In just 12 months you will be aware of the latest clinical and digital trends in oral rehabilitation"

The various studies on dental loss relate this absence to the appearance of diseases of the stomatognathic apparatus. An effect, on many occasions, unknown to patients who come to the dental office for repair or replacement for aesthetic reasons. Whatever the rehabilitative purpose, in recent years there have been significant advances due to new technologies that have improved the manufacture of dental pieces and their adaptation to the patient's oral characteristics.

These advances have led dental professionals to be aware of them and to include them in their daily clinical practice. In order to promote this update, TECH has developed this online university program, designed and developed by an excellent team of professionals in this area.

It is an advanced program that will take the graduate over 1,500 hours of study to delve into the most relevant digital dental advances, laboratory work, as well as the most effective techniques of prevention, diagnosis and treatment used in the most recurrent pathologies. For this, it also includes video summaries of each topic, videos in detail, specialized readings and clinical cases, provided by the teachers of this program.

Likewise, graduates will be able to balance their daily responsibilities with an education that gives them flexibility and self-management of their study time. And the fact is that, without the need to go to a center in person, or have classes with fixed schedules, students can access the syllabus of this program at any time of the day and from any electronic device with an Internet connection.

Undoubtedly, a unique educational option in accordance with the current times.

An educational option that will bring you up to date on the most resistant materials used in the realization of dental prostheses"

This Master's Degree in Dental Prosthesis contains the most complete and up-to-date scientific program on the market. The most important features include:

• The development of case studies presented by experts in Dental Prosthesis, Implantology and Oral Rehabilitation
• The graphic, schematic and practical contents with which it is conceived provide scientific and practical information on those disciplines that are essential for professional practice
• Practical exercises where self-assessment can be used to improve learning
• Its special emphasis on innovative methodologies
• Theoretical lessons, questions to the expert, debate forums on controversial topics, and individual reflection assignments
• Content that is accessible from any fixed or portable device with an Internet connection

You will be provided with clinical cases brought by leading experts in Dentistry with which you will be able to update your knowledge in Dental Prosthesis "

The program's teaching staff includes professionals from the sector who bring to this program the experience of their work, in addition to recognized specialists from prestigious reference societies and universities.

The multimedia content, developed with the latest educational technology, will provide the professional with situated and contextual learning, i.e., a simulated environment that will provide immersive education programmed to learn in real situations.

This program is designed around Problem-Based Learning, whereby the professional must try to solve the different professional practice situations that arise during the course. For this purpose, the students will be assisted by an innovative interactive video system created by renowned and experienced experts.

Delve into the approach to periprosthetic tissues to maintain their integrity and achieve a successful prosthetic rehabilitation"

The multimedia material in this program will allow you to update you on soft tissue management, impression materials and techniques used in oral rehabilitation"

Thanks to the effectiveness of the Relearning method, TECH has included it in all its programs. In this way, students who take this Master's Degree will be able to progress naturally through the syllabus as they consolidate the latest concepts. In this way, in just 12 months you will obtain a complete update in Dental Prosthesis and reduce the long hours of study and memorization. In addition, with the Virtual Library, the graduate will have additional didactic material with which to further extend the rigorous information provided in this university program.

Access from your laptop with an Internet connection to the best teaching material of the current educational field and investigate the most recent advances in Dental Prosthesis "

Module 1. Analysis, Planning and Design in Prosthesis

1.1. Concept
1.2. Medical History
1.3. Imaging Tests

1.3.1. Types of Imaging Tests Used in Dentistry
1.3.2. Indications and Contraindications of Imaging Tests
1.3.3. Interpretation of Imaging Tests Results
1.3.4. Recent Advances in Imaging Tests for Dental Prosthesis

1.4. Firm Diagnosis

1.4.1. Diagnostic Process in Prosthetic Rehabilitation
1.4.2. Importance of the Diagnosis in the Selection of Appropriate Treatment
1.4.3.  Techniques and Tools Used in the Definitive Diagnosis
1.4.4. Different Approaches to Definitive Diagnosis in Dental Prosthesis

1.5. General Classification of Prosthetic Restorations

1.5.1. Types of Prosthesis According to the Number of Teeth to be Replaced
1.5.2. Fixed vs. Removable Prosthesis
1.5.3. Materials Used in Dental Prosthesis
1.5.4. Evolution of Prosthetic Rehabilitations in the History of Dentistry

1.6. Therapeutic Variables

1.6.1. Factors Influencing the Selection of Prosthetic Treatment
1.6.2. Variables to Consider when Planning Prosthetic Rehabilitation
1.6.3. Aesthetic Considerations in the Selection of Prosthetic Treatment
1.6.4. Variables Affecting the Durability of Dental Prosthesis

1.7. Advantages and Disadvantages of the Different Methods of Prosthetic Rehabilitation Indications

1.7.1. Advantages and Disadvantages of Fixed Prosthesis
1.7.2. Advantages and Disadvantages of Removable Prosthesis
1.7.3. Indications for Fixed Prosthesis
1.7.4. Indications for Removable Prosthesis

1.8. Periprosthetic Tissue Management in Conventional Rehabilitation
1.9. Photography in Dental Prosthetsis, its Importance on the Treatment Design

