FREE CME TRAINING
On Friday and Saturday, 14-15 November, Free CME training workshops will be provided free of charge to exhibition visitors. These Free CME Trainings will take place in the exhibition area at the Madinat Jumeirah Arena and will be conducted by numerous international speakers covering various topics.
These training sessions will be divided into smaller groups (with 9 seats available), providing delegates with the unique opportunity to engage directly with the presenters, ask questions, and receive personalised guidance. Simultaneously, the practical demonstrations will inspire you and offer effective troubleshooting solutions.
Key Facts:
- Choose from 40+ Free CME training sessions on 14-15 November 2025 at the Exhibition from 10:00 AM to 05:00 PM.
- Limited seats available.
- First-come, first-served basis on the day of the training. Be at the exhibition at 09:00 AM to secure your spot.
- If you are already registered for the paid conference, please do not register for the Free CME Trainings and Exhibition, as you are already automatically registered.
DAY 1 | 14 NOVEMBER 2025
ZONE A
Abstract
This dynamic round table will bring together two critical pillars of modern implant dentistry: prosthetically driven implant placement and immediate implants in the aesthetic zone. Through open discussion, clinical insight, and shared experience, we will explore how aligning surgical planning with the final prosthetic outcome leads to more predictable, aesthetic, and functional results.
The session will begin by challenging the conventional approach to implant placement—inviting participants to “think beyond the drill” and embrace a restoration-first mindset. Key topics include diagnosis, 3D digital planning, guided surgery, and the integration of digital tools to reduce complications and optimize outcomes. Clinical examples will demonstrate how a prosthetically driven workflow enhances precision and long-term success.
Building on this foundation, the focus will shift to immediate implant placement in the anterior region—a technique that offers both clinical efficiency and aesthetic excellence. We will explore biological principles, ideal indications, and the importance of emergence profile design in shaping soft tissue and achieving natural-looking results.
Participants will gain valuable insights into how digital workflows and guided techniques can support immediate placement protocols, from single units to complex aesthetic cases. Special emphasis will be placed on practical take-home strategies, surgical and prosthetic tips, and how to translate these concepts into everyday clinical practice.
Whether you are starting your digital journey or looking to refine your approach, this interactive discussion will provide a toolkit of evidence-based techniques to elevate your outcomes and confidence
Learning Objectives
● Discuss the shift toward prosthetically driven implantology and its critical role in achieving predictable aesthetic and functional outcomes.
● Explain the rationale behind immediate implant placement in the anterior region, including biological principles, aesthetic advantages, and patient-centered benefits.
● Demonstrate how to design ideal emergence profiles through soft tissue contouring, provisional restorations, and digital workflows for natural-looking results.
● Discuss clinical strategies to integrate guided surgery and digital planning for improved accuracy, complication reduction, and long-term stability.
● Share practical tips and tricks—from diagnostics to final restoration—that clinicians can implement immediately to improve daily clinical outcomes in both simple and complex cases.
Abstract
In the posterior maxilla, residual bone height is limited by the presence of the sinus and often plays a key factor in the placement of dental implants. A sinus lift is the ideal approach (when evaluating an atrophic maxillary ridge with deficiency in vertical height) to build additional bone in order to place a solid and stable implant. The gaining popularity of the transcrestal sinus lift makes this option more accessible than ever.
The transcrestal sinus approach to sinus lift surgery is a less invasive technique than traditional approaches of elevating the sinus membrane for dental implant placement in the maxillary region. New techniques and tools help the clinician to minimize perforation of the sinus membrane. Patients benefit greatly from the transcrestal sinus approach as this less traumatic method promotes a shorter healing time than lateral window approaches.
This presentation provides an opportunity for participants to expand their knowledge base and clinical skills to allow for management of simple maxillary sinus cases. Through the use of lecture and participation activities doctors will learn how to perform the transcrestal augmentation technique and build up bone in the posterior maxilla. Emphasis will be placed on simple and practical approaches to place dental implants simultaneously with sinus lift on flat or inclined sinus floor.
Learning Objectives
● Understand the anatomical considerations and indications.
● Explain the principles and mechanisms.
● Compare the advantages and limitations.
● Demonstrate proper clinical protocol.
● Evaluate clinical outcomes and complications Discuss the shift toward prosthetically driven implantology and its critical role in achieving predictable aesthetic and functional outcomes.
Abstract
The success of digital implant workflows depends on access to accurate, intuitive, and comprehensive libraries. This round table focuses on the OSSTEM implant libraries integrated within Exocad, offering clinicians and dental technicians a complete overview of how to leverage them for prosthetic design. The session will explore the practical application of OSSTEM’s scan bodies, abutments, and restorative components in Exocad, allowing users to optimise their digital restorative process. Participants will gain insights into maximising efficiency and predictability, from intraoral scanning to CAD design and final restoration.
Learning Objectives
● Understand the OSSTEM implant library structure in Exocad, including components, scan bodies, and restorative options.
● Learn how to correctly implement OSSTEM libraries for single-unit and full-arch digital restorations within the Exocad environment.
● Explore step-by-step workflows for digital prosthetic design, from scan data to virtual design using OSSTEM components.
● Discover how to manage updates, compatibility, and correct library selection to avoid common digital workflow errors.
● Participate in peer discussions and practical case reviews to consolidate real-world applications of the OSSTEM implant Library in Exocad.
Abstract
The collaboration between a leading implant system and Exoplan (Exocad) marks a major advancement in seamless digital implantology. This roundtable focuses on guided surgery planning using Exoplan, demonstrating how implant components and surgical kits are now fully integrated for accurate and predictable implant placement. The session will walk participants through the process of guided surgery planning, including implant positioning, sleeve selection, and template design, utilizing the available digital libraries within Exoplan. Attendees are encouraged to engage actively—discussing workflows, sharing clinical experiences, and addressing questions related to digital surgical planning.
Learning Objectives
● Understand the structure of implant libraries in Exoplan, including surgical kit integration and guide design protocols.
● Learn how to plan guided surgeries using digital implant components, ensuring precise implant placement through digital workflows.
● Explore the connection between prosthetic-driven implant planning and surgical guide design, focusing on accuracy and predictability.
