Fluorescent diagnostics using aluminum phthalocyanine nanoparticles as a detection method for enamel microcracks

Abstract: Early diagnosis of caries and enamel microcracks is of great importance for the prevention of the destruction of healthy tooth enamel. It was reported that aluminum phthalocyanine in the form of nanoparticles (nAlPc) can be used for fluorescent diagnostics of tooth enamel microcracks. A model compound with the nAlPc colloid and Protelan MST-35 were prepared for the development of the method of laser-induced fluorescent diagnostics (FD). Two groups of human teeth were used to research the interaction between th… Show more

“…The fact they are sustained, intense and uniform in color, combined with the synthetic availability of these flat aromatic πsystems, determines their widespread use in various industries (application in recording devices (CD/R), in liquid crystal displays, photoconductors in laser printers, and also as radiation absorbers and p -conductors in organic solar cells). In addition, they are used in the diagnosis of cancer (photosensitizers), photo-thermotherapy and subsequent photodynamic therapy, laser-induced fluorescence diagnostics, etc [1][2][3]. It is required to synthesize phthalocyanines (Pc) of various metals and a specific morphology for each of these tasks.…”

Generation of phthalocyanine nanoparticles by laser fragmentation

“…The fact they are sustained, intense and uniform in color, combined with the synthetic availability of these flat aromatic πsystems, determines their widespread use in various industries (application in recording devices (CD/R), in liquid crystal displays, photoconductors in laser printers, and also as radiation absorbers and p -conductors in organic solar cells). In addition, they are used in the diagnosis of cancer (photosensitizers), photo-thermotherapy and subsequent photodynamic therapy, laser-induced fluorescence diagnostics, etc [1][2][3]. It is required to synthesize phthalocyanines (Pc) of various metals and a specific morphology for each of these tasks.…”

Generation of phthalocyanine nanoparticles by laser fragmentation