Prof. Tomas Linkevičius
PhD in implant dentistry, Professor at Vilnius University, Researcher
- Implant Dentist, Researcher, Educator
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Creator of Zero Bone Loss Concepts for achieving long-term crestal bone stability.
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Author of Zero Bone Loss Concepts Book and numerous peer-reviewed publications
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Researcher on soft-tissue thickness, implant placement protocols, and prosthetic factors influencing bone stability.
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International lecturer
Professor Tomas Linkevičius is a globally recognised implant dentist, researcher, and educator, best known for developing the groundbreaking Zero Bone Loss Concepts, an evidence-based methodology focused on achieving long-term crestal bone stability around dental implants. He has authored numerous peer-reviewed publications and an internationally acclaimed Zero Bone Loss Concepts textbook that has transformed modern implantology.
With a PhD in implant dentistry and extensive academic experience, Prof. Linkevičius serves as a professor at Vilnius University, where he continues to lead research on soft-tissue thickness, implant placement protocols, and prosthetic factors affecting bone stability. He lectures worldwide and is regarded as one of the most influential voices in implant science today.
Latest news
The Gold Standard in Bone Grafting: Autogenous Bone Augmentation
When it comes to bone grafting in implant dentistry, autogenous bone remains the gold standard. This Khoury Bone Block approach—pioneered by Prof. Dr. Fouad Khoury—offers unmatched biological and mechanical advantages over other graft materials, enabling long-term...
Unique properties of Yxoss CBR that make bone augmentation easier
Yxoss CBR® has revolutionised oral bone augmentation by customising the commonly used “titanium mesh”, using a digital workflow of CBCT data combined with 3-D printing technology to fit the individual anatomy of each patient.The designed structure of the titanium...
Advantages of Yxoss CBR over other bone graft techniques
Yxoss CBR® is a 3-D-printed titanium scaffold engineered and developed for customised treatment of patients with complex alveolar ridge defects. It combines the advantages of 3-D imaging, planning tools, and 3-D printing. The designed structure of the titanium...
13,5 hours Verifiable CPD
Hands-on Course