● Gain insights into the complete workflow from CBCT and intraoral scans to surgical template fabrication using implant data in Exoplan.
● Engage in peer-to-peer discussion and case reviews to troubleshoot real-world clinical scenarios involving guided surgery with Exoplan.
Abstract
The achievement of high primary stability is a critical determinant of successful implant osseointegration, particularly in the upper maxilla where bone quality is often a significant challenge. This round table discussion, Dentium and the Boundaries of Primary Stability in the Upper Maxilla, will bring together leading clinicians and researchers to delve into the specific anatomical and biological factors that influence implant stability in this region. We will explore the unique design features of Dentium implants—including their thread geometry, surface treatment, and body shape—and how these characteristics are engineered to optimize initial bone engagement. The discussion will feature clinical case presentations, demonstrating best practices for site preparation, implant placement techniques, and the use of various augmentation materials and protocols. Participants will gain practical insights into how Dentium's implant systems can be leveraged to overcome common challenges, enabling predictable outcomes for both immediate and conventional loading protocols. This interactive session aims to foster a collaborative environment, allowing attendees to share their experiences and learn from experts on how to consistently achieve and maintain primary stability in compromised maxillary sites.
Learning Objectives
● Understand the anatomical and biological factors specific to the upper maxilla that impact primary stability and identify strategies to overcome challenges posed by low bone density.
● Evaluate the specific design features of Dentium implants (e.g., thread design, surface technology) and learn how these characteristics contribute to achieving high primary stability in various bone types.
● Develop a systematic approach for surgical planning and implant placement in the upper maxilla, including techniques for site preparation and the use of Dentium's surgical tools, to maximize initial stability and ensure long-term implant success.
Abstract
The evolution of local anesthesia in pediatric dentistry has moved beyond conventional syringe techniques toward digital delivery systems designed to enhance both precision and patient comfort. This round table session will provide participants with practical insights into digital painless anesthesia through a combination of focused discussion and hands-on practice. Attendees will explore the clinical benefits of digital anesthesia systems compared to traditional approaches and gain first-hand experience with device handling. Guided practice on pediatric models will allow participants to perform cartridge loading, needle assembly, ergonomic pen-grip positioning, and correct angulations. Practical demonstrations will highlight the sensation of precision and bone penetration, helping clinicians to understand how digital anesthesia systems can transform daily pediatric practice.
Learning Objectives
● To compare traditional anesthesia techniques with digital systems in pediatric dentistry.
● To understand the principles and benefits of digital painless anesthesia.
● To practice device setup, cartridge insertion, and needle handling in a hands-on format.
● To develop ergonomic skills for pen-grip control and correct angulations on pediatric models.
● To build confidence in the first steps of digital anesthesia delivery through practical demonstrations.
Abstract
Oral Ulcers are knowns to be unpleasant breaks in the mucosal lining of the mouth where redcolored painful sores appear in different areas of the mouth following traumatic tissue injuries, infectious diseases or immunologic distress. Pain & discomfort (especially during eating & chewing) are commonly associated with different types of oral ulcers. Most of the time, it takes 7-14 days for the oral ulcers to heal depending on the cause & the severity. Good oral hygiene & adequate nutrition besides rest & hydration are likely to help in the healing process. However, supportive care & addressing root causes would mostly speed up recovery & prevent recurrence. Different Topical pastes/gels are recommended to be applied on the affected sites of the oral mucosa whether to help in pain relief or to provide some antiseptic & healing promoting effects. This presentation highlights the recent approaches in oral ulcers management & reviews some of the new products that proved to be highly efficient in accelerating the ulcer healing process & in a faster pain relief.
Learning Objectives
● Discussing the Etiology & Pathophysiology of Oral Ulcers.
● Explain Diagnostic Process & Differential Diagnosis .
● Identifying the goal of management.
● Recognize the importance of lifestyle, Nutritional support and Preventive measures.
● Review pain management & healing promotion.
● Describe Various types of Topical & Local Treatments.
● Outline Systemic treatments.
Abstract
Dr. Raj will briefly explain the advantages of measuring the muscles and occlusion digitally so that a dentist can register a bite for any dental procedure - from a single tooth filling to a multi-implant based full mouth rehabilitation. This will be followed by a demonstration of how we can utilize specific equipment to register a bilaterally-symmetrical-isotonic-muscle bite using patented TENS unit and measuring the muscles to confirm the bite with Electromyography. Dr. Raj will also demonstrate the basic usage of digital occlusion equipment that helps a dentist to confirm the bite in microns. This is very important because the occlusal proprioception starts at 5 microns.
Learning Objectives
● Understand the benefits of digital bite registration for accurate treatment planning across procedures ranging from single fillings to full-mouth rehabilitations.
● Learn how to apply patented TENS technology to achieve a bilaterally symmetrical isotonic muscle bite.
● Gain knowledge of using Electromyography (EMG) to objectively measure muscle activity and confirm the accuracy of bite registration.
● Explore the application of digital occlusion equipment to verify occlusal contact precision down to microns.
● Recognize the clinical importance of occlusal proprioception and its role in detecting discrepancies as small as 5 microns.
Abstract
In the evolving field of regenerative Oral Surgery, Safecut stands as a landmark innovation. It enables clinicians to perform the Shell Technique through a fully digital, guided, and predictable workflow, eliminating the uncertainties traditionally associated with autogenous bone harvesting. Every phase, from digital planning to surgical execution, is meticulously designed in software, allowing the creation of custom surgical guides that make the procedure simpler, faster, and remarkably precise. By embracing this digital transformation, Safecut converts a once complex and operator-dependent process into a safe, reproducible, and efficient intervention that optimises both surgeon comfort and patient outcomes. This roundtable offers an exclusive opportunity to explore how digital technology is redefining daily surgical practice. Participants will see how advanced planning tools, guided instrumentation, and customized templates converge to deliver high precision with minimal intraoperative stress. Safecut is not just a tool, it's a medical device that sets a new standard for predictable bone regeneration.
Scientific basics of piezoelectric bone cutting:
● Explain the core principles and clinical advantages of Safecut as an innovative, fully digital approach to the Shell Technique.
