Gram-negative bacteria and bacteria in biofilms are very difficult to eradicate and are at the origin of the most antibiotic-resistant bacteria. Therapeutic alternatives less susceptible to mechanisms of resistance are urgently needed to respond to an alarming increase of resistant nosocomial infections. Antibacterial photodynamic inactivation (PDI) generates oxidative stress that triggers multiple cell death mechanisms more difficult to counteract by bacteria. We explore PDI of multidrug-resistant bacterial strains collected from patients and show how positive charge distribution in the photosensitizer drug impacts on the efficacy of inactivation. We demonstrate the relevance of size for drug diffusion in biofilms. Designed meso-imidazolyl porphyrins of small size with positive charges surrounding the macrocycle enabled the inactivation of bacteria in biofilms by 6.9 log units at 5 nM photosensitizer concentration and 5 J cm-2 , which offers new opportunities to treat biofilm infections.
Hospital-acquired infections are a global health problem that threatens patients’ treatment in intensive care units, causing thousands of deaths and a considerable increase in hospitalization costs. The endotracheal tube (ETT) is a medical device placed in the patient’s trachea to assist breathing and delivering oxygen into the lungs. However, bacterial biofilms forming at the surface of the ETT and the development of multidrug-resistant bacteria are considered the primary causes of ventilator-associated pneumonia (VAP), a severe hospital-acquired infection for significant mortality. Under these circumstances, there has been a need to administrate antibiotics together. Although necessary, it has led to a rapid increase in bacterial resistance to antibiotics. Therefore, it becomes necessary to develop alternatives to prevent and combat these bacterial infections. One possibility is to turn the ETT itself into a bactericide. Some examples reported in the literature present drawbacks. To overcome those issues, we have designed a photosensitizer-containing ETT to be used in photodynamic inactivation (PDI) to avoid bacteria biofilm formation and prevent VAP occurrence during tracheal intubation. This work describes ETT’s functionalization with curcumin photosensitizer, as well as its evaluation in PDI against Staphylococcus aureus, Pseudomonas aeruginosa, and Escherichia coli. A significant photoinactivation (up to 95%) against Gram-negative and Gram-positive bacteria was observed when curcumin-functionalized endotracheal (ETT-curc) was used. These remarkable results demonstrate this strategy’s potential to combat hospital-acquired infections and contribute to fighting antimicrobial resistance.
Mechanochemistry
is an alternative for sustainable solvent-free
processes that has taken the big step to become, in the near future,
a useful synthetic method for academia and the fine chemical industry.
The apparatus available, based on ball milling systems possessing
several optimizable variables, requires too many control and optimization
experiments to ensure reproducibility, which has limited its widespread
utilization so far. Herein, we describe the development of an automatic
mechanochemical single-screw device consisting of an electrical motor,
a drill, and a drill chamber. The applicability and versatility of
the new device are demonstrated by the implementation of di- and multicomponent
chemical reactions with high reproducibility, using mechanical action
exclusively. As examples, chalcones, dihydropyrimidinones, dihydropyrimidinethiones,
pyrazoline, and porphyrins, were synthesized with high yields. The
unprecedented sustainability is demonstrated by comparison of EcoScale
and E-factor values of these processes with those
previously described in the literature.
The easy access and low price of pyrrole and aldehydes, conjugated with the simplicity in preparing meso-substituted porphyrins, makes this type of porphyrins very attractive for a broad range of applications. However, there is an increasing demand for the development of new synthetic processes involving more sustainable chemical principles substituting, whenever possible, dangerous organic solvents by alternative solvents, chromatographic purifications by precipitations and energy-intensive procedures by alternative energy sources such as microwaves and ultrasounds. In this review we will address some recent strategies to synthesize meso-substituted porphyrins using alternative energy sources, reaction media and catalysts, namely microwave irradiation, water as solvent, or solid microporous acid catalysts.
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