Accuracy of Full Digital Workflow for Dental Implants Insertion in Partially Edentulous Patients
Accuracy of Full Digital Workflow for Dental Implants Insertion in Partially Edentulous Patients

Author: Burlibasa M

Publisher:

Published: 2017

Total Pages:

ISBN-13:

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Background: Static computer-aided implant surgery is a predictable and widely accepted procedure, its accuracy being within the clinical acceptable range in the majority of clinical situations. Usually the 3D model of the bone and surrounding structures is obtained via cone beam computed tomography (CBCT) and the patientu2019s oral condition can be acquired conventionally and then digitalized using a desktop scanner - partially digital workflow (DW) or digitally with the aid of an intraoral scanner - full DW.The aim of the present pilot study is to compare the accuracy of a full digital workflow to partially digital workflow for a limited edentulous space (1 to 3 dental units) using an inspection tool software. Null hypothesis tested: full digital WF is more accurate comparing to partially DW.Materials and methods: The study was conducted in accordance with ethical principles including the World Medical Association Declaration of Helsinki, approved by the University Bioethical Committee, registered (ClinicalTrials.gov Identifier: NCT03814655) and written consent of each subject was obtained.Patients with Kennedy Class III partially edentulism, good general health, acceptance of dental implant treatment, acceptance of pre-operative CBCT, not requiring bone graft, not limited mouth opening were included.The full DW included: intraoral scan of the partially edentulous site, antagonists and occlusion registration, CBCT with radiopaque customized tray placed over the partially edentulous arch; merging files in R2 Gate planning software (Megagen, Korea), implant placement and digital scanning of implants position (.stl u2013 Stereolithography file).In the partially DW, digital impression was replaced with a conventional impression and poured casts are scanned with a desktop scanner.Results: 20 patients were enrolled in this prospective, pilot study and 38 implants were inserted using tooth-supported surgical templates and a flapless technique. Neither complications nor unexpected events occurred during implants insertion.22 implants were inserted using full DW. Inserted and planned implant position were compared using Geomagic Qualify 2013 software (3D Systems,USA).The mean 3D errors of implant positioning for the two insertion protocols were: 0.62mm (u00b10.42) entry point, 0.98mm (u00b10.73) at the implant apex, 2.1 (u00b10.35) angular deviation for full DW, respectively 0.68(u00b10.57), 1.02mm (u00b10.43) and 2.4 (u00b10.22) for partially DW. The t test for implant position showed no statistically significant differences (p > .05) in accuracy between full DW and partially DW, rejecting the null hypothesis tested.Conclusions and clinical implications: Within the limits of the present pilot study, the surgical template used has proved high accuracy for implant insertion, both in full and partially DW.The results of this study suggest that a full digital workflow for computer-guided implant surgery in partially edentulous patients is a reliable method and could be used in clinical situations.

Digital Workflows in Implant Dentistry
Digital Workflows in Implant Dentistry

Author: German O. Gallucci

Publisher: Quintessenz Verlag

Published: 2019-12-16

Total Pages: 521

ISBN-13: 3868674993

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The field of implant dentistry continues to grow both in terms of the number of practitioners placing and restoring implants and in terms of as well as patient demand for successful outcomes in as short a time as possible. The pace of technological changes and new offerings from implant manufacturers and allied industries are equally fast in their attempts to meet these demands, with a frequently bewildering array of potential solutions available to clinicians. This is never more so than in the field of digital dentistry, with hardware and software solutions for diagnosis, imaging, planning, surgery, impression-taking, and the computer-aided design and manufacture of intraoral prostheses. However, we must always remember our responsibility to ensure that our treatments are carried out safely and in the best interests of our patients. This new Volume 11 of the ITI Treatment Guide series continues the successful theme of the previous ten volumes: a compendium of evidence-based methodology in digital techniques and procedures for daily practice. Written by renowned clinicians and supported by contributions from expert practitioners, the ITI Treatment Guide Digital Workflows in Implant Dentistry provides a comprehensive overview of various technological options and their safe clinical application.

