Dental

About us

The 34th International Conference on Dental, scheduled for August 24–25, 2026, in London, UK, is a premier global platform that brings together leading dental professionals, researchers, academicians, clinicians, and industry innovators. Under the theme “Reinventing Oral Health: Precision Dentistry, Regenerative Innovations & Digital Transformation,” the conference aims to explore the latest advancements and transformative solutions in oral healthcare. The event provides a unique opportunity to share cutting-edge research, exchange ideas, and foster collaborations that drive innovation in dentistry and oral medicine. The conference emphasizes precision dentistry, highlighting personalized treatment strategies, digital workflows, and minimally invasive procedures designed to enhance patient outcomes. Regenerative dentistry and innovative biomaterials are showcased as solutions for restoring oral tissues, improving dental function, and promoting long-term oral health. Digital transformation, including AI-powered diagnostics, 3D imaging, CAD/CAM technology, and tele-dentistry, demonstrates the integration of technology into everyday clinical practice, improving accuracy, efficiency, and patient experience. Participants will engage with thought leaders through keynote presentations, panel discussions, interactive workshops, and live demonstrations covering various dental disciplines such as restorative dentistry, orthodontics, periodontics, endodontics, implantology, and pediatric dentistry. The conference also offers opportunities for networking, collaboration, and professional development, attracting a diverse audience from academia, clinical practice, and industry. Set in the vibrant city of London, this event promises an inspiring and forward-looking experience, empowering dental professionals to embrace innovation, advance clinical excellence, and redefine the future of oral healthcare worldwide.

Sessions

Precision Dentistry – Personalized Care

Precision Dentistry – Personalized Care integrates individualized approaches to oral health management, emphasizing tailored treatments that consider patient-specific anatomical, genetic, and lifestyle factors. Modern diagnostic tools such as intraoral scanners, 3D imaging, and digital workflow technologies enable clinicians to design customized interventions for optimal outcomes. Personalized care encompasses minimally invasive procedures, targeted preventive strategies, and adaptive treatment planning to address unique dental needs. By combining genomic data, biomarker analysis, and real-time clinical assessments, precision dentistry ensures accurate diagnosis, effective treatment delivery, and reduced complications. Patient-specific materials and prosthetics further enhance treatment success. This approach improves patient satisfaction, reduces treatment time, and elevates overall oral health. The integration of precision dentistry in clinical practice aligns with broader healthcare trends, promoting predictive, preventive, and proactive care models. As technologies evolve, personalized dentistry is set to redefine treatment standards, ensuring outcomes are increasingly efficient, safe, and aligned with individual patient needs, supporting the next generation of oral healthcare solutions.

Regenerative Dentistry – Tissue Restoration

Regenerative Dentistry – Tissue Restoration focuses on restoring damaged dental tissues through innovative biological and cellular therapies. Techniques involve the use of stem cells, growth factors, and biomaterials to promote natural tissue regeneration in the oral cavity. Regenerative approaches are applied in periodontal repair, pulp revitalization, bone augmentation, and soft tissue reconstruction, offering alternatives to conventional restorative methods. Advances in scaffold design, bioactive compounds, and cell signaling pathways enhance tissue integration and functional recovery. Techniques such as platelet-rich plasma therapy, stem cell implantation, and gene-activated matrices support healing and regeneration of lost or damaged structures. Regenerative dentistry not only restores aesthetics and function but also preserves natural tissue, reducing the need for synthetic prosthetics. By leveraging advancements in molecular biology, biomaterials science, and tissue engineering, clinicians can deliver predictable, long-lasting solutions for complex dental challenges. The field continues to evolve, integrating research breakthroughs into practical, clinically relevant applications, offering transformative solutions for oral rehabilitation.