● Understand the digital workflow and decision-making process in computer-guided autogenous bone harvesting, including site selection, safety margins, and planning.
● Illustrate how customised surgical guides streamline and standardise each stage of the procedure, improving precision, efficiency, and operator confidence.
● Explore strategies for adapting and securing the bone block to the defect site, focusing on shaping, adaptation, and fixation techniques.
● Demonstrate the complete Safecut workflow hands-on, from planning to guided execution, using three surgical templates to achieve predictable, safe, and reproducible results.
Abstract
In today’s dental world, the patient’s first consultation happens long before they sit in your chair, it starts online. Potential patients choose who to trust based on what they find (or don’t find) in search results, websites, and social media.
Yet most dental practices don’t know the reality of their digital presence. Are they visible to the right patients, or invisible where it matters most? Are their ads generating growth, or just draining budgets? Is their Instagram building trust, or leaving patients cold?
This live, interactive roundtable strips away assumptions and reveals the truth behind your digital presence. We’ll perform a real-time digital check-up on participating clinics by analysing Google rankings, website performance, ad results, and social media impact.
You’ll see the exact data behind your online presence, discover blind spots that cost patients every month, and learn practical frameworks to fix them. From SEO to ads, from content strategy to social optimisation, you’ll walk away with clarity, and a clear action plan.
This isn’t theory, it’s your clinic, your data, and your growth potential, all on display.
What you’ll gain:
● A clear understanding of your digital visibility and its real impact on patient flow.
● Identify what’s working, and what’s wasting money
Answers to critical questions:
● Are you visible on Google for the right treatments?
● Are your ads converting efficiently?
● Does your Instagram attract new patients?
● Is your website building trust or losing visitors?
● Are you maximising your content production potential?
● A step-by-step method to turn your website and social channels into patient-converting tools.
● A system to plan 12 months of impactful content in a single day.
Join us for a reality marketing check that could redefine the future of your practice.
ZONE B
Abstract
If you’re a Marvel fan you will recognize the phrase: "With great power comes great responsibility" it is most strongly linked to Uncle Ben's words to a young Peter Parker (Spider-Man) in the Spider-Man Comics, which is my way to take you on a journey into the importance of recognizing and properly utilizing the power behind Powered tooth brushes. I have reviewed several studies from 2018 up to 2025 that have shown that powered toothbrushes can significantly reduce plaque and gingivitis more effectively than manual toothbrushes and there are Clinical researches indicating that powered toothbrush users experience up to a 29% reduction in calculus buildup compared to those who use manual brushes. Now, consider the unique challenges faced by individuals undergoing orthodontic treatment. These patients often struggle with maintaining good oral hygiene, which has been linked to an increased risk of dental caries and periodontal disease and the proper progress of teeth movement. during orthodontic treatment! More specifically, poor oral hygiene has been associated with a higher incidence of white spot lesions, gingivitis, and periodontitis during treatment with fixed appliances. How are we not acknowledging this powerful tool and the positive changes it can foster in orthodontic outcomes? In this roundtable discussion, we will explore the numerous benefits of using a powered toothbrush, particularly the Curaprox Hydrosinic brush. We will also examine how to effectively adapt the three different heads (Sensitive, Power, Single) for orthodontic appliances, using the correct techniques to achieve: Effective control of plaque and gingival disease An Atraumatic approach that avoids damage to anatomical structures and appliance components An Acceptable daily oral hygiene routine for patients, enhancing their experience while improving the outcomes of orthodontic maintenance and treatment.
Learning Objectives
● Latest studies on powered vs. manual toothbrushes.
● Oral hygiene challenges for orthodontic patients.
● Three simple rules: Acceptable, Atraumatic, Effective.
● Proper use of Curaprox Hydrosonic brush with orthodontic appliances, including traditional braces, clear aligners, and retainers.
Abstract
Digital technology in dentistry today can help clinicians do more successful implant treatments with more comfortable experience for their patients.An intraoral scan combined with CBCT and digital wax-up can provide clinicians with a huge amount of information for a treatment plan that considers anatomy, prosthetic and esthetic considerations.
With AI integrations, implant planning software applications today can automate many steps of the workflow such as 3D segmentation to clean CBCT artifacts, matching IOS data with CBCT data and a digital wax-up for prosthetic-driven implant planning and many other features. It can also automatically remove teeth from intraoral scan for immediate placement cases. Vital anatomy like the inferior alveolar canal can also be traced with AI. AI today is eliminating the design step between data acquisition and manufacturing, allowing dentists to do implant treatments that are fast, more comfortable to their patients with more predictable outcomes.
Scientific basics of piezoelectric bone cutting:
● Explain the role of AI.
● Discuss key points in digital implant planning & surgical guides.
● Demonstrate digital workflow today.
● Demonstrate immediate implant placement.
● Demonstrate options for immediate temporization.
Abstract
This hands-on session will introduce participants to the concept of four-dimensional endodontics applied to primary root canal therapy. Attendees will gain practical experience with the new XP-4D file system, paired with the latest motor technology operating at up to 4000 RPM, along with the use of newly developed irrigants and bioceramic obturation systems.
Learning Objectives
● Introduction to XP-4D File System
o Design, metallurgy, and clinical advantages.
o Hands-on use for shaping canals in simulated models.
● Introduction to the 4000 RPM Motor System
o Features and operational settings.
o Demonstration of torque, speed, and efficiency.
● Advanced Irrigation Protocols
o Use of the newly developed irrigant.
o Hands-on activation methods for improved disinfection.
● Bioceramic-Based Obturation
o Application of TotalFill BC sealer with gutta-percha.
o Techniques for single-cone obturation and 3D sealing demonstration.
Abstract
This hands-on session will focus on retreatment strategies using the XP Rise system. Participants will practice effective gutta-percha removal, canal disinfection techniques, and the use of XP Finisher to improve debris removal and irrigation activation.
Learning Objectives
● Introduction to XP Rise for Retreatment
o Features of XP Rise in nonsurgical retreatment.
o Hands-on practice in removing obturation materials.
● Strategies for Gutta-Percha Removal
o Stepwise protocols for predictable removal.
o Troubleshooting resistant filling materials.
