Add to ORKGPurpose: The objectives of this study are to describe, in vitro, a novel technique to measure the misfit of digitally designed and manufactured implant-supported frameworks according to a new concept based on computer-guided surgery in combination with previously placed mini-implants. Also, the digitally created framework and an impression-based milled structure were compared using strain gauge measurements. Materials and Methods: Acrylic resin and plaster models were prepared to represent the edentulous mandible. After insertion of three mini-implants in the acrylic resin model, a cone-beam computed tomographic scan was performed. The data were imported to planning software, where six implants were virtually inserted. A drill guide and tit...
Introduction: Passive fit has been considered an important requirement for the longevity of implant-...
Purpose: To evaluate the influence of different implant designs on the biomechanical environment of ...
PURPOSE: To evaluate the influence of platform switching on the biomechanical environment of implant...
Purpose: The objectives of this study are to describe, in vitro, a novel technique to measure the mi...
The passivity of the superstructure to the abutments of implant-supported prostheses is necessary fo...
BACKGROUND: New computer numeric controlled (CNC)-milled frameworks for implant-supported prostheses...
This study aims to compare in-vitro the fitting accuracy of implant-supported metal frameworks used ...
PURPOSE: To compare the volumetric misfit between implant restorative platforms of implants and impl...
Passive fit of metal frameworks has been a major concern for the researchers because of its possible...
PURPOSE: Despite the development of novel and more precise fabrication methods, absolute passive fit...
The purpose of this study is to investigate the marginal precision of CNC-milled frameworks fabricat...
Purpose: To compare vertical microgaps of milled titanium implant frameworks constructed using (1) d...
Purpose: To determine the trueness and precision of frameworks manufactured with a selective laser m...
Statement of problem. An imprecise fit between frameworks and supporting dental implants in loaded p...
STATEMENT OF PROBLEM An imprecise fit between frameworks and supporting dental implants in loaded p...
Introduction: Passive fit has been considered an important requirement for the longevity of implant-...
Purpose: To evaluate the influence of different implant designs on the biomechanical environment of ...
PURPOSE: To evaluate the influence of platform switching on the biomechanical environment of implant...
Purpose: The objectives of this study are to describe, in vitro, a novel technique to measure the mi...
The passivity of the superstructure to the abutments of implant-supported prostheses is necessary fo...
BACKGROUND: New computer numeric controlled (CNC)-milled frameworks for implant-supported prostheses...
This study aims to compare in-vitro the fitting accuracy of implant-supported metal frameworks used ...
PURPOSE: To compare the volumetric misfit between implant restorative platforms of implants and impl...
Passive fit of metal frameworks has been a major concern for the researchers because of its possible...
PURPOSE: Despite the development of novel and more precise fabrication methods, absolute passive fit...
The purpose of this study is to investigate the marginal precision of CNC-milled frameworks fabricat...
Purpose: To compare vertical microgaps of milled titanium implant frameworks constructed using (1) d...
Purpose: To determine the trueness and precision of frameworks manufactured with a selective laser m...
Statement of problem. An imprecise fit between frameworks and supporting dental implants in loaded p...
STATEMENT OF PROBLEM An imprecise fit between frameworks and supporting dental implants in loaded p...
Introduction: Passive fit has been considered an important requirement for the longevity of implant-...
Purpose: To evaluate the influence of different implant designs on the biomechanical environment of ...
PURPOSE: To evaluate the influence of platform switching on the biomechanical environment of implant...