Digital Dentistry – CAD/CAM & 3D Imaging

Digital Dentistry – CAD/CAM & 3D Imaging emphasizes technology-driven solutions that streamline diagnosis, planning, and treatment delivery. Computer-aided design and manufacturing (CAD/CAM) systems allow clinicians to design restorations, crowns, bridges, and prosthetics with unparalleled precision. High-resolution 3D imaging, intraoral scanning, and cone-beam computed tomography provide detailed anatomical data, enabling accurate treatment planning and minimally invasive procedures. Digital workflows enhance patient communication, allowing visualization of outcomes before treatment begins. Integration of virtual models with surgical guides supports implant placement, orthodontic alignment, and complex restorative procedures. Digital dentistry reduces errors, shortens treatment times, and improves overall efficiency in clinical practice. Emerging technologies, such as AI-assisted image interpretation and virtual reality simulations, further optimize diagnostics and patient engagement. The adoption of digital solutions facilitates customized, reproducible treatments, enhancing both clinical outcomes and patient satisfaction. Continuous innovation in this field ensures dentistry remains adaptive, precise, and aligned with modern patient expectations.

Implantology – Advanced Dental Implants

Implantology – Advanced Dental Implants focuses on the restoration of missing teeth through state-of-the-art dental implants, ensuring functionality, stability, and aesthetics. Modern implantology integrates 3D imaging, guided surgery, and precision planning to achieve optimal placement and long-term success. Advances in biomaterials, including titanium alloys and ceramic implants, enhance osseointegration, durability, and biocompatibility. Techniques such as immediate loading, sinus augmentation, and bone grafting expand clinical possibilities, enabling treatment in challenging anatomical situations. Digital planning software allows virtual simulation of implant placement, reducing surgical risks and improving predictability. The combination of regenerative techniques and implant technology supports comprehensive oral rehabilitation, including full-arch restoration and hybrid prosthetics. Implantology also addresses patient comfort and recovery through minimally invasive surgical methods. Continuous research in surface modifications, nanoscale coatings, and bioactive materials further improves implant performance. This field exemplifies the integration of technology, biology, and clinical expertise, delivering high-quality, functional, and aesthetically pleasing solutions for patients with missing or damaged teeth.

Orthodontics – Clear Aligners & Innovations

Orthodontics – Clear Aligners & Innovations highlights the evolution of teeth-straightening techniques, emphasizing aesthetics, comfort, and efficiency. Clear aligners provide a virtually invisible solution for correcting malocclusions, crowding, and spacing issues, leveraging digital treatment planning and 3D printing technologies. Advanced imaging and computer-aided simulation allow clinicians to predict tooth movement and customize aligner sequences for each patient. Innovations extend to accelerated orthodontic techniques, including vibration therapy, temporary anchorage devices, and minimally invasive procedures that reduce treatment duration. Functional orthodontics and early intervention strategies focus on guiding jaw growth and occlusion in children, preventing severe malocclusion. Integration of AI and machine learning enables predictive modeling of treatment outcomes, enhancing precision and reducing human error. Modern orthodontics combines biomechanical understanding, patient-centered care, and technological tools to achieve functional and aesthetic alignment. These advancements ensure effective, comfortable, and personalized orthodontic solutions for diverse patient populations, elevating overall oral health and confidence.

Endodontics – Root Canal Advancements

Endodontics – Root Canal Advancements focuses on modern approaches to preserving natural teeth through innovative root canal therapies. Enhanced imaging, including cone-beam computed tomography and digital radiography, allows precise visualization of root canal anatomy and identification of complex cases. Advanced instrumentation, including rotary files, reciprocating systems, and ultrasonics, improves cleaning, shaping, and debridement efficiency while minimizing procedural errors. Modern irrigation techniques, bioactive sealers, and obturation methods ensure long-term success by preventing reinfection and promoting periapical healing. Regenerative endodontic procedures utilize stem cells and growth factors to revitalize necrotic pulp tissue, supporting natural tooth regeneration. Pain management, minimally invasive techniques, and single-visit treatment protocols enhance patient comfort and satisfaction. Integration of magnification tools such as microscopes and digital documentation ensures procedural accuracy. Continuous innovation in endodontics allows clinicians to maintain natural dentition, improve treatment predictability, and provide long-lasting solutions for complex dental challenges.