● Disinfection of the Retreated Canal System
o Irrigation solutions for retreatment.
o Optimizing contact and penetration in irregular anatomies.
● Use of XP Finisher
o Application for final debris removal.
o Hands-on activation of irrigants to achieve enhanced cleanliness.
Abstract
The evolution of digital dentistry has reshaped clinical workflows—yet true innovation lies in integration, not isolation. This lecture explores how the LiteTouch Er:YAG laser complements digital tools such as intraoral scanners, smile design software, and CAD/CAM systems to create seamless, minimally invasive, and patient-centered treatment experiences. Through real clinical examples, participants will discover how lasers enhance precision, reduce chair time, and elevate aesthetic outcomes in restorative, soft-tissue, and orthodontic procedures. The session also discusses workflow efficiency, communication strategies, and the economic advantages of adopting a laser-integrated digital practice model aligned with modern patient expectations.
Learning Objectives
By the end of this session, participants will be able to:
● Understand the clinical and operational benefits of integrating Er:YAG laser technology within digital workflows.
● Identify key applications of the LiteTouch laser in aesthetic, restorative, and orthodontic treatments.
● Evaluateevidence supporting time efficiency and improved patient outcomes with laser-assisted procedures.
● Develop strategies to incorporate laser dentistry into a digital, patient-centric practice model for sustainable growth.
Abstract
Piezosurgery is a less invasive approach to bone surgery. In these 30 years of development and improvement many applications have been proposed to make surgery procedure simpler and reduce complications. In this round table we will have an overview on this technology learning how to apply this approach to our everyday practice
Scientific basics of piezoelectric bone cutting:
● Clinical and histological caracteristics of the piezoelectric cut
● Presentation of piezoelectric inserts and analysis of different clinical applications
Main clinical indications of PIEZOSURGERY® in oral surgery:
● From teeth extractions to wisdom teeth surgery .
● From postextraction implant placement to sinus lift procedures.
● From Rex wedge implant insertion to orthodontic acceleration osteotomies.
Abstract
More and more colleagues are asking for solutions to restore edentulous patients with fixed teeth even in cases of severe atrophy and poor quality bone. Flexibility, agility, competence. This is what it takes to master extreme cases. This session is aimed at those who already face full arch rehabilitations with confidence but often stop in front of the most challenging cases, especially in the atrophic maxilla. If you are looking for solutions this is the session for you. After this session, you will increase your treatment options in cases of moderate and severe bone resorption and you will be able to treat more patients with immediate full arch protocol.
Learning Objectives
● I will explain you how to solve your full arch cases in one day, graftless and with immediate loading.
● We will discuss how to solve 100% of your full arch cases with Maxilla-For-All® treatment concept by using pterygoid, trans sinus and zygomatic implants.
● We will discover how to improve your patient’s lives with with Maxilla-For-All® treatment.
● I will explain you all surgical protocol step by step.
● We will discuss how to manage all complications with step by step videos.
Abstract
They will present the latest innovations in endodontic instrumentation, including instrument manufacturing, motors and motions to improve efficacy and safety of root canal preparation, for a simplified, effective approach to NitI instrumentation. It will propose some clinical hints and approaches to maximise efficiency and reduce iatrogenic errors when instrumenting a canal. It will also show the advantages of using single cone hydraulic obturation of the prepared canals, using the 3d printed artificial teeth, previously used for practising instrumentation.
Learning Objectives
● Understanding clinical differences between heat-treated and non-heat-treated NIti files.
● Discussing a new rational approach to canal preparation.
● Learn new techniques to use instruments with minimal stress.
● Choosing a simplified, more biological obturation technique.
Abstract
From doubt to Habit – The Endodontic Transformation traces how endodontics evolved from a painful, uncertain procedure into a biologically driven, precise, and predictable practice. The presentation highlights three pillars of success — Disinfection, Preparation, and Healing — showing how advances in irrigant activation, minimally invasive shaping, and bioceramic materials have redefined clinical outcomes. By integrating magnification, imaging, and evidence-based protocols, endodontic therapy now achieves consistent disinfection and lasting periapical healing. This lecture demonstrates how scientific innovation and clinical precision have transformed root canal therapy from doubt to habit.
Learning Objectives
● Discuss key factors in endodontic transformation.
● Explain principles of irrigant activation.
● Demonstrate effective preparation and activation.
● Identify tools that enhance precision and healing.
● Evaluate cases showing predictable outcomes.
Abstract
Introduce an innovative solution to the challenges faced with traditional dental silicone impressions — solving problems that neither conventional trays nor digital scanners can address effectively.
Learning Objectives
● Discuss the limitations of traditional dental impression techniques..
● Explain the new technique to enhance conventional impression, superior isolation, and elimination of gingival retraction.
● Demonstrate the clinical application to achieve precise, overlap-free impressions with improved patient comfort.
● Identify the clinical benefits, such as reduced procedure time, mess-free workflow, and compatibility with existing impression materials.
● Evaluate how the new technique transforms dental impression-taking and enhances overall clinical outcomes.
Abstract
Bioactive material these days in dentistry are a significant advancement,which areal potential to improve long term patient outcomes. As the profession shifts towards minimally invasive,regenerative,and biologically friendly treatments. So will be talking about the Bioactive materials in terms of what are bioactive materials and what are benefits in clinical practice towards ,restorative dentistry, Endodontics,periodontics,and implantology.
Conclusions:
The future is leaning towards regenerative dentistry where materials don’t just fill a space but stimulate, healing and restore natural function of the teeth.
DAY 2 | 15 NOVEMBER 2025
ZONE A
Abstract
Dental implants continue to be our most favored method of treatment for tooth loss in 21th Century. In terms of technological improvements, they now cover more indications on a daily basis. The improved shape and outline of the implants, in particular, provided us with greater diversity and confidence in treatment planning. As time spent in the dental chair decreases, patients' expectations rise, and we are now well-supported by a portfolio that includes a wide range of treatment protocols. As the demand for immediate and early installation grows, we, as practitioners, are pleased to provide our new powerful implant solutions to our patients. iExcel* System introduces two distinct strong lines with an upgrade of root shaped implants, drawing strength from the long-term success rate of SLActive implants, which already have extensive evidence in the literature.