1.9.1. Types of Photographs Used in Dental Prosthesis
1.9.2. Importance of Photography in Diagnosis and Prosthetic Treatment Planning
1.9.3. How to Use Photography in Communication with the Dental Laboratory and the Patient

1.10. General and Specific Contraindications of the Different Types of Prosthetic Rehabilitation

1.10.1. Contraindications for Removable Prosthesis
1.10.2. Contraindications for Fixed Prosthesis
1.10.3. Contraindications for Implant-Supported Prosthesis
1.10.4. Specific Contraindications for Prosthetic Rehabilitation in Patients with Systemic Diseases

Module 2. Occlusion

2.1. Occlusion

2.1.1. Concept
2.1.2. Classification
2.1.3. Principles

2.2. Types of Occlusion

2.2.1. Physiological Occlusion
2.2.2. Pathological Occlusion
2.2.3. Therapeutic Occlusion
2.2.4. Different Schools

2.3. Dental and Oral Anatomy Importance in Occlusion

2.3.1. Cusps and Fossa
2.3.2. Wear Facets
2.3.3. Anatomy of the Different Tooth Groups

2.4. Importance of Occlusion in Conventional and Implant Prosthesis

2.4.1. Occlusion and its Effects on Dental Function
2.4.2. Effects of Malocclusion on the TMJ and Masticatory Muscles
2.4.3. Consequences of Inadequate Occlusion on Teeth and Implants

2.5. Reference Position: Usual Position versus Centric Relation, Materials and Techniques for Recording Centric Relation in the Dentate, Partially Dentate, Edentulous, and Dysfunctional Patient

2.5.1. Habitual Position and Centric Relation: Concepts and Differences
2.5.2. Materials and Techniques for Recording Centric Relation in Dentate Patients
2.5.3. Materials and Techniques for Recording Centric Relation in Partially Dentate and Edentulous Patients
2.5.4. Materials and Techniques for Recording of Centric Relation in Patients with Temporomandibular Dysfunction

2.6. Vertical Dimension. Can the Vertical Dimension be Varied?

2.6.1. Concept and Importance of the Vertical Dimension in Occlusion
2.6.2. Techniques for Recording the Vertical Dimension
2.6.3. Physiological and Pathological Variations of the Vertical Dimension
2.6.4. Modifications of the Vertical Dimension in Dental Prosthesis

2.7. Occlusal Scheme: Bibalanced, Group and Organic Function. What is the Ideal Occlusion. Biological and Biomechanical Advantages of Organic Occlusion

2.7.1. Concept and Types of Occlusal Schemes: Bibalanced, Group Function and Organic
2.7.2. Ideal Occlusion and its Biological and Biomechanical Advantages
2.7.3. Advantages and Disadvantages of Each Type of Occlusal Scheme
2.7.4. How to Apply the Different Types of Occlusal Schemes in Clinical Practice

2.8. Disocclusion Factors: Individual Anatomical, Posterior (Condylar Path and Bennet's Angle), Anterior (Overbite, Overjet and Disocclusion Angle) and Intermediate (Spee and Wilsson Curves)

2.8.1. Individual Anatomical Factors Influencing Disocclusion
2.8.2. Posterior Factors Influencing Disocclusion: Condylar Trajectory and Bennet's Angle
2.8.3. Anterior Factors Influencing Disocclusion: Overbite, Protrusion and Disocclusion Angle
2.8.4. Intermediate Factors Influencing Disocclusion

2.9. Posterior Occlusion: Trypoidism vs. Cusp/Fossa

2.9.1. Trypoidism: Characteristics, Diagnosis and Treatment
2.9.2. Cusp/Fossa: Definition, Function and its Importance in Posterior Occlusion
2.9.3. Pathologies Associated with Posterior Occlusion

2.10. The Articulator in Daily Practice. Selection of the Ideal Articulator. Utility and Handling of the Facebow. The Reference Planes. Assembly in the Semi-Adjustable Articulator. Programming of the Semi-Adjustable Articulator. Techniques to Reproduce the Disocclusion Angle in an Articulator

2.10.1. Articulator Types: Semi-Adjustable Articulators and Fully Adjustable Articulators
2.10.2. Selection of the Ideal Articulator: Criteria for the Selection of the Appropriate Articulator According to the Clinical Case
2.10.3. Handling of the Facebow: Facebow Registration Technique for Taking Occlusal Records
2.10.4. Semi-Adjustable Articulator Programming: Procedures for Adjusting the Articulator and Programming the Mandibular Movements
2.10.5. Techniques for Reproducing the Disocclusion Angle in an Articulator: Steps for Recording and Transferring the Disocclusion Angle in the Articulator

Module 3. TMJ. TMJ Anatomy, Physiology and Dysfunction

3.1. Anatomy of the TMJ, Definition, Etiology and Prevalence of TMJ Disorders

3.1.1. Anatomical Structures Involved in the Temporomandibular Joint (TMJ)
3.1.2. TMJ Functions in Chewing and Speech
3.1.3. Muscular and Ligamentous Connections of the TMJ