A Full Digital Workflow for Computer-guided Implant Surgery in Edentulous Patients
A Full Digital Workflow for Computer-guided Implant Surgery in Edentulous Patients

Author: Byung-Ho Choi

Publisher:

Published: 2017

Total Pages:

ISBN-13:

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Objectives:Computer-guided surgery has been validated since the introduction of digital technology in the early 2000s as an efficient and reliable procedure for obtaining functional and aesthetic outcomes. The purpose of this article is to describe a fully digital workflow that was used to perform computer-guided flapless implant placement in an edentulous patient without the use of conventional impressions, model casting and a radiographic guide. Material and Methods:The digital data for the workflow was acquired using an intraoral scanner and cone-beam computed tomography (CBCT). The image fusion of the intraoral scan data and the CBCT data was performed by matching the resin markers placed in the patientu2019s mouth. The definitive digital data were then used to design a prosthetically driven implant position, a surgical template and a computer-aided design/computer-aided manufacturing (CAD/CAM)-fabricated fixed dental prosthesis. Immediate restoration was performed using surgical templates and fixed dental prosthesis immediately after implant placement. After implant placement, accuracy of implant placement was evaluated using a 3D image processing software. Results: The average angular deviation between the planned and placed implant positions was 1.1u00b0 with a minimum deviation of 0u00b0 and maximum deviation of 3.2u00b0.Conclusions:The results of this study suggest that a full digital workflow for computer-guided implant surgery in edentulous patients is a reliable method.

The Digital Workflow in Implant Dentistry
The Digital Workflow in Implant Dentistry

Author:

Publisher:

Published: 2023

Total Pages: 0

ISBN-13: 9789083360140

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Inserting dental implants to replace missing teeth is a well-established treatment concept. New digital developments are being introduced rapidly and are supposed to improve this already successful treatment modality. These digital techniques should improve predictability, reduce complications and make the treatments more efficient or cost-effective. The aim of this thesis was to evaluate some of these - already commercially available - new digital developments in implantology. The techniques studied in this thesis involve three major steps in this digital workflow. 1. Implant placement using 'static computer guided surgery'. Meaning that the implants are inserted utilizing a drill guide – based on a three-dimensional pre-operative planning – to force the drills and implants in the correct direction. This planning requires the merging two three-dimensional scan files: an x-ray made with a cone beam CT scanner (CBCT) and a surface scan of the remaining teeth and gums made with an intraoral optical scanner (IOS). The merging of these scan files is called superimposing and facilitates the visualization of all important (anatomical) structures, allowing a pre-operative prosthetic- and surgical plan. When the plan is finished a 3D Printer creates a drill guide and the implants are placed accordingly. The prospective clinical trial of this thesis focused on tooth-supported drill guides in partially edentulous patients to replace one, two or three posterior teeth per treated side. 2. When these implants are osseointegrated several months later, these same IOS can be used to register the exact location of these implants. This registration is necessary to create a well-fitting restoration to be fixed on these implants. This IOS is considered a 'digital impression' and can eventually replace conventional impressing techniques using compound-filled impression trays and plaster casts.

Loading Protocols in Implant Dentistry
Loading Protocols in Implant Dentistry

Author: Daniel Wismeijer

Publisher: Quintessenz Verlag

Published: 2019-09-03

Total Pages: 345

ISBN-13: 1850973458

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Implant dentistry has become a standard option for the rehabilitation of fully and partially edentulous patients. With the ever-increasing number of dentists involved in implant dentistry, it is essential to ensure that their treatment methods follow the highest standard. The ITI Treatment Guide series, a compendium of evidence-based implant-therapy techniques in daily practice, is written by renowned clinicians and provides a comprehensive overview of various therapeutic options. Using an illustrated step-by-step approach, the ITI Treatment Guide shows practitioners how to manage different clinical situations, with the emphasis on sound diagnostics, evidence-based treatment concepts, and predictable treatment outcomes. The second volume of the ITI Treatment Guide is devoted to the restoration of partially dentate patients. Central to this volume of the ITI Treatment Guide are loading protocols available to the clinician and the patient and how they relate to various treatment indications, including both single and multiple missing teeth in the posterior and anterior regions of the mouth. Among potential topics for upcoming volumes are implant placement in extraction sockets, loading protocols in edentulous patients, implant therapy in the esthetic zone in extended edentulous spaces, and many more.

Loading Protocols in Implant Dentistry
Loading Protocols in Implant Dentistry

Author: Daniel Wismeijer

Publisher: Quintessenz Verlag

Published: 2019-09-10

Total Pages: 474

ISBN-13: 1850973474

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This fourth volume of the ITI Treatment Guide series presents implant therapy approaches and procedures in edentulous patients with a special focus on loading protocols. After discussing the current evidence base in the literature and a summary of the most recent relevant ITI Consensus Statements it proceeds to guide readers through the entire treatment process. Beginning with a chapter on preoperative assessment and prosthetic planning, different treatment options for the edentulous arch are presented. They are complemented by a separate chapter on the selection of the appropriate loading protocol considering risk evaluation and the complexity of the possible treatment options. Various procedures are illustrated with patient case studies. Detailed illustrations serve to clarify potential ambiguities, and complications are addressed to avert the most common problems in clinical practice. The ITI Treatment Guide series, a unique compendium of evidence-based treatment methods in implant dentistry in daily practice, written by renowned clinicians, provides a comprehensive overview of various therapeutic options. Using an illustrated step-by-step approach, the ITI Treatment Guide shows practitioners how to manage different clinical situations, with the emphasis on sound diagnostics, evidence-based treatment concepts, and predictable treatment outcomes. Implant dentistry has become a standard option for the rehabilitation of fully and partially edentulous patients.