Learning Objectives
● Preference between X and C Line implant system.
● Comparing Tissue Level and Bone Level implants.
● Implant and abutment selection criteria.
● Digital solutions available for new implant system.
Abstract
In modern esthetic implantology, patient expectations for fast, functional, and visually pleasing results are continuously rising. Digital Smile Design (DSD) has emerged as a powerful tool that bridges the gap between clinical excellence and emotional patient engagement. In this lecture, Dr. Barbara Sobczak will present how the Sobczak Concept integrates DSD principles into a fully digital, prosthetically driven workflow, enabling the creation of individualized treatment plans based on facial proportions, esthetic goals, and functional needs. By combining 2D/3D facial analysis, CBCT diagnostics, virtual planning, guided surgery, and in-house CAD/CAM prosthetics, the Sobczak Concept allows clinicians to execute full-arch implant rehabilitations in a matter of hours — not days. The use of DSD in this process not only enhances surgical and prosthetic precision, but also improves communication between clinician, technician, and patient. Real clinical cases will demonstrate how a digital-first approach, focused on smile design and soft tissue preservation, leads to predictable outcomes, shorter treatment times, and long-term esthetic success. This lecture will provide practical insights for clinicians looking to adopt a fully digital, patient-centered workflow that combines technology, esthetics, and emotional impact.
Learning Objectives
● Plan and design the diagnostic wax-up.
● Integrate dental anatomy with esthetic principles.
● Use digital software for treatment planning.
● Communicate treatment plans effectively to patients.
● Coordinate efficiently with the dental laboratory.
Abstract
Laser-in-handpiece technology incorporates the Er:YAG laser cavity within the handpiece. This feature reduces dramatically the distance from the source to the target tissue and avoids energy loss during delivery. So the ablation capacity is very efficient and the cutting speed is comparable with a high-speed rotary turbine. The design and maneuverability of the turbine is very similar to conventional dental turbine and handpieces. Thus the adaptation of the user is very fast and learning curve is comfortable. Working in a 1 mm distance from the target tissue with various diameters pseudo-contact or non-contact sapphire laser tips enables to achieve maximum peak power delivery. Copious air/water irrigation control thermal changes and obtain char-free ablation. Inclinated approach to bone surfaces permits the surgeon to control the depth of ablation and increase the control during osteotomies.
Learning Objectives
● Discuss scientific literature on Er:YAG with laser-in-handpiece technology in bone surgery.
● Explain characteristics of laser-in-handpiece technology and bone ablation mechanism of erbium wavelength.
● Explain advanteges of shortened laser cavity distance and target tissue distance in terms of energy delivery capacity of Er:YAG laser.
● Demonstrate laser-in-handpiece Er:YAG usage in clinical cases to perform bone split osteotomies, maxillary sinus lateral window and implant cavity preparations.
● Discuss hint and tips related to laser-in-handpiece Er:YAG in order to make learn participants the benefits and clinical indications.
Abstract
This intensive workshop offers oral surgeons, prosthodontists, and implant-focused dentists a comprehensive, hands-on introduction to fully digital workflows in implantology. Participants will learn how to integrate CBCT imaging and intraoral scanning for precise 3D planning, virtually place implants using prosthetically driven principles, and design surgical guides ready for 3D printing. The program begins with a focused lecture on the evolution from analogue to digital techniques, followed by live demonstrations of intraoral scanning, data merging for implant planning. Through immersive, case-based learning and direct engagement with digital tools, this workshop aims to equip participants with the confidence and skills to adopt digital dentistry, specifically implantology, into their daily practice.
Learning Objectives
● Understand the fundamentals of digital implantology.
● Use intraoral scanning for prosthetically driven implant workflows.
● Integrate CBCT and intraoral scans (DICOM + STL) for planning.
● Apply scan protocols for both simple and complex implant cases.
Abstract
Adjunctive therapies in periodontology and implantology continue to evolve as clinicians seek predictable evidence-based strategies to enhance healing, reduce complications, and improve long-term outcomes. While mechanical debridement and surgical techniques remain the cornerstone of periodontal and peri-implant therapy, the integration of adjunctive agents can optimize both microbial control and host tissue response. Among these, Chlorhexidine and hyaluronic acid represent two of the most extensively studied and clinically relevant adjuncts.
Chlorhexidine, long regarded as the gold standard antimicrobial rinse, demonstrates broad-spectrum efficacy against periodontal pathogens and biofilm, with well-documented benefits in reducing gingival inflammation and early post-surgical infection risk. However, considerations regarding concentration, delivery methods, duration of use, and potential side effects such as staining and altered taste necessitate a balanced, evidence-informed approach to its integration in daily practice.
Hyaluronic acid, a naturally occurring glycosaminoglycan with anti-inflammatory, anti-edematous, and wound healing properties, has gained increasing attention as a regenerative adjunct. Emerging evidence supports its application in non-surgical periodontal therapy, periodontal surgery, and peri-implant procedures, where it may enhance soft tissue healing, promote angiogenesis, and modulate the host immune response. Unlike Chlorhexidine, hyaluronic acid does not carry significant risks of adverse effects, making it an attractive adjunct agent.
Practical recommendations for the use of these adjunctive agents in periodontal and implant settings will be provided with emphasis on indications, limitations, and strategies for integration into routine workflows. By the end of this session, participants will gain a clearer understanding of how chlorhexidine and hyaluronic acid can be selectively and effectively applied to improve patient outcomes in everyday practice. .
Learning Objectives
● Discuss the role of adjunctive therapies in periodontology and implantology, with emphasis on Chlorhexidine and Hyaluronic acid.
● Explain the indications, mechanisms of action, and limitations of Chlorhexidine in both non-surgical and surgical therapies.
● Demonstrate practical protocols for incorporating Hyaluronic acid into periodontal and peri-implant treatment workflows.
● Evaluate the benefits and potential drawbacks of integrating these adjuncts into routine clinical care.
● Apply evidence-based decision-making to select and implement adjunctive therapies that enhance patient outcomes in everyday practice.
