NYU researchers develop zinc-based treatment for caries

Dental Tribune International

Fri. 24 October 2025

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NEW YORK, US: Although silver diamine fluoride remains an effective non-invasive option for treating caries, its characteristic black staining is a major barrier to patient acceptance. To address these aesthetic limitations, researchers at New York University have developed a zinc-based compound that could prevent and treat caries without discolouring teeth.

Research has shown that silver diamine fluoride can successfully arrest and prevent caries in children and has proven more effective than dental sealants in school-based prevention programmes. In search of a non-staining alternative, the New York University researchers, led by Dr Marc Anton Walters, professor of chemistry, synthesised the compound zinc tetraammine difluoride. When applied to the moist tooth surface, it reacts deep within the dentine to form zinc oxide and zinc hydroxyfluoride. These minerals block the tubules and gradually release antimicrobial zinc and fluoride ions, Prof. Walters explained in a university press release. This dual action provides both antibacterial protection and relief from hypersensitivity.

Preliminary studies using electron microscopy showed that the material penetrates deeply and seals dentinal tubules within minutes. In laboratory tests, the zinc oxide remained stable for up to two months, showing the potential to last considerably longer.

The research team is collaborating with Southern Dental Industries, which holds the licence for the technology’s commercial development. Together with Periomics Care, a startup co-founded by Dr Deepak Saxena, professor of molecular pathobiology at New York University College of Dentistry, the researchers have received funding from the US National Institutes of Health to continue formulation and feasibility studies.

Their goal is to create a non-staining, effective and affordable agent that prevents caries and reduces hypersensitivity, Prof. Saxena explained. The next phase of research will thus evaluate the compound’s antimicrobial efficacy, safety and shelf life before advancing to clinical trials.

Prof. Marc Anton Walters (left) with an undergraduate chemistry student in the laboratory.

Microscopic image of a dentinal tubule filled with the zinc compound.

Prof. Deepak Saxena and Prof. Marc Anton Walters (right) are collaborating on a project, funded by a National Institutes of Health Small Business Technology Transfer grant, to further develop the zinc-based treatment.