3.2. Signs and Symptoms of Joint Disease

3.2.1. Associated Pain
3.2.2. Types of Joint Noises
3.2.3. Limitations
3.2.4. Deviations

3.3. Importance of the Dysfunction in Daily Practice

3.3.1. Difficulties in Chewing and Speaking
3.3.2. Chronic Pain
3.3.3. Dental and Orthodontic Problems
3.3.4. Sleep Disorders

3.4. TMJ Biomechanics

3.4.1. Mechanisms of Jaw Movement
3.4.2. Factors Influencing TMJ Stability and Functionality
3.4.3. Forces and Loads Applied to the TMJ During Chewing

3.5. Classification of Dysfunction

3.5.1. Joint Dysfunction
3.5.2. Muscular Dysfunction
3.5.3. Mixed Dysfunction

3.6. Muscular Alterations. Local Myalgia. Myofascial Pain

3.6.1. Localized Myalgia
3.6.2. Myofascial Pain
3.6.3. Muscle Spasms

3.7. Condyle-Disc Complex Alterations. Dislocation with Reduction. Dislocation with Reduction with Intermittent Locking. Dislocation without Reduction with Limitation of Opening. Dislocation without Reduction without Limitation of Opening

3.7.1. Dislocation with Reduction
3.7.2. Dislocation with Reduction with Intermittent Locking
3.7.3. Dislocation without Reduction with Limitation of Opening
3.7.4. Dislocation without Reduction without Limitation of Opening

3.8. Incompatibility of Articular Surfaces

3.8.1. Alterations of the Articular Surfaces
3.8.2. Adhesions
3.8.3. Hypermobility
3.8.4. Spontaneous Dislocation

3.9. Osteoarthritis and Osteoarthrosis

3.9.1. Causes and Risk Factors
3.9.2. Signs and Symptoms
3.9.3. Treatment and Prevention

3.10. Differential Diagnosis between Muscle and Joint Pathology

3.10.1. Clinical Assessment
3.10.2. Radiological Studies
3.10.3. Electromyographic Studies
3.10.4. Treatment of the Different Conditions of the Myoarticular Complex

3.10.4.1. Physical Therapy and Rehabilitation
3.10.4.2. Pharmacology
3.10.4.3. Surgery

Module 4. Provisional Prosthesis

4.1. Classification and Indications

4.1.1. Total Removable Prosthesis
4.1.2. Parcial Removable Prosthesis
4.1.3. Indications

4.2. Biomechanical Principles of Prosthesis

4.2.1. Load and Force Distribution in the Mouth
4.2.2. Mechanisms of Stability and Retention of Removable Prosthesis
4.2.3. Materials and Techniques Used for the Fabrication of Removable Prosthesis

4.3. Retention, Support and Stability in Prosthesis. Types and Factors that Determine Them

4.3.1. Types of Retention
4.3.2. Factors that Influence the Retention of the Prosthesis
4.3.3. Types of Support: Mucosal, Dentinal, Mixed
4.3.4. Factors Influencing the Support of the Prosthesis
4.3.5. Stability of the Prosthesis: Definition and Factors that Influence It

4.4. Basics of the Classifications in Removable Partial Prosthesis. Mixed Prosthesis

4.4.1. Classifications in Removable Partial Prosthesis
4.4.2. Mixed Prosthesis: Concept and Applications
4.4.3. Indications for Mixed Prosthesis

4.5. Analysis, Planning and Design in Total and Partial Removable Prosthesis

4.5.1. Clinical and Radiographic Analysis of the Patient
4.5.2. Planning and Design of the Complete and Partial Removable Prosthesis
4.5.3. Impression Methods and Elaboration of the Working Model

4.6. Elements that Integrate the Removable Partial Prosthesis. Connectors. Retainers

4.6.1. Basis: Types, Materials and Design
4.6.2. Connectors: Types, Materials and Design
4.6.3. Retainers: Types, Materials and Design

4.7. Description of the Prosthetic and Anatomical Equator

4.7.1. Concept of Prosthetic and Anatomical Equator
4.7.2. Methods for Locating the Prosthetic Equator
4.7.3. Importance of the Prosthetic Equator in the Aesthetics and Function of the Prosthesis

4.8. Principles of Planning and Design in the Different Classes of Prosthesis According to the Functional and Topographical Classifications. Prosthesis Design in Intercalary and Free-End Cases

4.8.1. Functional and Topographical Classifications of Prosthesis
4.8.2. Prosthesis Design in Intercalary and Free-End Cases
4.8.3. Aesthetic and Functional Considerations in the Design of Removable Prosthesis in Patients with Specific Conditions, such as the Presence of Braces or Prominent Alveolar Ridges

4.9. Biostatic Preparation

4.9.1. Definition and Concept of Biostatic Preparation in Removable Prosthesis
4.9.2. Importance of the biostatic preparation to guarantee the oral health and stability of the prosthesis
4.9.3. Techniques and Materials Used in the Biostatic Preparation of the Patient's Mouth
4.9.4. Types of Biostatic Preparations for Removable Prosthesis in Partial Edentulous Patients
4.9.5. Special Considerations for the Biostatic Preparation in Total Edentulous Patients
4.9.6. Preparation of the Mouth for Implant-Supported Removable Prosthesis