Digital Dental Implantology
Digital Dental Implantology

Author: Jorge M. Galante

Publisher: Springer Nature

Published: 2021-04-26

Total Pages: 210

ISBN-13: 303065947X

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This book describes the fusion of CBCT and CAD/CAM technologies for the purpose of surgical dental treatments and explains the advantages and applications of this digital approach for implant placement procedures and other oral surgical protocols. All aspects of computer-aided imaging and design are first covered in the textbook, including the creation of DICOM and STL files; followed by the process of virtual merging to obtain a combined image. Secondly, clinical tips for the use of digital wax up, software interactions and accurate template fabrication are explained, including subtractive and additive methods used for this manufacturing step. The remainder of the book is devoted to the application of technology fusion in implantology, guided bone regeneration, and maxillofacial surgery. Both static and dynamic guided surgeries are described. Materials characteristics and surgical instruments are also presented to define a correct selection criteria. The digital approach outlined in this textbook involves a paradigm shift in the way traditional oral surgery is conceived. Technology fusion aims to improve treatment accuracy, optimize clinical time and reduce patient morbidity. Clinicians will find this book to be a valuable guide for virtual surgical planning and a path to introduce themselves into the exciting world of digital dental surgery.

Accuracy of Computer-assisted Template-based Implant Placement Using Conventional Impression and Scan of a Physical Stone Model Or Intra-oral Scanning- a Randomized Controlled Trial
Accuracy of Computer-assisted Template-based Implant Placement Using Conventional Impression and Scan of a Physical Stone Model Or Intra-oral Scanning- a Randomized Controlled Trial

Author: Erta Xhanari

Publisher:

Published: 2017

Total Pages:

ISBN-13:

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Purpose: To compare accuracy and complications of computer-assisted template-based implant placement using conventional impression and scan of a physical stone model or intra-oral scanning to rehabilitate partial edentulous patients.u2028Materials and methods: Any partially edentulous patients with at least five residual teeth, requiring at least one implant to be planned on three-dimensional (3D) cone beam computed tomography (CBCT) scan according to a computer-assisted template-based protocol were enrolled. Patients were randomised according to a parallel group design into two arms: intraoral digital impression (fully digital group) or conventional impression and scan model (conventional group). Implants were placed flapless or with a minimally invasive flap and conventionally loaded after 5 months. Outcome measures were: implant and prosthetic success, complications, accuracy, and peri-implant marginal bone loss. Three deviation parameters (angular, horizontal, vertical) were defined to evaluate the discrepancy between the planned and placed implant positions. Results were compared using a mixed-model repeated-measures analysis of variance (u03b1=0.05).Results: Twenty patients (11 females and 9 males; mean age 45.4 years old) were randomised to the fully digital group (10 patients with 28 implants) or conventional group (10 patients with 29 implants). No patients dropped out. No implant or prosthesis failed up to 1 year after loading. One implants in the fully digital group was placed free-hand due to limited inter-arch space. No other complications were experienced during follow-up. Difference between groups were not statistically significant (p = 0.999). The mean error in angle was 2.32u00b11.44u00b0 (range 0.3u20135.0u00b0; 95% CI 1.17 to 2.23u00b0) in the fully digital group and 2.10u00b11.18u00b0 (range 0.3u20135.8u00b0; 95% CI 1.52 to 2.38u00b0) in the conventional group (P=0.550); in the horizontal plan (mesio-distal), the mean error was 0.52u00b10.30 mm (range 0.1u20131.10 mm; 95% CI 0.39 to 0.61 mm) in the fully digital group and 0.44u00b10.26 mm (range 0.1u20130.9 mm; 95% CI 0.30 to 0.50 mm) in the conventional group (P=0.279); in the vertical plan (apico-coronal), the mean error was 0.58u00b10.44 mm (range 0.0u20131.6 mm; 95% CI 0.44 to 0.76u00b0) in the fully digital group and 0.46u00b10.34 mm (range 0.0u20131.2 mm; 95% CI 0.28 to 0.52u00b0) in the conventional group (P=0.250). One year after loading, the mean marginal bone loss was 0.14u00b10.12 mm (range -0.1u20130.4 mm; 95% CI 0.11 to 0.19 mm) in the fully digital group and 0.18u00b10.13 mm (range -0.1u20130.6 mm; 95% CI 0.15 to 0.25 mm). The difference was not statistically significant (P = 0.2942).Conclusions: With the limitations of the present trial, intraoral digital impressions showed similar results compared to conventional impression and scan model. Digital impression may be a viable option for the rehabilitation of partial edentulous patients when computer-guided template-assisted implant placement is used.