Abstract
Dental biofilm plays a critical role in the initiation and progression of periodontal and peri-implant diseases, as well as in healing outcomes after surgical procedures or dental traumas. Therefore, effective biofilm management is essential across all areas of dentistry, including in pediatric prevention and adult restorative and surgical care.
The lecture will provide an evidence-based overview of contemporary biofilm control strategies and their clinical applications. Topics will include the prevention and management of periodontal and peri-implant diseases, biofilm control protocols following tooth extractions, and special considerations in the management of dental avulsion in both children and adults. The session will also talk about adjunctive measures to enhance healing, reduce complications, and improve long-term treatment outcomes.
In addition, we will highlight strategies to improve patient motivation and compliance with oral hygiene instructions, with emphasis on tailoring approaches to different age groups and clinical scenarios. Participants will gain practical insights that can be implemented immediately in daily practice to enhance patient care and treatment predictability. The presentation is aimed and shall benefit dentists, nurses, hygienists and students of dentistry.
Learning Objectives
● Discuss the role of biofilm in periodontal, peri-implant, post-extraction, and traumatic dental cases.
● Explain protocols for biofilm control in children and adults, including management of dental avulsion.
● Identify strategies to integrate biofilm management into preventive, surgical, and trauma-related care.
● Evaluate the effectiveness of adjunctive measures to improve healing and reduce complications.
● Identify practical approaches to enhance patient motivation and compliance across different age groups.
Abstract
The long-term success of implant therapy largely depends on bone quality at the surgical site and the stability of peri-implant soft tissues. Low bone density situations represent a frequent clinical challenge, requiring adapted strategies to achieve sufficient primary stability and long-term predictability. At the same time, soft tissue management plays a decisive role in the functional and esthetic integration of implants.
This hands-on session aims to provide a practical and interactive approach focused on planning and implementing protocols tailored to these specific clinical situations. Through demonstrations and exercises, participants will explore solutions designed to optimize primary stability in low-density bone and enhance peri-implant soft tissue outcomes.
Learning Objectives
● Identify the clinical challenges associated with implant placement in low bone density..
● Describe the biological and mechanical principles required to optimize primary stability.
● Apply practical protocols to improve peri-implant soft tissue management.
Abstract
In the evolving field of regenerative Oral Surgery, Safecut stands as a landmark innovation. It enables clinicians to perform the Shell Technique through a fully digital, guided, and predictable workflow, eliminating the uncertainties traditionally associated with autogenous bone harvesting. Every phase, from digital planning to surgical execution, is meticulously designed in software, allowing the creation of custom surgical guides that make the procedure simpler, faster, and remarkably precise. By embracing this digital transformation, Safecut converts a once complex and operator-dependent process into a safe, reproducible, and efficient intervention that optimises both surgeon comfort and patient outcomes. This roundtable offers an exclusive opportunity to explore how digital technology is redefining daily surgical practice. Participants will see how advanced planning tools, guided instrumentation, and customized templates converge to deliver high precision with minimal intraoperative stress. Safecut is not just a tool, it's a medical device that sets a new standard for predictable bone regeneration.
Scientific basics of piezoelectric bone cutting:
● Explain the core principles and clinical advantages of Safecut as an innovative, fully digital approach to the Shell Technique.
● Understand the digital workflow and decision-making process in computer-guided autogenous bone harvesting, including site selection, safety margins, and planning.
● Illustrate how customised surgical guides streamline and standardise each stage of the procedure, improving precision, efficiency, and operator confidence.
● Explore strategies for adapting and securing the bone block to the defect site, focusing on shaping, adaptation, and fixation techniques.
● Demonstrate the complete Safecut workflow hands-on, from planning to guided execution, using three surgical templates to achieve predictable, safe, and reproducible results.
Abstract
In today’s dental world, the patient’s first consultation happens long before they sit in your chair, it starts online. Potential patients choose who to trust based on what they find (or don’t find) in search results, websites, and social media.
Yet most dental practices don’t know the reality of their digital presence. Are they visible to the right patients, or invisible where it matters most? Are their ads generating growth, or just draining budgets? Is their Instagram building trust, or leaving patients cold?
This live, interactive roundtable strips away assumptions and reveals the truth behind your digital presence. We’ll perform a real-time digital check-up on participating clinics by analysing Google rankings, website performance, ad results, and social media impact.
You’ll see the exact data behind your online presence, discover blind spots that cost patients every month, and learn practical frameworks to fix them. From SEO to ads, from content strategy to social optimisation, you’ll walk away with clarity, and a clear action plan.
This isn’t theory, it’s your clinic, your data, and your growth potential, all on display.
What you’ll gain:
● A clear understanding of your digital visibility and its real impact on patient flow.
● Identify what’s working, and what’s wasting money
Answers to critical questions:
● Are you visible on Google for the right treatments?
● Are your ads converting efficiently?
● Does your Instagram attract new patients?
● Is your website building trust or losing visitors?
● Are you maximising your content production potential?
● A step-by-step method to turn your website and social channels into patient-converting tools.
● A system to plan 12 months of impactful content in a single day.
Join us for a reality marketing check that could redefine the future of your practice.
Abstract
The evolution of digital dentistry has transformed implantology, making treatments more precise, predictable, and efficient. Through a fully guided surgical workflow, clinicians can plan and execute implant placement with exceptional accuracy and confidence. By combining intraoral scanning, CBCT imaging, and digital wax-up design, every aspect of the case — from bone anatomy to prosthetic outcome — can be visualized and controlled before surgery. Hands-on fully guided workflow allows dentists to use surgical guides that ensure precise implant positioning, angulation, and depth, minimizing surgical complications and improving prosthetic results.
Each step, from data acquisition to guide production, is seamlessly integrated using advanced CAD/CAM and 3D printing technologies. In a fully guided approach, the clinician benefits from reduced chair time, enhanced patient comfort, and predictable outcomes that align with the digital plan. This workflow empowers practitioners to perform even complex implant surgeries with confidence, merging digital precision with clinical expertise for optimal patient satisfaction and long-term success.
