Introduction to the Program

Ponte al día con TECH en los fundamentos del análisis cefalométrico y ahonda en su importancia en el diagnóstico de tratamientos ortodónticos”

La tecnología ha permitido en el ámbito odontológico la planificación previa y la visualización en 3D de la anatomía dental y las estructuras adyacentes. Esto ha redundado en una preparación precisa y conservadora de la estructura dental. Del mismo modo, los escáneres intraorales y las impresoras 3D se vienen utilizando para la fabricación de restauraciones dentales como carillas, Inlays y Onlays, facilitando una adaptación precisa a la estructura dental natural. Sin duda, se trata de toda una revolución en esta ciencia de la Salud, y la puesta al día de los odontólogos en estas herramientas es prácticamente obligatoria.

Por este motivo surge esta Postgraduate diploma, con el que los profesionales de la Odontología podrán manejar con solvencia tecnologías digitales útiles en la práctica clínica. Para ello, recorrerán la toma de registros digitales, la fabricación de prótesis dentales personalizadas mediante sistemas CAD/CAM, las técnicas de Impresión 3D idóneas para la Odontología Digital o la selección de materiales adecuados. Asimismo, también harán hincapié en la planificación virtual de restauraciones y el uso de tecnologías de articuladores virtuales en la evaluación y diagnóstico de trastornos de la Oclusión dental.

Sin duda, se trata de una Postgraduate diploma sumamente completo que aportará un enorme valor al currículo del odontólogo. Además, se imparte bajo una cómoda modalidad online, lo que permite al estudiante cursar el programa desde cualquier lugar y en cualquier momento. Con solo un dispositivo con conexión a Internet, el matriculado accederá de forma ilimitada a los contenidos diseñados por un reconocido equipo docente de versada experiencia en la Odontología Digital.

Conviértete desde casa en un experto en el uso de MODJAW para planificar tratamientos de Ortodoncia”

Esta Postgraduate diploma en Digital Dental Diagnostics contiene el programa educativo más completo y actualizado del mercado. Sus características más destacadas son:

  • El desarrollo de casos prácticos presentados por expertos en Diagnóstico Odontológico Digital
  • Los contenidos gráficos, esquemáticos y eminentemente prácticos con los que está concebido recogen una información científica y práctica sobre aquellas disciplinas indispensables para el ejercicio profesional
  • Los ejercicios prácticos donde realizar el proceso de autoevaluación para mejorar el aprendizaje
  • Su especial hincapié en metodologías innovadoras 
  • Las lecciones teóricas, preguntas al experto, foros de discusión de temas controvertidos y trabajos de reflexión individual
  • La disponibilidad de acceso a los contenidos desde cualquier dispositivo fijo o portátil con conexión a internet

Lanza tu carrera aplicando la tecnología CAD/CAM para las preparaciones mínimamente invasivas en Odontología Digital tras finalizar la Postgraduate diploma”

El programa incluye, en su cuadro docente, a profesionales del sector que vierten en esta capacitación la experiencia de su trabajo, además de reconocidos especialistas de sociedades de referencia y universidades de prestigio.

Su contenido multimedia, elaborado con la última tecnología educativa, permitirá al profesional un aprendizaje situado y contextual, es decir, un entorno simulado que proporcionará una capacitación inmersiva programada para entrenarse ante situaciones reales.

El diseño de este programa se centra en el Aprendizaje Basado en Problemas, mediante el cual el profesional deberá tratar de resolver las distintas situaciones de práctica profesional que se le planteen a lo largo del curso académico. Para ello, contará con la ayuda de un novedoso sistema de vídeos interactivos realizados por reconocidos expertos.

Resuelve útiles casos prácticos sobre el sistema de carillas First It o la Secuencia de Tallado"

Benefíciate del dinamismo de un catálogo de recursos interactivos que ponen el foco en potenciar habilidades indispensables para tu práctica diaria"

Syllabus

The syllabus of the program in Digital Dental Diagnostics includes all the technological advances that are being applied in dental clinics, so each topic will be extremely useful for the students. One of the advantages of the program is its flexibility, which allows students to adapt their study pace to their personal and professional lives. In addition, this program uses the Relearning methodology, which consists of the directed reiteration of the concepts of the syllabus through dynamic educational resources, such as explanatory videos or interactive diagrams.

Access the syllabus with the most global and up-to-date vision of Digital Dental Diagnosis. Don't even think about it!"

