading, applied by means of whole‐body vibration (WBV), on peri‐implant bone healing and implant osseointegration in rat tibiae.</div>
</front>
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<li>Japon</li>
</country>
<region><li>Province du Brabant flamand</li>
<li>Région flamande</li>
</region>
<settlement><li>Louvain</li>
</settlement>
<orgName><li>Katholieke Universiteit Leuven</li>
</orgName>
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<tree><country name="Belgique"><region name="Région flamande"><name sortKey="Ogawa, Toru" sort="Ogawa, Toru" uniqKey="Ogawa T" first="Toru" last="Ogawa">Toru Ogawa</name>
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<name sortKey="Deroose, Christophe M" sort="Deroose, Christophe M" uniqKey="Deroose C" first="Christophe M." last="Deroose">Christophe M. Deroose</name>
<name sortKey="Duyck, Joke" sort="Duyck, Joke" uniqKey="Duyck J" first="Joke" last="Duyck">Joke Duyck</name>
<name sortKey="Naert, Ignace" sort="Naert, Ignace" uniqKey="Naert I" first="Ignace" last="Naert">Ignace Naert</name>
<name sortKey="Vermaelen, Peter" sort="Vermaelen, Peter" uniqKey="Vermaelen P" first="Peter" last="Vermaelen">Peter Vermaelen</name>
<name sortKey="Zhang, Xiaolei" sort="Zhang, Xiaolei" uniqKey="Zhang X" first="Xiaolei" last="Zhang">Xiaolei Zhang</name>
</country>
<country name="Japon"><noRegion><name sortKey="Ogawa, Toru" sort="Ogawa, Toru" uniqKey="Ogawa T" first="Toru" last="Ogawa">Toru Ogawa</name>
</noRegion>
<name sortKey="Sasaki, Keiichi" sort="Sasaki, Keiichi" uniqKey="Sasaki K" first="Keiichi" last="Sasaki">Keiichi Sasaki</name>
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