Abstract
Microbial infection is a severe concern, requiring the use of significant amounts of antimicrobials/biocides, not only in the hospital setting, but also in other environments. The increasing use of antimicrobial drugs and the rapid adaptability of microorganisms to these agents, have contributed to a sharp increase of antimicrobial resistance. It is obvious that the development of new strategies to combat planktonic and biofilm-embedded microorganisms is required. Photodynamic inactivation (PDI) is being recognized as an effective method to inactivate a broad spectrum of microorganisms, including those resistant to conventional antimicrobials. In the last few years, the development and biological assessment of new photosensitizers for PDI were accompanied by their immobilization in different supports having in mind the extension of the photodynamic principle to new applications, such as the disinfection of blood, water, and surfaces. In this review, we intended to cover a significant amount of recent work considering a diversity of photosensitizers and supports to achieve an effective photoinactivation. Special attention is devoted to the chemistry behind the preparation of the photomaterials by recurring to extensive examples, illustrating the design strategies. Additionally, we highlighted the biological challenges of each formulation expecting that the compiled information could motivate the development of other effective photoactive materials.
Highlights
Nowadays bacterial infections are still considered a severe burden worldwide, an issue that tends to increase, in the clinic area, and in other areas
Several microorganisms, such as bacteria, fungi, green algae, cyanobacteria, and lichen, possess the ability to grow in biofilm form and they are usually incorporated in a matrix of extracellular polymeric substances (EPS) auto-produced by the Molecules 2018, 23, 2424; doi:10.3390/molecules23102424
The results showed that the best Photodynamic inactivation (PDI) combination was attained when thepolymer) light waswas applied for biofilmcompared coverage to greater than 50%
Summary
Nowadays bacterial infections are still considered a severe burden worldwide, an issue that tends to increase, in the clinic area, and in other areas. Significant amounts of antimicrobials/biocides filamentous fungi, can cause severe problems to human health and their eradication is harder to are being used to combat planktonic and biofilm-embedded microorganisms’ growth in achieve than in planktonic form [9,10]. The release of antimicrobials/biocides used to combat planktonic and biofilm-embedded microorganisms’ growth in physiological fluids, into the environment may induce new hazards to human health and environmental problems [11]. It is of general consensus that microorganisms caused by their fast reproduction rate is responsible for an increase in their resistance the development of new strategies to combat planktonic, as well as biofilm-embedded to the antimicrobials/biocides [6]. When pertinent, some older works and research with other PSs will be mentioned
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