For decades, dentists and scientists have dreamed of helping people regrow lost teeth. Now, thanks to remarkable advances in genetics, molecular biology, and regenerative medicine, that dream is ...
Nearly 90% of adults have experienced tooth decay, while gum disease affects over half of American adults—yet conventional ...
Sugar-loving mouth bacteria create acids that damage teeth, but arginine can help fight back. In a clinical trial, ...
SEATTLE — Scientists at the University of Washington are taking stem cell research to a new level. They're working to regenerate something people often take for granted: our teeth. A multidisciplinary ...
A new clinical study involving human participants shows that arginine, a naturally occurring amino acid, can change how dental plaque develops on teeth, helping to reduce the risk of tooth decay. When ...
Paul Sharpe, a bioengineer at King’s College London, and his colleagues discovered a new way regenerate teeth in mice. They have made even more progress that edges this experimental procedure closer ...
In restorative dentistry, the preservation of natural tooth structure remains a primary objective, aligned with the principles of minimally invasive dentistry. This case study highlights the ...
Tooth enamel is the strongest material in the human body, yet it cannot regrow once lost. This thin, protective outer layer shields the teeth from acids, bacteria, and wear. When enamel erodes, the ...
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