Scientific basics of piezoelectric bone cutting:
● learn a fully digital workflow. From the initial planning stage to final i mplant placement.
● Explore how digital tools - like guided surgery and CAD/CAM design c an simplify your implant treatments and boost precision.
● Drilling techniques and tips on using surgical guides.
ZONE B
Abstract
Immediate loading of dental implants in fully edentulous patients has revolutionized prosthetic rehabilitation by offering rapid functional and aesthetic restoration. This lecture explores the clinical protocols, biomechanical principles, and case selection criteria critical to the success of immediate loading in full-arch implant cases. Emphasis will be placed on surgical planning, implant positioning, prosthetic design, and occlusal considerations to ensure predictable outcomes. Through clinical cases and evidence-based guidelines, attendees will gain insights into when and how immediate loading can be safely and effectively implemented, along with common challenges and strategies to manage them. The session is designed for clinicians seeking to enhance patient satisfaction while minimizing treatment time without compromising implant success.
Learning Objectives
● Discuss the biological and mechanical principles underlying immediate loading protocols in fully edentulous arches.
● Explain the criteria for patient selection, including bone quality, implant stability, and systemic considerations.
● Demonstrate proper surgical and prosthetic techniques essential for successful immediate loading outcomes.
● Discuss the advantages, limitations, and potential complications associated with immediate loading compared to conventional loading.
● Explain the importance of occlusal scheme design and its role in long-term success of full-arch immediately loaded restorations.
Abstract
In the posterior maxilla, residual bone height is limited by the presence of the sinus and often plays a key factor in the placement of dental implants. A sinus lift is the ideal approach (when evaluating an atrophic maxillary ridge with deficiency in vertical height) to build additional bone in order to place a solid and stable implant. Not every clinician is blessed with the best dexterity or have experience of placing hundreds to thousands of implants. Computer Guided Sinus Lifting System will aid clinicians in placing implants in pre-determined position, angle, and depth with minimum risk of membrane perforation. Most importantly, OneCAS will save clinicians tremendous headache and hassle that come from manually placing implants, and lifting sinus.
Learning Objectives
● Recognize the clinical indications and benefits.
● Understand the digital workflow.
● Compare digital sinus lift protocols with conventional techniques.
● Implement guided surgical techniques using 3D-printed templates.
● Identify potential challenges and limitations of digital-guided sinus augmentation.
Abstract
In modern dental technology, the focus is increasingly on simplicity without compromising aesthetics. Monolithic restorations have become a standard due to their strength and efficiency, yet the challenge remains — how do we breathe life, character, and natural beauty into these ‘blank canvases’?
This lecture will introduce a new material from the VITA portfolio — a liquid ceramic in glaze paste form, developed specifically for the individualization of monolithic constructions. Through a practical demonstration of staining and surface characterization, participants will see how simple techniques can create depth, translucency, and nuanced color, mimicking the complexity of natural teeth.
Using the concept ‘from blank canvas to artwork,’ we will emphasize the importance of thoughtful use of color, light, and texture, where the dental technician becomes both an artist and a craftsman. The goal is not just to copy a tooth, but to interpret it in a way that merges function with aesthetic and emotional value. This lecture is intended for all technicians and dentists who wish to enhance their understanding of monolithic staining, explore the potential of new materials, and find inspiration to elevate their work toward artistic excellence.
Learning Objectives
● Understand the basic properties and benefits of the new VITA glaze paste ceramic.
● Learn fundamental techniques for staining monolithic restorations to achieve a natural appearance.
● Recognize the importance of color, light, and texture in dental aesthetics.
● Apply acquired techniques in everyday laboratory practice with confidence and efficiency.
● Analyze and evaluate finished restorations in terms of both function and aesthetic value.
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Abstract
Discuss about the skills to design and fabricate stackable surgical guides using Exoplan software and the NextDent 5100 3D printer. Emphasis is placed on digital planning for complex implant cases, modular guide design, and biocompatible additive manufacturing workflows.
What you’ll gain:
● Plan multi-implant cases using Exoplan with prosthetic-driven protocols.
● Design stackable surgical guides for sequential drilling and full-arch restorations.
● Prepare and print surgical guides using NextDent 5100 and certified Class IIa biocompatible materials.
● Apply post-processing techniques to ensure clinical accuracy and patient safety.
● Evaluate guide fit and validate surgical accuracy through digital verification methods.
Abstract
Biomaterials are natural or synthetic substances and help to repair, augment, or replace any tissue or organ of the body. Various biomaterials can be used to augment bone for future implant placement. Bone grafts are the type of biomaterials that are used to substitute bone defects and recover atrophic bone regions. Each graft procedure has advantages and disadvantages in each clinical application and needs to choose the graft material with a high success rate and less morbidity. Today, there are various advancements in biomaterials and methods for bone augmentation. The use of different scaffold material types, stem cells, and growth factors shows promise in regenerative treatment interventions for alveolar bone defects.
No single biomaterial or clinical technique is ideal, and the clinicians need to decide the suitable approach which can provide suitable results with less complication. Each graft procedure has advantages and disadvantages and should use the material with a high success rate and less morbidity. It is important to have a clear and detailed understanding of the fundamentals in regenerative science for successful outcomes in bone grafting
Abstract
This hands-on session will introduce participants to the concept of four-dimensional endodontics applied to primary root canal therapy. Attendees will gain practical experience with the new XP-4D file system, paired with the latest motor technology operating at up to 4000 RPM, along with the use of newly developed irrigants and bioceramic obturation systems.
Learning Objectives
● Introduction to XP-4D File System
o Design, metallurgy, and clinical advantages.
o Hands-on use for shaping canals in simulated models.
● Introduction to the 4000 RPM Motor System
o Features and operational settings.
o Demonstration of torque, speed, and efficiency.
● Advanced Irrigation Protocols
o Use of the newly developed irrigant.
o Hands-on activation methods for improved disinfection.
● Bioceramic-Based Obturation
o Application of TotalFill BC sealer with gutta-percha.
o Techniques for single-cone obturation and 3D sealing demonstration.
Abstract
This hands-on session will focus on retreatment strategies using the XP Rise system. Participants will practice effective gutta-percha removal, canal disinfection techniques, and the use of XP Finisher to improve debris removal and irrigation activation.
