The influence of stiffness of implant‐abutment connection on load‐deflection ratios of a screw‐retained stiff cantilever beam. 3‐D measurements in vitro
Identifieur interne : 002851 ( Main/Exploration ); précédent : 002850; suivant : 002852The influence of stiffness of implant‐abutment connection on load‐deflection ratios of a screw‐retained stiff cantilever beam. 3‐D measurements in vitro
Auteurs : Björn Cassel [Suède] ; Dan Lundgren [Suède] ; Dan Karlsson [Suède]Source :
- Clinical Oral Implants Research [ 0905-7161 ] ; 2013-11.
English descriptors
- KwdEn :
- Abutment, Abutment screw, Beam axis, Biocare, Biomechanical aspects, Bjorn cassel, Branemark, Branemark implant, Branemark implant system, Branemark implants, Cantilever, Cantilever beam, Cantilever loads, Cassel, Clinical perspective, Clinical situation, Consecutive measurements, Corresponding moments, Different load levels, Entire periphery, Estheticone nobel biocare, Force transducer, Gold cylinder, Green circle, Horizontal movements, Horizontal position, Imaginary tooth, Implant, Implant components, Implantabutment unit, Implants research, International journal, John wiley sons, John wiley sons cassel, Load levels, Loading device, Long axis, Lundgren, Lundgren laurell, Maximal loading, Maximum load, Median values, Motion analysis system, Natural teeth, Natural tooth, Nobel biocare, Optoelectronic method, Oral impl, Oral maxillofacial implants, Osseointegrated endosseous implants, Other components, Partial dentures, Partial prostheses, Preload conditions, Prosthesis, Prosthetic gold screw, Prosthetic screw, Relative contribution, Relative values, Right side, Screw joints, Screwretained units, Shear load, Shear loading, Statistical difference, Steel plate, Stiff cantilever beam, Stiffer system, Stiffness, Tooth mobility, Torque force, Upper surface.
- Teeft :
- Abutment, Abutment screw, Beam axis, Biocare, Biomechanical aspects, Bjorn cassel, Branemark, Branemark implant, Branemark implant system, Branemark implants, Cantilever, Cantilever beam, Cantilever loads, Cassel, Clinical perspective, Clinical situation, Consecutive measurements, Corresponding moments, Different load levels, Entire periphery, Estheticone nobel biocare, Force transducer, Gold cylinder, Green circle, Horizontal movements, Horizontal position, Imaginary tooth, Implant, Implant components, Implantabutment unit, Implants research, International journal, John wiley sons, John wiley sons cassel, Load levels, Loading device, Long axis, Lundgren, Lundgren laurell, Maximal loading, Maximum load, Median values, Motion analysis system, Natural teeth, Natural tooth, Nobel biocare, Optoelectronic method, Oral impl, Oral maxillofacial implants, Osseointegrated endosseous implants, Other components, Partial dentures, Partial prostheses, Preload conditions, Prosthesis, Prosthetic gold screw, Prosthetic screw, Relative contribution, Relative values, Right side, Screw joints, Screwretained units, Shear load, Shear loading, Statistical difference, Steel plate, Stiff cantilever beam, Stiffer system, Stiffness, Tooth mobility, Torque force, Upper surface.
Abstract
The purpose of this in vitro study was to investigate the influence of degree of stiffness of implant‐abutment connection of a Brånemark implant system on load‐ deflection ratios in three dimensions of the beam‐end of a screw‐retained stiff cantilever beam when subjected to vertically directed loads.
