Abstract
Free living, cosmopolitan amoebae from Acanthamoeba genus present a serious risk to human health. As facultative human parasites, these amoebae may cause Acanthamoeba keratitis (AK). Acanthamoeba keratitis is a severe, vision-threatening corneal infection with non-specific symptoms. The number of reported AK cases worldwide has been increasing every year. Moreover, 90% of Acanthamoeba keratitis cases are related to contact lens use. Wearing and storage contact lenses not in accordance with the physicians and manufacturers recommendations are the primary key risk factors of this disease. Amoebae can easily adhere to the contact lens surface and transmit to the corneal epithelium. Preventing amoebae adhesion to the contact lens surface could significantly decrease the number of AK infections. Until now, the effective therapy against AK is still under development. Currently proposed therapies are mainly limited to the chlorhexidine digluconate combined with propamidine isethionate or hexamidine applications, which are insufficient and very toxic to the eye. Due to lack of effective treatment, looking for new potential preventive agents is crucial to decrease the number of Acanthamoeba keratitis infections, especially among contact lens users. Nanoparticles have been already included in several novel therapies against bacteria, viruses, fungi, and protist. However, their anti-amoebic potential has not been fully tested yet. The aim of this study was to assess silver nanoparticles (AgNPs) and platinum nanoparticles (PtNPs) anti-amoebic activity and influence on the amoebae adhesion to the surface of four different groups of contact lenses—classified according to the Food and Drugs Administration (FDA) guidelines. The obtained results show that both tested nanoparticles were effective against Acanthamoeba trophozoites and decreased the amoebae adhesion to the contact lens surface. AgNPs showed better anti-amoebic activity to cytotoxicity dependence and reduced amoebae adhesion in a wider spectrum of the tested contact lenses. Our studies also confirmed that ionization next to hydration of the contact lens material is a crucial parameter influencing the Acanthamoeba adhesion to the contact lens surface. In conclusion, silver nanoparticles might be considered as a novel preventive agent against Acanthamoeba keratitis infection.
Highlights
Free living amoebae (FLA) from Acanthamoeba genus have been isolated from both natural and manmade environment sources including sweet and salty water, soil, air, city fountains, and swimming pools
Considering the aforementioned factors, AgNPs seem to be more promising as a novel potential preventive agent against Acanthamoeba keratitis
The results of our studies reveal that both tested types of nanoparticles showed anti-amoebic activity against Acanthamoeba trophozoites
Summary
Free living amoebae (FLA) from Acanthamoeba genus have been isolated from both natural and manmade environment sources including sweet and salty water, soil, air, city fountains, and swimming pools. Both Acanthamoeba spp. can cause a progressive, sight-threatening corneal infection known as Acanthamoeba keratitis (AK). Improper management of the contact lenses, washing them in tap water, or wearing them while swimming may provoke contamination with amoebae that can be transmitted to the cornea. AK is commonly misdiagnosed with bacterial or viral corneal infections. This mainly results in delay of proper treatment. There is no fully effective therapy available against AK
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