Jianxi Tan scite author profile

Bacterial biofilms are usually resistant to antibiotics, thus powerful methods are required for removal. Nanomaterial involving a combination of treatment modalities recently has been recognized as an effective alternative to combat biofilm. However, its targeted and controlled release in bacterial infection is still a major challenge. Here, we present an intelligent phototherapeutic nanoplatform consisting of an aptamer (Apt), indocyanine green (ICG), and carboxyl-functionalized graphene oxide (GO–COOH), namely, ICG@GO-Apt, for targeted treatment of the biofilm formed by Salmonella Typhimurium. Since Apt-conjugated nanosheets (NSs) can specifically accumulate near abscess caused by the pathogens, they enhance greatly the local drug molecule concentration and promote their precise delivery. They can simultaneously generate heat and reactive oxygen species under near-infrared irradiation for photothermal/photodynamic therapy, thereby significantly enhancing biofilm elimination. The phototherapeutic ICG@GO-Apt also displays a good biocompatibility. More importantly, the multifunction phototherapeutic platform shows an efficient biofilm elimination with an efficiency of greater than 99.99% in an abscess formation model. Therefore, ICG@GO-Apt NSs with bacteria-targeting capability provide a reliable tool for clinical bacterial infection that circumvents antibiotic resistance.

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An enzyme-free fluorometric nanoprobe for chloramphenicol based on signal amplification using graphene oxide sheets

Tan

Wang

et al. 2020

Microchim Acta

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Aptamer-Based Fluorescent Determination ofSalmonella paratyphi AUsing Phi29-DNA Polymerase-Assisted Cyclic Amplification

et al. 2018

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Jianxi Tan

Pd-Cu nanoalloy for dual stimuli-responsive chemo-photothermal therapy against pathogenic biofilm bacteria

Efficient Eradication of Bacterial Biofilms with Highly Specific Graphene-Based Nanocomposite Sheets

An enzyme-free fluorometric nanoprobe for chloramphenicol based on signal amplification using graphene oxide sheets

Aptamer-Based Fluorescent Determination ofSalmonella paratyphi AUsing Phi29-DNA Polymerase-Assisted Cyclic Amplification

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