LED-Based In Vitro Screening for Assessing Photoactivable Molecules in Bacterial Photodynamic Inactivation.

Abstract

The rise of multi-drug-resistant infections and the lack of new antibiotic classes have renewed interest in alternative therapies like photodynamic inactivation of bacteria (aPDI). This process involves the administration of a photosensitizer (PS) activated by a suitable visible light source, producing exacerbated levels of reactive oxygen species (ROS) that damage crucial cellular biomolecules, ultimately causing bacterial cell death. It is crucial to create standardized, easy-to-use, and reproducible initial tests to assess and compare the effectiveness of light-induced phototoxicity of potential photosensitizers. This study introduces a simple and efficient in vitro technique for assessing photodynamic activity against planktonic bacterial cells. By employing a 96-well microplate format along with a large LED panel, the system facilitates the systematic evaluation of various compounds. Such a configuration allows for high-throughput screening of potential photosensitizers in a controlled and consistent environment, simplifying the process of identifying promising candidates for further development. This flexible platform serves as an important step in advancing the development of innovative photodynamic therapies for managing antibiotic-resistant infections.