4.10. Steps in the Fabrication of Prosthetic Appliances

4.10.1. Stages in the Process of Fabrication of Removable Prosthesis, from Impression Taking to Delivery to the Patient
4.10.2. Techniques and Material Used in the Fabrication of Removable Prosthesis
4.10.3. Considerations for the Selection of the Right Type of Removable Prosthesis Suitable for Each Patient

Module 5. Fixed Prosthesis

5.1. Different Tooth Preparations for Fixed Restorations

5.1.1. Total Crown Preparation: Technique and Requirements for its Use
5.1.2. Partial Crown Preparation: Indications and Advantages
5.1.3. Preparation of Dental Veneers: Techniques and Materials Used

5.2. Preliminary Restorations for Each of the Preparations and their Indications

5.2.1. Inlays and Onlays: Indications and Differences Between the Two Types of Restorations
5.2.2. Dental Bridges: Types and Materials Used in Their Fabrication
5.2.3. Dental Crowns: Materials and Fabrication Techniques

5.3. Inlays and Onlays in Fixed Prosthesis: Concept and Types

5.3.1. Ceramic Inlays: Advantages and Disadvantages
5.3.2. Metal Inlays: Materials Used and Processing Techniques
5.3.3. Composite Inlays: Indications and Contraindications

5.4. Restoration of the Endodontic Tooth with Fixed Prosthesis

5.4.1. Preparation and Design of Restorations for Endodontic Teeth
5.4.2. Use of Intraradicular Posts in the Restoration of Endodontic Teeth
5.4.3. Techniques for the Selection of Restorative Materials in Endodontic Teeth

5.5. Physical Principles that Should Govern these Preparations and Their Corresponding Restorations

5.5.1. Dental Adhesion: Techniques and Materials Used
5.5.2. Dental Aesthetics: Factors to be Taken into Account in Aesthetic Restorations
5.5.3. Dental Occlusion: Importance of Occlusion in Dental Preparation and Restoration

5.6. Indications and Contraindications for Each Type of Preparation

5.6.1. Indications and Contraindications of Dental Crowns
5.6.2. Indications and Contraindications of Dental Veneers
5.6.3. Indications and Contraindications of Bridges on Teeth

5.7. Temporary Crown. Design and Preparation According to the Case

5.7.1. Importance of the Temporary Crown in Dental Preparation and Restoration
5.7.2. Design and Materials Used in the Preparation of Temporary Crowns
5.7.3. Techniques for the Preparation of the Temporary Crown

5.8. Gingival Retraction, Principles that Govern It, Indications and Contraindications. Procedures for its Realization

5.8.1. Importance of the Gingival Retraction in Dental Preparation and Restoration
5.8.2. Techniques for Gingival Retraction: Chemical and Mechanical
5.8.3. Indications and Contraindications of Gingival Retraction

5.9. Cementation of Fixed and Temporary Restoration

5.9.1. Types of Cements Used in Fixed and Provisional Restoration
5.9.2 Techniques for the Cementation of Fixed and Provisional Restorations
5.9.3. Important Considerations for Cementation of Fixed and Temporary Restorations

5.10. Carving for BOPT Technique

5.10.1. Concept of the BOPT Technique in Dental Preparation and Restoration
5.10.2. Techniques for Dental Carving in the BOPT Technique
5.10.3. Advantages and Disadvantages of the BOPT Technique in Tooth Preparation and Restoration

Module 6. Materials and Dental Adhesion in Rehabilitation

6.1. Aesthetic Dentistry and its Principles. Canons of Beauty, Symmetries, Study of the Smile

6.1.1. Canons of Beauty in Aesthetic Dentistry: Dental Proportions, Ideal Shapes and Positions
6.1.2. Dental Symmetry: How to Achieve Harmony in the Smile and its Impact on Facial Aesthetics
6.1.3. Smile study: key elements for the diagnosis and planning of aesthetic treatment planning

6.2. Dental Photography in Aesthetic Dentistry and Initial Study of the Patient. Patient Expectations

6.2.1. Dental Photography: Techniques and Uses in Diagnosis and Treatment Monitoring
6.2.2. Initial Patient Study: How to Perform a Complete and Detailed Assessment for Aesthetic Treatment Planning
6.2.3. Patient Expectations: How to Manage Expectations and Communicate Effectively with the Patient about the Outcome of Treatment

6.3. Restorative Materials in Dental Prosthesis. Ceramics, Composites, Resins

6.3.1. Ceramics: Types, Characteristics and Clinical Applications
6.3.2. Composites: Properties, Indications and Application Techniques
6.3.3. Resins: Types, Uses and Necessary Care

6.4. Color and Shade Selection

6.4.1. Selection of the Tooth Color: Techniques and Tools to Choose the Right Color for Aesthetic Restorations
6.4.2. Types of Color Guides
6.4.3. Tooth Shade: How to Achieve a Natural and Harmonious Shade with the Rest of the Teeth