Accuracy of Computer-assisted Template-based Implant Placement Using Conventional Impression and Scan Model Or Digital Impression- a Randomized Controlled Trial
Accuracy of Computer-assisted Template-based Implant Placement Using Conventional Impression and Scan Model Or Digital Impression- a Randomized Controlled Trial

Author: Tallarico Marco

Publisher:

Published: 2017

Total Pages:

ISBN-13:

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Aim: To compare early implant failure, template-related complications, and virtual planning accuracy of computer-assisted template-based implant placement using conventional impression and scan model or digital impression using conventional impression and scan model or digital impression to rehabilitate partial edentulous patients using flapless or mini-flap procedures and immediate loading.u2028Materials and methods: Any partially edentulous patients requiring at least 1 implant to be plan on three-dimensional (3D) cone beam computed tomography (CBCT) scans using a dedicated software were enrolled in the trial. Patients were randomised according to a parallel group design into two arms: intraoral digital impression (fully digital group) versus conventional impression and scan model (control group). Implants were to be placed flapless and loaded immediately, if inserted with a torque over 35 Ncm, with reinforced provisional prostheses. Three deviation parameters (horizontal, vertical, and angular) were defined and calculated between the planned and placed implant positions and analyzed statistically. Results were compared using a mixed-model repeated-measures analysis of variance (u03b1=0.05).Results: Twelve patients were randomised to the fully digital group (6 patients with 17 implants) and control group (6 patients with 20 implants). The mean error in angle was 2.56u00b11.52u00b0 (range 0.3u20135.0u00b0) in the fully digital group and 2.18u00b11.41u00b0 (range 0.3u20135.8u00b0) in the control group (P=0.519); in the horizontal plan (mesio-distal), the mean error was 0.57u00b10.32 mm (range 0.1u20131.1 mm) in the fully digital group and 0.43u00b10.26 mm (range 0.1u20130.9 mm) in the control group (P=0.249); in the vertical plan (apico-coronal), the mean error was 0.67u00b10.51 mm (range 0.0u20131.6 mm) in the fully digital group and 0.43u00b10.32 mm (range 0.0u20131.2 mm) in the control group (P=0.180).Conclusions: With the limitation of the present randomized controlled trial, intraoral digital impression may be a viable option to conventional impression and scan model for the rehabilitation of partial edentulous patients by using computer-guided template-assisted implant placement.

Digital Workflow in Reconstructive Dentistry
Digital Workflow in Reconstructive Dentistry

Author: Wael Att

Publisher: Quintessenz Verlag

Published: 2021-02-01

Total Pages: 467

ISBN-13: 3868675515

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Digital Workflow in Reconstructive Dentistry is the result of efforts made by the academic team at the Department of Prosthodontics, University Hospital of Freiburg. It aims to build a fundamental understanding of the general principles, science, and clinics of digital dental medicine. The information provided within these pages summarizes the various components of the digital workflow in reconstructive dentistry and discusses their advantages and disadvantages. Moreover, insights are provided about upcoming, game-changing technologies. By reading this book, students, clinicians, and researchers will gain and enhance their knowledge about digital dental medicine and identify the areas they need to focus on next in order to integrate the available technologies in their daily work. Clearly, the path of digital dental medicine will not stop here. Contributors Amirah M. R. Alammar • Abdulaziz Alsahaf • Wael Att • Maria Bateli • Jasmin Bernhart • Shaza Bishti • Sarah Blattner • Miha Brezavšček • Sandy Cepa • Nadine Emmanoulidi • Ahmed Fawzy • Manrique Fonseca • Michele Frapporti • Rumpa Ganguly • Yousef Al-Ghamdi • Petra Ch. Gierthmuehlen • Aiste Gintaute • Ulrich Lamott • Christos Lamprinos • Matthias Petsch • Udo Plaster • Aikaterini Ploumaki • Hanna Rauberger • Elisabeth Schwartzkopff • Christian F. Selz • Thamer Al-Sharif • Benedikt Spies • Frank A. Spitznagel • Jörg R. Strub • Michael Swain • Taskin Tuna • Alexander Vuck • Siegbert Witkowski