Process for obtaining fluoride-doped citrate-coated amorphous calcium phosphate nanoparticles. This material has applications in biomedicine due to its biodegradability and bioactivity; it also promotes cell adhesion and osteogeneration. In dentistry, it may be used in toothpastes, mouthwashes, chewing gums, gels and fluoride varnishes as a remineralising agent of dentine and enamel. It is based on two solutions formed by calcium chloride and sodium citrate on the one hand, and by sodium monohydrogenophosphate and sodium carbonate with a fluoride compound on the other, which are mixed at room temperature. The process is eco-efficient and eco-friendly, as it does not leave any acid residue; it consists of a single stage and it is the first time that an amorphous calcium phosphate coated with citrate and doped with fluoride, which enhances its remineralising action, is obtained.

Disclosed are biomimetic mineral based endodontic cement compositions. An endodontic cement comprises a paste A and a paste B. The paste A comprises a pozzolanic cementitious mineral paste and the paste B is a mixture comprising polyanionic polymers, phosphates, cement setting modulators, host-inclusion particles, bioactive glasses, and radiopacity agents suspended in a liquid carrier.

A cosmetic and/or therapeutic treatment of tissue, such as tooth, is disclosed that effects, for instance, whitening and tissue re-building through mineralisation. Further, a method of performing iontophoresis utilizing an aqueous composition of a remineralising agent to achieve mineralisation is disclosed, as well as a kit for performing the mineralization or re-mineralization.

A cosmetic and/or therapeutic treatment of tissue, such as tooth, is disclosed that effects, for instance, whitening and tissue re-building through mineralisation. Further, a method of performing iontophoresis utilizing an aqueous composition of a remineralising agent to achieve mineralisation is disclosed, as well as a kit for performing the mineralization or re-mineralisation.

A cosmetic and/or therapeutic treatment of tissue, such as tooth, is disclosed that effects, for instance, whitening and tissue re-building through mineralization. Further, a method of performing iontophoresis utilizing an aqueous composition of a remineralizing agent to achieve mineralization is disclosed, as well as a kit for performing the mineralization or remineralization.

Compositions of, methods of making, and methods of using alkaline earth phosphate bone cements are disclosed.

Compositions of, methods of making, and methods of using alkaline earth phosphate bone cements are disclosed.

Provided herein are compositions and their methods of use to adhere (e.g., in wet and dry environments) a variety of materials together.

Provided herein are compositions and their methods of use to adhere (e.g., in wet and dry environments) a variety of materials together.

Light emitting dental composites are fluorescing composite resins that are produced by combining one or more dental composites, such as, conventional dental composites, glass ionomer cements, resin modified glass ionomers, and/or bioactive dental composites, in either bulk fill form or flowable form, with a light energized and light emitting strontium aluminate or similar compound to form a light emitting dental composite. The light emitting dental composite makes composite resins easily identifiable when activated by a UV light source, allowing for use preferably with temporary placement, visualization, and/or removal of orthodontic attachments and restorative dentistry.