Learning Objectives
● Introduction to XP Rise for Retreatment
o Features of XP Rise in nonsurgical retreatment.
o Hands-on practice in removing obturation materials.
● Strategies for Gutta-Percha Removal
o Stepwise protocols for predictable removal.
o Troubleshooting resistant filling materials.
● Disinfection of the Retreated Canal System
o Irrigation solutions for retreatment.
o Optimizing contact and penetration in irregular anatomies.
● Use of XP Finisher
o Application for final debris removal.
o Hands-on activation of irrigants to achieve enhanced cleanliness.
Abstract
Modern caries management embraces a biological and minimally invasive philosophy aimed at preserving natural tooth structure. This session presents a comprehensive, stepwise approach to managing caries along its continuum - from preventive fluoride therapy and enamel remineralization in healthy or at-risk patients, to biomimetic regeneration of non-cavitated lesions, and conservative arrest or stabilization of cavitated lesions.
Clinical protocols, case examples, and practical guidelines will be discussed to help clinicians integrate these evidence-based strategies into daily workflows, enhancing long-term tooth preservation and patient satisfaction.
Learning Objectives
By the end of this session, participants will be able to:
● Explain the principles of modern, minimally invasive caries management.
● Identify appropriate clinical strategies for prevention, regeneration, and arrest of carious lesions.
● Apply evidence-based protocols for fluoride therapy, enamel regeneration, and caries arrest.
● Integrate minimally invasive concepts into daily practice to preserve enamel and improve patient outcomes.
Abstract
The evolution of digital dentistry has reshaped clinical workflows—yet true innovation lies in integration, not isolation. This lecture explores how the LiteTouch Er:YAG laser complements digital tools such as intraoral scanners, smile design software, and CAD/CAM systems to create seamless, minimally invasive, and patient-centered treatment experiences. Through real clinical examples, participants will discover how lasers enhance precision, reduce chair time, and elevate aesthetic outcomes in restorative, soft-tissue, and orthodontic procedures. The session also discusses workflow efficiency, communication strategies, and the economic advantages of adopting a laser-integrated digital practice model aligned with modern patient expectations.
Learning Objectives
By the end of this session, participants will be able to:
● Understand the clinical and operational benefits of integrating Er:YAG laser technology within digital workflows.
● Identify key applications of the LiteTouch laser in aesthetic, restorative, and orthodontic treatments.
● Evaluateevidence supporting time efficiency and improved patient outcomes with laser-assisted procedures.
● Develop strategies to incorporate laser dentistry into a digital, patient-centric practice model for sustainable growth.
Abstract
More and more colleagues are asking for solutions to restore edentulous patients with fixed teeth even in cases of severe atrophy and poor quality bone. Flexibility, agility, competence. This is what it takes to master extreme cases. This session is aimed at those who already face full arch rehabilitations with confidence but often stop in front of the most challenging cases, especially in the atrophic maxilla. If you are looking for solutions this is the session for you. After this session, you will increase your treatment options in cases of moderate and severe bone resorption and you will be able to treat more patients with immediate full arch protocol.
Learning Objectives
● I will explain you how to solve your full arch cases in one day, graftless and with immediate loading.
● We will discuss how to solve 100% of your full arch cases with Maxilla-For-All® treatment concept by using pterygoid, trans sinus and zygomatic implants.
● We will discover how to improve your patient’s lives with with Maxilla-For-All® treatment.
● I will explain you all surgical protocol step by step.
● We will discuss how to manage all complications with step by step videos.
Abstract
They will present the latest innovations in endodontic instrumentation, including instrument manufacturing, motors and motions to improve efficacy and safety of root canal preparation, for a simplified, effective approach to NitI instrumentation. It will propose some clinical hints and approaches to maximise efficiency and reduce iatrogenic errors when instrumenting a canal. It will also show the advantages of using single cone hydraulic obturation of the prepared canals, using the 3d printed artificial teeth, previously used for practising instrumentation.
Learning Objectives
● Understanding clinical differences between heat-treated and non-heat-treated NIti files.
● Discussing a new rational approach to canal preparation.
● Learn new techniques to use instruments with minimal stress.
● Choosing a simplified, more biological obturation technique.
Abstract
From doubt to Habit – The Endodontic Transformation traces how endodontics evolved from a painful, uncertain procedure into a biologically driven, precise, and predictable practice. The presentation highlights three pillars of success — Disinfection, Preparation, and Healing — showing how advances in irrigant activation, minimally invasive shaping, and bioceramic materials have redefined clinical outcomes. By integrating magnification, imaging, and evidence-based protocols, endodontic therapy now achieves consistent disinfection and lasting periapical healing. This lecture demonstrates how scientific innovation and clinical precision have transformed root canal therapy from doubt to habit.
Learning Objectives
● Discuss key factors in endodontic transformation.
● Explain principles of irrigant activation.
● Demonstrate effective preparation and activation.
● Identify tools that enhance precision and healing.
● Evaluate cases showing predictable outcomes.
Abstract
Introduce an innovative solution to the challenges faced with traditional dental silicone impressions — solving problems that neither conventional trays nor digital scanners can address effectively.
Learning Objectives
● Discuss the limitations of traditional dental impression techniques..
● Explain the new technique to enhance conventional impression, superior isolation, and elimination of gingival retraction.
● Demonstrate the clinical application to achieve precise, overlap-free impressions with improved patient comfort.
● Identify the clinical benefits, such as reduced procedure time, mess-free workflow, and compatibility with existing impression materials.
● Evaluate how the new technique transforms dental impression-taking and enhances overall clinical outcomes.
Abstract
Bioactive material these days in dentistry are a significant advancement,which areal potential to improve long term patient outcomes. As the profession shifts towards minimally invasive,regenerative,and biologically friendly treatments. So will be talking about the Bioactive materials in terms of what are bioactive materials and what are benefits in clinical practice towards ,restorative dentistry, Endodontics,periodontics,and implantology.
Conclusions:
The future is leaning towards regenerative dentistry where materials don’t just fill a space but stimulate, healing and restore natural function of the teeth.