6.5. Handling of Soft Tissues, Impression Materials and Techniques

6.5.1. Soft Tissue Management: Techniques to Oreserve the Health and Aesthetics of Periodontal and Gingival Tissues
6.5.2. Impression Materials: Types, Uses and Application Techniques
6.5.3. Impression Techniques: How to Obtain an Accurate and Detailed Impression

6.6. Temporary Restorations

6.6.1. Temporary Restorations: Types, Indications and Application Techniques
6.6.2. Care and Maintenance of Temporary Restorations
6.6.3. Importance of provisional restorations in the success of esthetic treatment

6.7. Laboratory Fabrication of Aesthetic Restorations

6.7.1. Dental Laboratory: Types of Restorations, Materials and Fabrication Techniques
6.7.2. Communication between the Dentist and the Dental Technician: How to Achieve an Effective Collaboration to Obtain the Desired Result
6.7.3. Quality Control in the Fabrication of Aesthetic Restorations

6.8. Sealing Agents for Dental Restorations

6.8.1. Sealing Agents: Types, Indications
6.8.2. Sealants Application Techniques
6.8.3. Importance of Sealing Agents in the Prevention of Caries and in Prolonging the Life of Restorations

6.9. Finishing, Placement and Occlusal Adjustment of the Final Restoration

6.9.1. Finishing the Restoration: Techniques to Achieve a Smooth and Polished Surface
6.9.2. Placement of the Restoration: Cementation and Bonding Techniques
6.9.3. Occlusal Adjustment: How to Achieve Proper Occlusion

6.10. Next-Generation Materials in Dental Adhesion

6.10.1. Types of Adhesives
6.10.2. Features
6.10.3. Applications

Module 7. Implant Prosthesis

7.1. Importance of Biomechanics in Implant Prosthesis. Mechanical and Biological Complications of Biomechanical Origin

7.1.1. Biomechanical Forces Influence on the Success of Implant Treatment
7.1.2. Biomechanical Considerations in Implant Treatment Planning
7.1.3. Implant Prosthesis Design to Maximize Stability and Longevity
7.1.4. Mechanical and Biological Complications of Biomechanical Origin:

7.1.4.1. Fractures of Implants and Prosthetic Components
7.1.4.2. Bone Loss Around the Implants due to Excessive Biomechanical Loads
7.1.4.3. Soft Tissue Damage due to Friction and Loading

7.2. Biomechanics of the Implant/Bone Interface. Biomechanical characteristics of the maxilla and jaw. Biomechanical Differences between Cortical Bone and Cancellous Bone The Paradox of Poor Quality Bone

7.2.1. Force Distribution at the Implant/Bone Interface
7.2.2. Factors Affecting Primary and Secondary Implant Stability
7.2.3. Adaptation of the Implant/Bone Interface to Biomechanical Loads
7.2.4. Biomechanical Characteristics of the Maxilla and Jaw

7.2.4.1. Differences in the Density and Thickness of the Maxillary and Mandibular Bone
7.2.4.2. Effect of Implant Location on Biomechanical Loading in the Maxilla and Jaw
7.2.4.3. Biomechanical considerations in implant placement in aesthetic areas

7.2.5. Biomechanical Differences between Cortical Bone and Cancellous Bone

7.2.5.1. Structure and Density of Cortical and Cancellous Bone
7.2.5.2. Biomechanical Responses of Cortical and Cancellous Bone to Loading
7.2.5.3. Implications for Implant Selection and Treatment Planning
7.2.5.4. Contributing Factors to Poor Bone Quality
7.2.5.5. Implications of Poor Bone Quality in Implant Placement
7.2.5.6. Strategies of Preprosthetic Surgery to Improve the Quality of the Future Implant Base

7.3. Implant Design. Microscopic and Macroscopic Characteristics

7.3.1. Macroscopic and Microscopic Characteristics of the Implant
7.3.2. Materials Used in the Fabrication of Implants
7.3.3. Design Considerations to Maximize Stability and Osseous Integration

7.4. Surface Treatment: Addition, Subtraction and Mixed Techniques. Bioactive Surfaces. Ideal Implant Surface Roughness. The Future of Surface Treatments

7.4.1. Addition, Subtraction and Mixed Techniques to Modify the Implant Surface
7.4.2. Effect of Bioactive Surfaces on Implant Osseointegration
7.4.3. Ideal Implant Surface Roughness to Promote Osseointegration
7.4.4. New Technologies and Materials to Improve Surface Treatments
7.4.5. Customized Surface Treatment Development
7.4.6. Potential Applications of Tissue Engineering in Surface Treatments

7.5. Macroscopic Characteristics: Threaded vs. Impacted. Tapered vs. Cylindrical. Design of the Coils. Cortical Zone Design. Soft Tissue Sealing Zone Design. The Long Implant. The Wide Implant. The Short Implant. The Narrow Implant

7.5.1. Threaded vs. Impacted

7.5.1.1. Advantages and Disadvantages of the Threaded System
7.5.1.2. Advantages and Disadvantages Impact System
7.5.1.3. Advantages and Disadvantages of the Impacted System

7.5.2. Conical vs. Cylindrical

7.5.2.1. Differences between Conical and Cylindrical Implants
7.5.2.2. Advantages and Disadvantages of Each Implant Shape
7.5.2.3. Indications for the Use of Each Implant Shape