Url:
DOI: 10.1111/j.1600-0501.2012.02563.x
Affiliations:
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Le document en format XML
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<term>Biomechanical aspects</term>
<term>Bjorn cassel</term>
<term>Branemark</term>
<term>Branemark implant</term>
<term>Branemark implant system</term>
<term>Branemark implants</term>
<term>Cantilever</term>
<term>Cantilever beam</term>
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<term>Clinical situation</term>
<term>Consecutive measurements</term>
<term>Corresponding moments</term>
<term>Different load levels</term>
<term>Entire periphery</term>
<term>Estheticone nobel biocare</term>
<term>Force transducer</term>
<term>Gold cylinder</term>
<term>Green circle</term>
<term>Horizontal movements</term>
<term>Horizontal position</term>
<term>Imaginary tooth</term>
<term>Implant</term>
<term>Implant components</term>
<term>Implantabutment unit</term>
<term>Implants research</term>
<term>International journal</term>
<term>John wiley sons</term>
<term>John wiley sons cassel</term>
<term>Load levels</term>
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<term>Lundgren laurell</term>
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<term>Maximum load</term>
<term>Median values</term>
<term>Motion analysis system</term>
<term>Natural teeth</term>
<term>Natural tooth</term>
<term>Nobel biocare</term>
<term>Optoelectronic method</term>
<term>Oral impl</term>
<term>Oral maxillofacial implants</term>
<term>Osseointegrated endosseous implants</term>
<term>Other components</term>
<term>Partial dentures</term>
<term>Partial prostheses</term>
<term>Preload conditions</term>
<term>Prosthesis</term>
<term>Prosthetic gold screw</term>
<term>Prosthetic screw</term>
<term>Relative contribution</term>
<term>Relative values</term>
<term>Right side</term>
<term>Screw joints</term>
<term>Screwretained units</term>
<term>Shear load</term>
<term>Shear loading</term>
<term>Statistical difference</term>
<term>Steel plate</term>
<term>Stiff cantilever beam</term>
<term>Stiffer system</term>
<term>Stiffness</term>
<term>Tooth mobility</term>
<term>Torque force</term>
<term>Upper surface</term>
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<term>Abutment screw</term>
<term>Beam axis</term>
<term>Biocare</term>
<term>Biomechanical aspects</term>
<term>Bjorn cassel</term>
<term>Branemark</term>
<term>Branemark implant</term>
<term>Branemark implant system</term>
<term>Branemark implants</term>
<term>Cantilever</term>
<term>Cantilever beam</term>
<term>Cantilever loads</term>
<term>Cassel</term>
<term>Clinical perspective</term>
<term>Clinical situation</term>
<term>Consecutive measurements</term>
<term>Corresponding moments</term>
<term>Different load levels</term>
<term>Entire periphery</term>
<term>Estheticone nobel biocare</term>
<term>Force transducer</term>
<term>Gold cylinder</term>
<term>Green circle</term>
<term>Horizontal movements</term>
<term>Horizontal position</term>
<term>Imaginary tooth</term>
<term>Implant</term>
<term>Implant components</term>
<term>Implantabutment unit</term>
<term>Implants research</term>
<term>International journal</term>
<term>John wiley sons</term>
<term>John wiley sons cassel</term>
<term>Load levels</term>
<term>Loading device</term>
<term>Long axis</term>
<term>Lundgren</term>
<term>Lundgren laurell</term>
<term>Maximal loading</term>
<term>Maximum load</term>
<term>Median values</term>
<term>Motion analysis system</term>
<term>Natural teeth</term>
<term>Natural tooth</term>
<term>Nobel biocare</term>
<term>Optoelectronic method</term>
<term>Oral impl</term>
<term>Oral maxillofacial implants</term>
<term>Osseointegrated endosseous implants</term>
<term>Other components</term>
<term>Partial dentures</term>
<term>Partial prostheses</term>
<term>Preload conditions</term>
<term>Prosthesis</term>
<term>Prosthetic gold screw</term>
<term>Prosthetic screw</term>
<term>Relative contribution</term>
<term>Relative values</term>
<term>Right side</term>
<term>Screw joints</term>
<term>Screwretained units</term>
<term>Shear load</term>
<term>Shear loading</term>
<term>Statistical difference</term>
<term>Steel plate</term>
<term>Stiff cantilever beam</term>
<term>Stiffer system</term>
<term>Stiffness</term>
<term>Tooth mobility</term>
<term>Torque force</term>
<term>Upper surface</term>
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<front><div type="abstract">The purpose of this in vitro study was to investigate the influence of degree of stiffness of implant‐abutment connection of a Brånemark implant system on load‐ deflection ratios in three dimensions of the beam‐end of a screw‐retained stiff cantilever beam when subjected to vertically directed loads.</div>
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<orgName><li>Université de Göteborg</li>
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<name sortKey="Cassel, Bjorn" sort="Cassel, Bjorn" uniqKey="Cassel B" first="Björn" last="Cassel">Björn Cassel</name>
<name sortKey="Karlsson, Dan" sort="Karlsson, Dan" uniqKey="Karlsson D" first="Dan" last="Karlsson">Dan Karlsson</name>
<name sortKey="Lundgren, Dan" sort="Lundgren, Dan" uniqKey="Lundgren D" first="Dan" last="Lundgren">Dan Lundgren</name>
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