Module 1. Cephalometric analysis and photography

1.1. Basics of Photography

1.1.1. The Non-Digital Image
1.1.2. The Digital Image
1.1.3. The Detail
1.1.4. Advice

1.2. Photography in Science

1.2.1. Photography Uses
1.2.2. Case Documentation
1.2.3. Hospital Photography
1.2.4. Social Media

1.3. Photography in Dentistry

1.3.1. Photography in Orthodontics
1.3.2. Photography in Implant Dentistry
1.3.3. Photography in Periodontics
1.3.4. Photography in Dental Esthetics

1.4. Dental Photography Purposes

1.4.1. Patient Communication
1.4.2. Laboratory Communication
1.4.3. Legal Communication
1.4.4. Artistic

1.5. The Photographic Camera

1.5.1. Cameras Types
1.5.2. Camera Parts
1.5.3. Phone Camera
1.5.4. Lenses

1.6. Camera Elements

1.6.1. Flashes
1.6.2. Light Control
1.6.3. Exhibitions
1.6.4. A Learning Curve

1.7. Handling Photography

1.7.1. Diaphragm
1.7.2. Speed
1.7.3. Focus
1.7.4. Match

1.8. Digital Development, Storage and Design

1.8.1. Image Storage
1.8.2. Formats
1.8.3. Digital Development
1.8.4. Program Design

1.9. BSB Digital Cephalometry

1.9.1. Fundamentals of Digital Cephalometry in Dentistry
1.9.2. Scanning Technologies in Digital Cephalometry
1.9.3. Interpretation of Digital Cephalometric Data
1.9.4. Clinical Applications of Digital Cephalometry

1.10. Digital Cephalometry Programs (Ortokid)

1.10.1. Program Installation
1.10.2. Patient Discharge
1.10.3. Placement of Reference Points
1.10.4. Study Selection

Module 2. Digital Flow Minimally invasive preparations, cam systems,  laboratory and chairside

2.1. First Fit Veneer System

2.1.1. Record Taking
2.1.2. Web Loading
2.1.3. Mockup
2.1.4. Milling Sequence

2.2. Cementation in the Clinic

2.2.1. Types of Dental Cements and Their Properties
2.2.2. Selection of the Appropriate Dental Cement for Each Clinical Case
2.2.3. Cementation Protocol for Veneers, Crowns and Bridges
2.2.4. Preparation of the Tooth Surface Prior to Cementation

2.3. Laboratory

2.3.1. Digital Dental Materials: Types, Properties and Applications in Dentistry
2.3.2. Fabrication of Ceramic Veneers and Crowns with CAD/CAM Systems
2.3.3. Fabrication of Fixed Bridges Using CAD/CAM Systems
2.3.4. Fabrication of Removable Prostheses Using CAD/CAM Systems

2.4. 3D Printing

2.4.1. Types of 3D Printers Used in Digital Dentistry
2.4.2. Design and 3D Printing of Studio and Working Models
2.4.3. 3D Printing of Surgical Guides and Surgical Splints
2.4.4. 3D Printing of Models for the Manufacture of Surgical Guides and Surgical Splints
2.4.5. 3D Printing of Models for the Fabrication of Dental Prostheses

2.5. XY Resolution and Z Resolution

2.5.1. Selection and Use of Materials for Digital Dental Restorations
2.5.2. Integration of Digital Dentistry in the Clinic
2.5.3. XY Resolution and Z Resolution 3D Printers
2.5.4. Virtual Planning of Dental Restoration

2.6. Resin Types

2.6.1. Model Resins
2.6.2. Sterilizable Resins
2.6.3. Temporary Tooth Resins
2.6.4. Resins for Definitive Teeth

2.7. Millers

2.7.1. Milling Machines for Direct Restorations
2.7.2. Milling Machines for Indirect Restorations
2.7.3. Milling Cutters for Fissure Sealing and Caries Prevention
2.7.4. Orthodontic Milling Cutters

2.8. Sinterizers

2.8.1. Synthesizers and Their Role in the Preparation of Conservative Dental Crowns
2.8.2. Application of CAD/CAM Technology for the Preparation of Minimally Invasive Preparations in Digital Dentistry
2.8.3. New Digital Techniques and Technologies for Minimally Invasive Preparation of Dental Inlays and Onlays
2.8.4. Virtual Tooth Preparation Software Systems and Their Use in Minimally Invasive Preparation Planning

2.9. Model Pro Model Manufacturing

2.9.1. Accurate Model Fabrication Using Intraoral Scanning Technology for Minimally Invasive Preparations
2.9.2. Minimally Invasive Preparation Planning Using Digital Models and CAD/CAM Technology
2.9.3. Fabrication of Models for the Preparation of Minimally Invasive Dental Veneers
2.9.4. Digital Modes and Their Role in the Preparation of Conservative Dental Crowns

