☆ 4.8 Review

Organic photosensitizers for antimicrobial phototherapy

CHEMICAL SOCIETY REVIEWS (2022)

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Heavy-Atom-Free Photosensitizers: From Molecular Design to Applications in the Photodynamic Therapy of Cancer

Van-Nghia Nguyen et al.

Summary: Photodynamic therapy (PDT) has great potential for cancer treatment due to its spatiotemporal selectivity and noninvasive nature, but the lack of ideal photosensitizers hinders its full potential. Developing advanced smart photosensitizers without heavy atoms has shown significant progress in better meeting the clinical requirements of PDT.

ACCOUNTS OF CHEMICAL RESEARCH (2021)

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Review Chemistry, Multidisciplinary

Recent Strategies to Develop Innovative Photosensitizers for Enhanced Photodynamic Therapy

Thanh Chung Pham et al.

Summary: This review presents a robust strategy for designing photosensitizers for different species, highlighting the importance of organic PSs in photodynamic therapy. While previous studies have focused on nanomaterials and traditional PSs, this review sets out to report recent innovative strategies for developing organic photosensitizers for enhanced PDT, providing detailed examples to offer intuitive and specific insights to readers.

CHEMICAL REVIEWS (2021)

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Article Chemistry, Physical

Advances in photodynamic antimicrobial chemotherapy

Abdulaziz Anas et al.

Summary: PACT, utilizing light and photosensitizers, has advanced significantly in treating microbial infections, competing with antibiotics and reducing antibiotic resistance. New light sources, photosensitizers, and applications are constantly evolving, including COVID-19 treatment and disinfection of food and water. PACT demonstrates good pathogen selectivity and treatment efficiency.

JOURNAL OF PHOTOCHEMISTRY AND PHOTOBIOLOGY C-PHOTOCHEMISTRY REVIEWS (2021)

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Article Chemistry, Multidisciplinary

Organic Photo-antimicrobials: Principles, Molecule Design, and Applications

Bei Ran et al.

Summary: The use of photo-antimicrobials (PAMs) in phototherapy (PT) offers a new approach to combat multi-drug-resistant pathogens. By reacting with cell membranes, PAMs can effectively eradicate various pathogens, making them suitable for treating local infections, wound dressings, and biofilm removal from medical devices. Further development of organic photo-antimicrobials (OPAMs) is crucial for addressing the general challenges in microbial infections, especially during the global COVID-19 epidemic.

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2021)

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Review Nanoscience & Nanotechnology

Nanotechnology approaches for global infectious diseases

Ameya R. Kirtane et al.

Summary: Infectious diseases pose a significant burden on global health, particularly in the treatment of diseases like malaria, tuberculosis, and HIV. Nanotechnology shows promise in improving treatment outcomes by enhancing drug targeting and patient adherence.

NATURE NANOTECHNOLOGY (2021)

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Article Chemistry, Multidisciplinary

Antiviral and Anti-Inflammatory Treatment with Multifunctional Alveolar Macrophage-Like Nanoparticles in a Surrogate Mouse Model of COVID-19

Bin Li et al.

Summary: The development of multifunctional alveolar macrophage-like nanoparticles (NPs) with photothermal inactivation capability provides a potential treatment strategy for COVID-19, offering combined antiviral and anti-inflammatory effects. In a mouse model of COVID-19, treatment with NIR-irradiated NPs decreases virus burden and cytokine levels, reduces lung damage and inflammation, and improves survival rates. This therapeutic approach may be applicable for early-stage COVID-19 treatment through atomization inhalation of NPs followed by NIR irradiation of the respiratory tract, reducing infection progression and transmission risk.

ADVANCED SCIENCE (2021)

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Rational Design of an Antifungal Polyacrylamide Library with Reduced Host-Cell Toxicity

Sebastian Schaefer et al.

Summary: Research has been conducted on the effect of degree of polymerization and hydrophobic functionalities on the antifungal activity of synthetic polyacrylamides. Short copolymers with a calculated log P of around 1.5 have shown optimal activity against major human fungal pathogens, with limited toxicity to mammalian host cells. Selected copolymers have shown potential as novel antifungal compounds, outperforming commercial antifungal drugs.

ACS APPLIED MATERIALS & INTERFACES (2021)

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Article Chemistry, Multidisciplinary

Mitochondria-Specific Aggregation-Induced Emission Luminogens for Selective Photodynamic Killing of Fungi and Efficacious Treatment of Keratitis

Chengcheng Zhou et al.

Summary: By utilizing mitochondrial-targeting luminogens with aggregation-induced emission characteristics, selective and highly efficient killing of fungi can be achieved, showing significantly better therapeutic effects in clinical applications.