Periodontics – Gum Disease Management

Periodontics – Gum Disease Management emphasizes the prevention, diagnosis, and treatment of periodontal disorders, focusing on maintaining supporting structures of the teeth. Advanced diagnostic tools, including digital imaging, probing systems, and biomarker analysis, enable early detection of gingivitis, periodontitis, and peri-implant diseases. Therapeutic approaches combine scaling and root planing, minimally invasive flap surgery, regenerative procedures, and laser-assisted interventions to restore periodontal health. Innovations in biomaterials, growth factors, and guided tissue regeneration support predictable soft and hard tissue repair. Periodontal maintenance programs, patient education, and lifestyle management play critical roles in sustaining long-term oral health. Integration of digital tools, AI-assisted assessment, and precision therapy ensures targeted treatment and improved outcomes. Emerging therapies, including host modulation, stem cell applications, and anti-inflammatory agents, further enhance periodontal care. By combining preventive strategies with advanced interventions, modern periodontics delivers effective solutions for maintaining oral health, preventing tooth loss, and improving overall quality of life.

Cosmetic Dentistry – Smile Makeovers

Cosmetic Dentistry – Smile Makeovers focuses on enhancing aesthetic appeal and oral function through advanced dental procedures. Treatments include veneers, teeth whitening, bonding, contouring, and full-mouth rehabilitation, tailored to individual patient needs. Modern cosmetic dentistry integrates digital smile design, 3D imaging, and CAD/CAM technologies to visualize outcomes and plan precise interventions. Materials such as high-strength ceramics, composite resins, and biocompatible polymers ensure durable and natural-looking restorations. Minimally invasive techniques preserve healthy tooth structure while optimizing results. Cosmetic dentistry also addresses alignment, bite correction, and soft tissue aesthetics, enhancing overall oral harmony. Integration with orthodontics, periodontics, and prosthodontics supports comprehensive smile transformation. Patient-centered care emphasizes functional outcomes, long-term stability, and personalized aesthetics. Advances in laser dentistry, shade-matching technologies, and bonding systems improve treatment efficiency and predictability. With growing awareness of oral appearance’s impact on confidence and wellbeing, cosmetic dentistry continues to expand, offering transformative solutions that combine artistry, science, and technology for optimal smile design.

Pediatric Dentistry – Child Oral Health

Pediatric Dentistry – Child Oral Health focuses on preventive and therapeutic strategies for infants, children, and adolescents. Early intervention supports proper dental development, cavity prevention, and management of oral habits such as thumb sucking or tongue thrusting. Treatments include fluoride therapy, sealants, restorative procedures, and behavioral guidance tailored to the developmental stage of the child. Pediatric dentists employ specialized techniques for pain management, patient cooperation, and minimizing dental anxiety. Preventive programs educate caregivers on nutrition, oral hygiene, and early disease detection. Advances in sedation dentistry, laser therapy, and minimally invasive restorations enhance safety and comfort. Pediatric dentistry also addresses congenital disorders, malocclusion, and trauma management. Digital imaging, 3D scanning, and computer-assisted treatment planning improve diagnostic accuracy and treatment precision. Collaboration with pediatric specialists ensures comprehensive care for children with medical or developmental complexities. Emphasis on early prevention, education, and modern interventions ensures lifelong oral health, fostering confidence and healthy habits from a young age.

Preventive Dentistry – Oral Hygiene Strategies

Preventive Dentistry – Oral Hygiene Strategies emphasizes proactive measures to maintain oral health and prevent disease. Regular check-ups, professional cleaning, fluoride treatments, and dental sealants protect teeth from decay, cavities, and gum disease. Personalized oral hygiene instruction, including brushing, flossing, and dietary guidance, empowers patients to manage daily oral care. Advances in diagnostic tools, including plaque detection systems, bacterial profiling, and digital monitoring, facilitate early intervention. Preventive strategies extend to risk assessment, lifestyle counseling, and targeted therapies for high-risk populations. Pediatric, adult, and geriatric patients benefit from tailored prevention programs. Integration of technology, such as mobile health applications and AI-driven reminders, enhances compliance and engagement. Preventive dentistry reduces the need for invasive procedures, lowers treatment costs, and improves overall systemic health. Modern preventive approaches combine patient education, clinical monitoring, and innovative technologies to support optimal oral hygiene, early disease detection, and sustained dental wellness across all ages.