7.5.3. Design of the Coils

7.5.3.1. Importance of the Design of the Coils in the Implant Stability
7.5.3.2. Types of Coils and their Function
7.5.3.3. Considerations for the Design of the Coils

7.5.4. Design of the Cortical Zone and for Soft Tissue Sealing

7.5.4.1. Importance of the Cortical and Soft Tissue Sealing Zone for Implant Success
7.5.4.2. Design of the Cortical Zone to Increase Implant Stability
7.5.4.3. Zone Design for Soft Tissue Sealing to Prevent Bone Loss and Improve Aesthetics

7.5.5. Types of Implants According to Their Size

7.5.5.1. The Long Implant and its Indications
7.5.5.2. The Wide Implant and its Indications
7.5.5.3. The Short implant and its Indications
7.5.5.4. The Narrow implant and its Indications

7.6. Biomechanics of the Implant/Abutment/Prosthetic Interface

7.6.1. Connection Types
7.6.2. Evolution of Connections in Implantology
7.6.3. Concept, Characteristics, Types and Biomechanics of the External Connections
7.6.4. Concept, Characteristics, Types and Biomechanics of Internal Connections: Internal Hexagon and Cone

7.7. Pillars for Implant Prosthesis

7.7.1. Platform Change
7.7.2. “One Abutment One Time” Protocol
7.7.3. Tilted Implants
7.7.4. Biomechanical Protocol for Minimizing Marginal Bone Loss
7.7.5. Biomechanical Protocol for the Selection of the Number of Implants Required Depending on the Type of Prosthesis

7.8. Impressionism

7.8.1. Selection of the Ideal Tray Type
7.8.2. Impression Materials: Silicone vs. Polyester
7.8.3. Indirect or Closed-Tray Technique. Direct or Open-Tray Technique. When to Splint Impression Transfers. Prints with Snaps Coping. How to Choose the Ideal Printing Technique
7.8.4. Taking an Impression of the Emergency Profile and of the Pontics
7.8.5. Pouring of Models for Implant Prosthesis

7.9. Screw-Retained, Cement-Retained and Cement-Screw-Retained Prosthesis

7.9.1. Cement-Retained Prosthesis

7.9.1.1. Concept and Characteristics of the Cemented Prosthesis
7.9.1.2. Indications and Contraindications of the Cemented Prosthesis
7.9.1.3. Types and Characteristics of the Abutments to be Cemented. Selection of the Ideal Abutment
7.9.1.4. Cement. Selection of the Ideal Cement
7.9.1.5. Clinical and Laboratory Protocol

7.9.2. Screw-Retained Prosthesis

7.9.2.1. Concept and Characteristics of the Cemented Prosthesis
7.9.2.2. Direct Screw-Retained Prosthesis
7.9.2.3. Indirect Screw-Retained Prosthesis. The Intermediate Abutment
7.9.2.4. Indications and Contraindications of Screw-Retained Prosthesis
7.9.2.5. Clinical and Laboratory Protocol

7.9.3. Cement-Screw-Retained Prosthesis

7.9.3.1. Concept and Characteristics of Cement-Screwed Prosthesis
7.9.3.2. Selection and Characteristics of the Ideal Abutment
7.9.3.3. Clinical and Laboratory Protocol

7.9.4. BOPT Technique

7.9.4.1. Concept and Characteristics
7.9.4.2. Selection and Characteristics of the Ideal Abutment
7.9.4.3. Clinical and Laboratory Protocol
7.9.4.4. Presentation of Clinical Cases

7.10. Overdentures and Hybrids

7.10.1. Concept and Types of Overdentures and Hybrids: Implant-Supported vs. Implant-Retained
7.10.2. Indications and Contraindications of Overdentures and Hybrids. Main Advantages and Complications
7.10.3. Clinical Protocol for Differential Diagnosis between Fixed, Hybrid and Overdenture: Analog and Digital
7.10.4. Types of Retention: Bars and Individual Anchors. Selection of Retainer Depending on Each Case
7.10.5. Biomechanics of Overdentures andHybrids. Number of Implants Required for an Overdenture and for a Hybrid
7.10.6. Clinical Protocol and Tips. Laboratory Protocol
7.10.7. Clinical Cases

Module 8. Prosthetic Laboratory

8.1. Clinical-Laboratory Communication

8.1.1. Importance of Effective Communication between the Clinician and the Dental Laboratory
8.1.2. Tools and Resources to Improve Communication (Photographs, Models, Occlusal Records, etc.)
8.1.3. Protocols for the Transmission of Information and Specifications of Dental Work
8.1.4. Resolution of Problems and Conflicts in Clinical-Laboratory Communication

8.2. The Different Processes for the Elaboration of the Prosthesis: Casting, Prototype Casting (Overcasting), Synthesized, Pre-Synthesized Milling, Machined Synthesized, Machining

8.2.1. Casting and Overcasting: Differences, Advantages and Disadvantages
8.2.2. Synthesizing and Pre-Synthesizing Milling Processes: Characteristics and Applications
8.2.3. Machined and machined synthetizing: comparison and selection according to patient needs according to the patient's needs
8.2.4. Finishing and Polishing Techniques of the Prosthesis