2.10. Dental Printers vs. Generic Printers

2.10.1. Dental Printers versus Generic Printers
2.10.2. Comparison of the Technical Characteristics of Dental and Generic Printers for the Fabrication of Dental Restorations
2.10.3. Dental Printers and Their Role in Minimally Invasive Preparation of Customized Dentures
2.10.4. Generic Printers and Their Adaptability to the Fabrication of Dental Prostheses

Module 3. Virtual articulator and occlusion

3.1. Virtual Articulator

3.1.1. Virtual Articulator and Its Use in the Planning of Dental Prostheses in Digital Dentistry
3.1.2. New Techniques and Digital Technologies for the Use of Virtual Articulators in Digital Dentistry
3.1.3. Occlusion in Digital Dentistry and Its Relation with the Use of Virtual Articulator
3.1.4. Digital Occlusion Planning and the Use of the Virtual Articulator in Aesthetic Dentistry

3.2. TEKSCAN

3.2.1. File Import
3.2.2. Implant Placement
3.2.3. Splint Design
3.2.4. Stl Export

3.3. TEETHAN

3.3.1. File Import
3.3.2. Implant Placement
3.3.3. Splint Design
3.3.4. Stl Export

3.4. Different Virtual Articulators

3.4.1. The Most Important
3.4.2. Development and Application of Virtual Articulator Technologies in the Assessment and Treatment of Temporomandibular Disorders (TMD)
3.4.3. Application of Virtual Articulator Technologies in the Planning of Dental Prostheses in Digital Dentistry
3.4.4. Use of Virtual Articulator Technologies in the Assessment and Diagnosis of Dental Occlusion Disorders in Digital Dentistry

3.5. Design of Dental Restorations and Prostheses with Virtual Articulator

3.5.1. Use of Virtual Articulator in the Design and Fabrication of Removable Partial Dentures in Digital Dentistry
3.5.2. Design of Dental Restorations with Virtual Articulator for Patients with Dental Occlusion Disorders in Digital Dentistry
3.5.3. Total Denture Design with Virtual Articulator in Digital Dentistry: Planning, Execution and Follow-Up
3.5.4. Use of Virtual Articulator in Interdisciplinary Orthodontic Planning and Design in Digital Dentistry

3.6. MODJAW

3.6.1. UUse of MODJAW in Orthodontic Treatment Planning in Digital Dentistry
3.6.2. Application of MODJAW in the Assessment and Diagnosis of Temporomandibular Disorders (TMD) in Digital Dentistry
3.6.3. Use of MODJAW in the Planning of Dental Prostheses in Digital Dentistry
3.6.4. MODJAW and Its Relationship to Dental Aesthetics in Digital Dentistry

3.7. Positioning

3.7.1. Files
3.7.2. Tiara
3.7.3. Butterfly
3.7.4. Models

3.8. Transaction Log

3.8.1. Protrusion
3.8.2. Opening
3.8.3. Lateralities
3.8.4. Chewing

3.9. Location of Mandibular Axis

3.9.1. Centric Relation
3.9.2. Maximum Opening without Displacement
3.9.3. Click Log
3.9.4. Bite Restructuring

3.10. Export to Design Programs

3.10.1. Use of Export to Design Programs in Orthodontic Treatment Planning in Digital Dentistry
3.10.2. Application of Export to Design Programs in Dental Prostheses Treatment Planning in Digital Dentistry
3.10.3. Export to Design Programs and Their Relationship with Dental Aesthetics in Digital Dentistry
3.10.4. Export to Design Programs in the Assessment and Diagnosis of Dental Occlusion Disorders in Digital Dentistry

You will only need a PC or Tablet with an Internet connection to benefit from a program of international caliber on Digital Dental Diagnostics"

Postgraduate Diploma in Digital Dental Diagnostics

The evolution of technology in the field of dentistry has been decisive in the implementation of new diagnostic procedures and tools. At TECH Global University, aware of the need for academic updating in this area, we have developed the Postgraduate Diploma program in Digital Dental Diagnosis. This postgraduate course focuses on the management and application of advanced diagnostic technologies, with special emphasis on digital radiology and imaging applied to dentistry.

In the Postgraduate Diploma program in Digital Diagnostic Dentistry you will deepen your knowledge and practical management of the different technological tools used in modern dentistry. These include: image analysis using the latest generation software, the preparation of surgical plans and guides using CAD/CAM technology, and the application of 3D printing techniques for the creation of dental prostheses. In addition, aspects related to telemedicine and telediagnosis will be studied, which will allow specialized professionals to expand their field of action and deal more efficiently with cases that require remote care.