Prosthodontics – Crowns, Bridges & Dentures

Prosthodontics – Crowns, Bridges & Dentures emphasizes the restoration and replacement of missing teeth to restore function, aesthetics, and oral health. Advanced materials, including ceramics, alloys, and hybrid composites, allow durable, natural-looking restorations. CAD/CAM technology, 3D printing, and digital impressions improve precision, fit, and efficiency in prosthetic design. Treatments encompass single-tooth crowns, multi-unit bridges, full-arch dentures, implant-supported prostheses, and maxillofacial rehabilitation. Prosthodontics integrates with implantology, orthodontics, and restorative dentistry to achieve optimal occlusion, mastication, and aesthetics. Personalized treatment planning ensures functional stability, comfort, and long-term success. Emerging techniques, including computer-guided implant placement and virtual prosthetic simulation, enhance predictability and patient satisfaction. Prosthodontic care addresses challenges of tooth loss due to trauma, disease, or congenital anomalies. By combining clinical expertise, digital workflows, and material science, prosthodontics delivers restorative solutions that enhance oral function, improve self-confidence, and maintain long-term dental health.

Laser Dentistry – Minimally Invasive Treatments

Laser Dentistry – Minimally Invasive Treatments leverages laser technology to perform precise dental procedures with reduced pain, bleeding, and recovery time. Applications include soft tissue surgery, periodontal therapy, cavity removal, root canal disinfection, teeth whitening, and lesion treatment. Lasers offer enhanced precision, targeting affected tissues while preserving healthy structures, improving procedural outcomes and patient comfort. Advantages include reduced need for anesthesia, faster healing, minimal swelling, and lower infection risk. Integration with digital imaging and diagnostic tools ensures accurate application and treatment planning. Laser therapy supports cosmetic enhancements, regenerative procedures, and minimally invasive interventions across pediatric, adult, and geriatric populations. Continuous advancements in laser types, wavelengths, and delivery systems expand clinical versatility. Patient education and protocol standardization ensure safe and effective utilization. By combining technology with traditional dentistry, laser dentistry enhances efficiency, precision, and patient-centered care, representing a modern approach to dental treatment.

Dental Biomaterials – Innovation & Applications

Dental Biomaterials – Innovation & Applications explores the development and clinical integration of advanced materials for restorative, prosthetic, and regenerative dentistry. Modern biomaterials include ceramics, polymers, composites, metals, bioactive glasses, and hybrid systems designed for durability, biocompatibility, and aesthetic quality. Applications span crowns, bridges, implants, fillings, sealants, scaffolds for tissue regeneration, and orthodontic devices. Material properties such as strength, flexibility, wear resistance, and bonding capabilities influence treatment success and longevity. Innovations in nanotechnology, surface coatings, and bioactive formulations enhance tissue integration, reduce bacterial colonization, and promote healing. Digital fabrication, CAD/CAM processing, and 3D printing enable precise, reproducible restorations. Ongoing research focuses on smart materials that respond to oral environment changes and support regenerative outcomes. Understanding material–tissue interactions, clinical performance, and patient-specific requirements ensures optimal application. Dental biomaterials drive innovation across multiple disciplines, enabling safer, more efficient, and aesthetically superior solutions for contemporary oral healthcare.

Tele-Dentistry – Remote Oral Care Solutions

Tele-Dentistry – Remote Oral Care Solutions utilizes digital platforms to deliver dental consultation, diagnosis, and treatment guidance without physical presence. Video consultations, secure messaging, and mobile imaging apps enable remote patient monitoring, triage, and preventive care. Tele-dentistry enhances access for patients in rural, underserved, or mobility-limited populations, ensuring continuity of care. Integration with electronic health records, digital imaging, and AI-driven analysis supports remote diagnostics, treatment planning, and follow-up assessments. Preventive programs, oral hygiene education, and chronic condition monitoring are facilitated through virtual platforms. Tele-dentistry also supports collaboration between general dentists and specialists, enabling multidisciplinary care. Regulatory frameworks, data security, and workflow standardization ensure patient safety and compliance. Emerging technologies, including telediagnostic tools, wearable oral sensors, and AI-assisted evaluation, expand clinical capabilities. Remote oral care complements in-office treatment, enhances patient engagement, reduces healthcare costs, and strengthens overall access to dental services in the modern, connected era.

