Therapeutic Possibilities of Ceftazidime Nanoparticles in Devastating Pseudomonas Ophthalmic Infections; Keratitis and Endophthalmitis

As the number of contact‐lens wearers rises worldwide, Pseudomonas aeruginosa (PA) keratitis is attracting more attention as a major public health issue. Corneal lesions of PA, being the most intimidating complication of contact‐lens wearer, can progress rapidly in spite of local antibiotic treatment, and may result in perforation and the permanent loss of vision. One of the explanations proposed for the evasion of the pathogen from immune responses of the host as well as antibacterial treatment is the fact that invasive clinical isolates of PA have the unusual ability to invade and replicate within surface corneal epithelial cells. In this manner, PA is left with an intracellular sanctuary. Endophthalmitis, albeit rare, is another ophthalmic infection faced by the challenge of drug delivery that can be potentially catastrophic. The present hypothesis is that nanoparticles can carry anti‐pseudomonas antibiotics (e.g. ceftazidime) through the membranes, into the “hidden zone” of the pathogen, hence being an effective and potent therapeutic approach against pseudomonas keratitis and endophthalmitis.