8.3. Types of Materials Currently Available for Implant Prosthesis: Ceramics, Composites, Zirconia

8.3.1. Ceramics: Types, Properties and Clinical Applications
8.3.2. Composites: Characteristics, Advantages and Disadvantages in Implant Prosthesis
8.3.3. Zirconium: Properties and Clinical Applications in Implant Prosthesis
8.3.4. Clinical considerations in the selection of material for implant prosthetics

8.4. White Aesthetics and Pink Aesthetics

8.4.1. Concepts and Definitions of White Aesthetics and Pink Aesthetics
8.4.2. Factors to Consider in the Aesthetic Planning of Implant Prosthesis
8.4.3. Techniques to Improve White and Pink Aesthetics
8.4.4. Clinical Evaluation and Assessment of Patient Satisfaction

8.5. Castings and Wax-Ups

8.5.1. Techniques and Materials for the Casting and Waxing of Dental Prosthesis
8.5.2. Clinical and Laboratory Considerations in the Selection of the Type of Casting or Wax-Up
8.5.3. Common Problems in Casting and Waxing and How to Solve Them
8.5.4. Techniques to Improve the Accuracy and Quality of the Casting and Waxing Process

8.6. Machined and/or Customized Attachments

8.6.1. Concept and Definition of Machined and Customized Attachments
8.6.2. Advantages and disadvantages of machined and customized attachments in implant
8.6.3. Types of Machined and Customized Attachments (Abutments, Pins, Bars, etc.)
8.6.4. Clinical and laboratory considerations in the selection and application of machined and customized

8.7. Diagnostic Wax-Ups and Study Models

8.7.1. Definition and Objectives of Diagnostic Wax-Ups and Study Models
8.7.2. Techniques and Materials for Diagnostic Wax-Ups and Study Models
8.7.3. Clinical and Laboratory Interpretation of the Results of Diagnostic Wax-Ups and Study Models
8.7.4. Clinical applications of diagnostic wax-ups and study models in the planning of implant prosthetics

8.8. Ceramic Lathes, Immediacy in the Realization of Definitive Restorations

8.8.1. Types of Ceramic Lathes and their Operation
8.8.2. Advantages and disadvantages of the use of ceramic lathes in the realization of definitive dental restorations
8.8.3. Procedures and Protocols for the Use of Ceramic Lathes in the Fabrication of Dental Prostheses

8.9. Immediate loading and clinical-laboratory collaboration for the achievement of optimal results

8.9.1. Concept of Immediate Loading
8.9.2. The Role of the Dental Laboratory in the Clinical-Laboratory Collaboration for Immediate Loading
8.9.3. Procedures and Techniques for the Realization of Immediate Loading
8.9.4. Considerations and precautions to be Taken into Account in Immediate Loading

8.10. How to Select your Laboratory for Daily Practice

8.10.1. Skill and Updating of the Professional
8.10.2. Machinery and Conditions of the Dental Laboratory
8.10.3. Adequate Supply to the Market
8.10.4. Price-Quality Relationships

Module 9. CAD-CAM and Digital Flow

9.1. Digital Dentistry (Stl, Inchair, Inlab, etc

9.1.1. Digital Dentistry and Its Importance in Modern Dental Practice
9.1.2. Common Digital Technologies in Dentistry
9.1.3. Applications of Digital Dentistry

9.2. Digital Flowchart, From the Scanning of the Mouth and Sending of Digital Files, to the Laboratory Design and Subsequent Mechanized Production of the Prosthetic Structure

9.2.1. Digital Scanning and Data Capture Techniques
9.2.2. Processing and Sending of Digital Files for the Design of Dental Prosthesis
9.2.3. Use of Software for Design and Mechanized Production of Prosthetic Structures
9.2.4. Integration of Digital Workflows in Daily Dental Practice

9.3. Current CAD-CAM Possibilities. When, How and Why

9.3.1. Description of CAD-CAM Technologies and Their Role in Digital Dentistry
9.3.2. Advantages and Disadvantages of Using CAD-CAM for the Fabrication of Dental Prosthesis
9.3.3. Indications for the Use of CAD-CAM in Different Types of Dental Restorations
9.3.4. Clinical Cases

9.4. Current Materials: Characteristics and Indications

9.4.1. Description of Common Materials Used in Digital Dentistry
9.4.2. Characteristics of the Different Materials and Their Applications
9.4.3. Indications and contraindications for the use of different materials in dental restorations

9.5. Advantages/Disadvantages. Limitations of the Different Systems Available

9.5.1. Comparison of Different Systems and Technologies Used in digital Dentistry
9.5.2. Advantages and disadvantages of intraoral, external scanning and conventional impression systems
9.5.3. Limitations and Restrictions of Each System in Terms of Accuracy, Cost and Ease of Use

9.6. Selection of Abutments

9.6.1. Description of the Different Types of Abutments Used in Digital Dentistry, Including Prefabricated and Customized Abutments
9.6.2. Indications for the Selection of Different Types of Abutments
9.6.3. Advantages and Disadvantages of Different Types of Abutments in Terms of Accuracy, Cost and Ease of Use

