The novel approach for imaging of antimicrobial photodynamic therapy processes presented in this work is based on transmission electron microscopy methods. With the use of liquid cell, illumination system, and lowered electron dose the successful light-induced in-situ observations on Staphylococcus aureus encapsulated with methylene blue were performed. Results showed that with specified imaging parameters it is possible to conduct reliable research on bacteria in electron microscope despite the unfavorable damaging effect of the highly energetic electron beam used for imaging. This approach differs from the common methods, as it provides direct observations of the processes occurring upon light illumination. The effects obtained with the proposed method are very promising and may serve to answer why different microorganisms respond to the therapy differently.
Keywords: LED; Methylene blue; Photochemical reaction; Staphylococcus aureus; aPDT.
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