ACS NANO (2021)

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Article Chemistry, Multidisciplinary

A Membrane-Targeting Photosensitizer with Aggregation-Induced Emission Characteristics for Highly Efficient Photodynamic Combat of Human Coronaviruses

Ming-Yu Wu et al.

Summary: This study reports the efficient inactivation of human coronavirus with photodynamic therapy using photosensitizers with aggregation-induced emission characteristics. The photosensitizer can effectively target and inactivate the virus under light irradiation, providing a new avenue for combating COVID-19 with photodynamic therapy.

SMALL (2021)

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Article Chemistry, Multidisciplinary

L-Arg-Rich Amphiphilic Dendritic Peptide as a Versatile NO Donor for NO/Photodynamic Synergistic Treatment of Bacterial Infections and Promoting Wound Healing

Jingwu Zhu et al.

Summary: This study presents a novel synergistic antibacterial strategy based on PDT and NO gas therapy using Ce6@Arg-ADP as a carrier, which shows enhanced biofilm penetration and antibacterial effects. The combination of O-1(2) and NO offers notable synergistic effects, promoting wound healing effectively.

SMALL (2021)

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Review Engineering, Biomedical

Aggregation-Induced Emission-Based Platforms for the Treatment of Bacteria, Fungi, and Viruses

Xiaohui Chen et al.

Summary: The prevention and control of pathogenic bacteria, fungi, and viruses is a global challenge in public health. AIEgens are considered as potential treatment strategies for detecting and treating related infections.

ADVANCED HEALTHCARE MATERIALS (2021)

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Review Chemistry, Multidisciplinary

Recent Advances in Cyanine-Based Phototherapy Agents

Kubra Bilici et al.

Summary: Phototherapies, including photodynamic therapy (PDT) and photothermal therapy (PTT), show promise in cancer treatment by providing localization and a turn-on mechanism for toxicity. Combining PDT and PTT may overcome limitations of each method and improve efficacy. Cyanine dyes have shown potential in serving as both PDT and PTT agents, making them popular choices for phototherapy.

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Review Chemistry, Multidisciplinary

Emerging photothermal-derived multimodal synergistic therapy in combating bacterial infections

Jingjing Huo et al.

Summary: Given the challenges of bacterial resistance and biofilm protection, photothermal therapy (PTT)-derived multimodal synergistic treatments have emerged as a promising approach to combat bacterial infections. By combining PTT with chemotherapy, photo-dynamic/catalytic therapy, immunotherapy, and sonodynamic therapy, enhanced bactericidal activity can be achieved while minimizing potential side effects.

CHEMICAL SOCIETY REVIEWS (2021)

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The recent progress in photothermal-triggered bacterial eradication

Minjie Xu et al.

Summary: This article discusses the threat of bacterial infection diseases to human health and the issue of drug-resistant bacteria caused by antibiotic abuse. The authors introduce the advantages of photothermal therapy in preventing bacterial infections, as well as relevant strategies and methods for bacterial killing and treatment.

BIOMATERIALS SCIENCE (2021)

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Review Chemistry, Multidisciplinary

Recent progress in photosensitizers for overcoming the challenges of photodynamic therapy: from molecular design to application

Xueze Zhao et al.

Summary: This review summarizes recent progress in developing photosensitizers (PSs) for photodynamic therapy, including enhanced tolerance, improved selectivity, and deep tissue applicability. PSs are classified based on molecular design and application, with strategies for designing and future perspectives briefly outlined.

CHEMICAL SOCIETY REVIEWS (2021)

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An AIE-Active Conjugated Polymer with High ROS-Generation Ability and Biocompatibility for Efficient Photodynamic Therapy of Bacterial Infections

Taotao Zhou et al.

ANGEWANDTE CHEMIE-INTERNATIONAL EDITION (2020)

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K. V. S. Mani Chandrika et al.

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Aggregation-Induced Emission Photosensitizers: From Molecular Design to Photodynamic Therapy

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A Multiligand Architectural Photosensitizer That Targets Hemagglutinin on Envelope of Influenza Virus for Photodynamic Inactivation

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HClO-Activated Fluorescence and Photosensitization from an AIE Nanoprobe for Image-Guided Bacterial Ablation in Phagocytes

Min Wu et al.

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Nicholas Kipshidze et al.

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Phototherapy-based combination strategies for bacterial infection treatment

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Guangxue Feng et al.

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Zhongjian Xie et al.

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NIR-II emissive multifunctional AIEgen with single laser-activated synergistic photodynamic/photothermal therapy of cancers and pathogens

Yuling Xu et al.

BIOMATERIALS (2020)

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Polymyxin-based photosensitizer for the potent and selective killing of Gram-negative bacteria

Muhammed Ucuncu et al.

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Chiranjeevi Korupalli et al.

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