9.7. Intraoral Scanner vs. Conventional Impression

9.7.1. Comparison of Intraoral Scanning and Conventional Impression Technologies in Digital Dentistry
9.7.2. Advantages and Disadvantages
9.7.3. Indications for the Use of Each Technology in Different Types of Dental Restorations

9.8. Digital Flow Protocol and Data Protection

9.8.1. Digital Flow Protocol Description in Digital Dentistry, Including Data Capture, Prosthetic Design and Mechanized Production
9.8.2. Necessary Security and Data Protection Measures to Ensure the Patient Privacy
9.8.3. Compliance with Relevant Standards and Regulations Regarding Data Protection in Dentistry

9.9. Ceramic Lathe and Digitization

9.9.1. Crown Designs for Machining on the Ceramic Lathe
9.9.2. Advantages and Disadvantages of the Machining of Porcelain Crowns
9.9.3. The Immediacy of Machined Prosthetic Restorations
9.9.4. Digital Communication between the Intraoral Scanner and the Ceramic Lathe

9.10. Presentation of Cases

9.10.1. Clinical Cases
9.10.2. Alternatives
9.10.3. Expectations of Digital Dentistry vs. Reality

Module 10. Pre-Prosthetic Surgery. Pathologies and Complications Derived from Dental Prosthesis

10.1. Risk Factors for the Development of Pathologies Related to Prosthetic Rehabilitation

10.1.1. Poor Oral Hygiene and its Relationship with Prosthesis Pathology
10.1.2. Systemic Diseases and Their Relation to Prosthetic Failure
10.1.3. Types of Prostheses and Their Relation to the Occurrence of Oral Pathologies
10.1.4. Patient-Related Factors that Increase the Risk of Dental Prosthesis Complications

10.2. Subprosthetic Stomatitis

10.2.1. Definition of Subprosthetic Stomatitis and its Relation to Dental Prosthesis
10.2.2. Prevalence of Subprosthetic Stomatitis in Patients with Dental Prosthesis
10.2.3. Diagnosis of Subprosthetic Stomatitis: Signs and Symptoms
10.2.4. Treatment of Subprosthetic Stomatitis: Available Treatment Options

10.3. Treatment of Fissured Epulis

10.3.1. Definition of Fissured Epulis and its Relation to Dental Prosthesis
10.3.2. Prevalence of Fissured Epulis in Patients with Dental Prosthesis
10.3.3. Diagnosis of Fissured Episthesis: Signs and Symptoms
10.3.4. Treatment of Fissured Epulis: Available Therapeutic Options

10.4. Peri-Implantitis. Clinical Protocols

10.4.1. Definition of Peri-Implantitis and its Relation to Implant Prosthesis
10.4.2. Prevalence of Peri-Implantitis in Patients with Implant Prosthesis
10.4.3. Diagnosis of Peri-Implantitis: Signs and Symptoms
10.4.4. Treatment of Peri-Implantitis: Available Therapeutic Options and Clinical Protocols

10.5. Ideal Design of Conventional and Implant Prosthesis

10.5.1. Ideal Design of Conventional Prosthesis
10.5.2. Ideal Design of Implant Prosthesis
10.5.3. Ideal Materials for the Fabrication of Dental Prosthesis

10.6. Maintenance of Conventional Fixed and Removable Prosthesis and Implant Prosthesis: Clinical Protocol

10.6.1. Maintenance Protocol for Conventional Dental Prosthesis
10.6.2. Maintenance Protocol for Implant Prosthesis
10.6.3. Importance of Dental Prosthesis Maintenance to Prevent Complications

10.7. Other Rarer Lesions that may be Caused by Iatrogenic Prosthetic Treatment

10.7.1. Less Frequent Oral Lesions Related to Prosthetic Treatment
10.7.2. Identification and Diagnosis of Lesions
10.7.3. Treatment of Lesions

10.8. Systemic diseases and their effect on the non-achievement of optimal results in dental prosthetics

10.8.1. Systemic Diseases that Can Affect Prosthetic Rehabilitation
10.8.2. Impact of Systemic Diseases on the Prosthetic Patient's Quality of Life
10.8.3. Treatment Protocol for Patients with Systemic Diseases and Dental Prosthesis

10.9. Pre-Prosthetic Surgery

10.9.1. Concept of Pre-Prosthetic Surgery
10.9.2. Indications and Contraindications of Pre-Prosthetic Surgery
10.9.3. Techniques for the Preparation of the Stomatognathic Apparatus

10.10. Relationship between Pre-Prosthetic Surgery and the Appearance of Pathologies Associated with Oral Rehabilitation

10.10.1. Complications of the Pre-Prosthetic Surgery
10.10.2. Pre-Prosthetic Surgery and Hard Tissues
10.10.3. Pre-Prosthetic Surgery and Soft Tissues
10.10.4. Pre-Prosthetic Treatment of the Extreme Patient

Perform a complete update on prevention, diagnosis and treatment of pathologies and complications related to Dental Prosthesis "