AI in Dentistry – Predictive Diagnostics

AI in Dentistry – Predictive Diagnostics leverages artificial intelligence, machine learning, and data analytics to enhance clinical decision-making, diagnosis, and treatment planning. Algorithms analyze radiographs, CBCT scans, patient history, and biomarker data to detect caries, periodontal disease, oral lesions, and structural anomalies with high accuracy. Predictive modeling supports early intervention, risk assessment, and personalized treatment strategies, improving outcomes and reducing complications. AI integration streamlines workflow, automates documentation, and assists in treatment simulations, including orthodontic aligner planning, implant placement, and restorative procedures. Real-time decision support systems enable adaptive treatment recommendations based on evolving patient data. AI also facilitates patient engagement through predictive oral health assessments, virtual coaching, and outcome visualization. By combining clinical expertise with intelligent algorithms, AI-driven diagnostics enhances efficiency, accuracy, and consistency in dental practice. Continuous advancements in neural networks, deep learning, and big data analytics position AI as a transformative tool, reshaping preventive, restorative, and surgical dentistry.

Market Analysis

The global dental market is witnessing significant growth, driven by increasing awareness of oral health, rising prevalence of dental disorders, technological advancements, and a growing demand for cosmetic and restorative dental procedures. Oral diseases, including dental caries, periodontitis, malocclusion, tooth loss, and oral cancers, affect millions worldwide, creating substantial opportunities for preventive, diagnostic, and therapeutic solutions. The expanding geriatric population, coupled with lifestyle changes and higher consumption of sugar-rich diets, contributes to a sustained demand for both general and specialized dental care services. Advances in dental materials, regenerative therapies, and minimally invasive procedures are reshaping clinical practice, enhancing treatment outcomes, and improving patient experiences. Technological innovations, such as digital dentistry, CAD/CAM systems, 3D printing, intraoral scanners, and cone-beam computed tomography, are transforming traditional dental workflows. These tools facilitate precise treatment planning, faster delivery of restorations, and customized solutions for patients. Implantology, orthodontics, and prosthodontics are witnessing robust growth due to increasing aesthetic awareness and demand for functional rehabilitation. Regenerative dentistry, including stem cell therapies and tissue engineering, presents opportunities for next-generation restorative solutions. Cosmetic dentistry, with treatments like teeth whitening, veneers, and smile makeovers, is gaining popularity among younger and middle-aged populations, driving the aesthetic segment. The adoption of tele-dentistry and AI-driven predictive diagnostics is expanding access to care, particularly in remote and underserved regions, while also supporting preventive programs and continuous patient monitoring. Integration of wearable devices, digital monitoring tools, and software-as-a-medical-device solutions enhances patient engagement and compliance. The rising prevalence of chronic systemic conditions, such as diabetes and cardiovascular disease, underscores the need for integrated oral-systemic health approaches, further boosting the dental services market.

Geographically, North America and Europe dominate the dental market, attributed to advanced healthcare infrastructure, strong regulatory frameworks, high disposable incomes, and early adoption of innovative technologies. However, the Asia-Pacific region is emerging as the fastest-growing market due to a large population base, rising awareness, increasing dental insurance coverage, and government initiatives promoting oral healthcare. The market also benefits from partnerships between global dental technology companies and regional manufacturers, facilitating product accessibility and affordability. Despite challenges, including high treatment costs, limited skilled workforce, and regulatory hurdles, the dental market is projected to expand steadily. Continuous innovation in materials, technology, and personalized care positions the global dental industry as a dynamic and high-growth sector, redefining oral health management and treatment paradigms worldwide.

Past Conference Report

Dental 2025

The 33rd International Conference on Dental is a premier global event scheduled for October 20-21, 2025, in Barcelona, Spain. With the theme "Excellence in Dental Research & Clinical Advancements," this conference serves as a dynamic platform for dentists, researchers, academicians, and industry leaders to exchange knowledge, explore innovations, and discuss the future of dentistry. This two-day event will feature keynote sessions, scientific presentations, hands-on workshops, and interactive panel discussions covering topics such as digital dentistry, advanced orthodontics, regenerative therapies, AI-driven diagnostics, and minimally invasive procedures. Attendees will gain insights into groundbreaking research, emerging technologies, and clinical best practices that are transforming modern dentistry. The conference also offers networking opportunities with global experts, exhibitors showcasing cutting-edge dental technologies, and discussions on the latest industry trends. Whether you are a practicing dentist, researcher, or dental industry professional, this event is your gateway to enhancing knowledge, fostering collaborations, and staying ahead in dental science and healthcare.

Join us in Barcelona for an engaging and impactful experience in the evolution of dentistry!