Session
10/ 4(sun)
15:15 - 16:45
4F〜6F ホール C
Session 3
Chasing the Perfect Match:
The Art & Science of Composite Shade Matching for Life-Like Restorations
完璧なシェードマッチングを追い求めて
~天然歯を模倣するCRシェードマッチングの技術とは~
We are pleased to welcome outstanding young and mid‑career members of the Bio‑Emulation community who are active internationally. They will deliver lectures on “achieving more natural shade matching,” an essential aspect of anterior esthetic restorations.
The speakers—who have also presented at Bio‑Emulation Paris 2026 and have extensive experience—will share the latest evidence. Together with all participants, we will explore the “answers” to achieving shade matching that closely reproduces natural dentin and enamel.
Lecturer
Shade Mismatch in Anterior Composite Restorations:
Evidence-Based Simple Clinical Guidelines for the Success
Shade Mismatch in Anterior Composite Restorations:
Evidence-Based Simple Clinical Guidelines for the Success
- In anterior composite restorations, achieving a natural shade match is the key to success.
- Advances in optical and mechanical properties now allow highly esthetic and long‑lasting results in a short chair time.
- Poor shade matching often leads to retreatment, making it essential to understand failure factors and clinical techniques.
Clinicians should always remember that shade-matching problems may lead to the repair or total replacement of the restoration. This lecture will discuss the scientific evidence behind the shade matching failures of anterior composite restorations. Pre-operative and post-operative reasons for failure will be discussed, and simple clinical tips will be explained to obtain an optimal shade match in different clinical scenarios.
Lecturer
A posterior workflow
― Where form meets function
A posterior workflow
― Where form meets function
- Biomimetic techniques enable harmony in both form and function.
- Success in posterior restorations hinges on selecting materials that match the tissue.
Through clinical cases and workflow breakdown, this lecture presents a structured approach for Class V and Class II posterior composite restorations built around biomimetic principles: matching material properties to the tissues they replace. Fibre-reinforced composite is utilised for dentine replacement, enhancing fracture resistance and stress distribution, while a conventional paste composite is selected for enamel replacement to optimise wear resistance, surface polish, and optical integration.
By aligning physical properties with natural tooth structure, we allow biology to guide material choice rather than compromise it.










