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Rose Bengal Incorporated to α-Cyclodextrin Microparticles for Photodynamic Therapy against the cariogenic microorganism Streptococcus mutans
摘要: Rose Bengal@α-cyclodextrin (RB@α-CD) microparticles (μPs) were prepared and the RB inclusion in α-CD was experimentally demonstrated through infrared, UV-VIS absorption spectroscopy and cyclic voltammetry. The RB inclusion in α-CD was theoretically investigated using classical molecular mechanics calculations, the simulation results showing that RB can be included in both the narrow and wide apertures of the α-cyclodextrin ring with configurations exhibiting average binding energies of about 27 kcal.mol-1. The prepared RB@α-CD microparticles were characterized through Scanning Electron Microscopy (SEM) and it was demonstrated that they are highly efficient in the photodynamic therapy against a Streptococcus mutans (the main bacteria of cariogenic dental plaque) suspension, as a concentration of RB@α-CD μPs 10 times smaller than the usual concentration of pure RB is still capable to produce significant antibacterial activity.
关键词: antibacterial activity,molecular interaction simulations,Rose Bengal,photodynamic therapy,α-cyclodextrin microparticles
更新于2025-09-10 09:29:36
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A clinical evaluation of efficacy of photodynamic therapy in treatment of reticular oral lichen planus: A case series
摘要: Background: The aim of the study was to clinically evaluate the efficacy of photodynamic therapy in treatment of reticular oral lichen planus (OLP). Methods: Fifty patients aged 26-84, with 124 OLP lesions in total, underwent photodynamic therapy (PDT) mediated with topically applied 5% 5-aminolevulinic acid. ALA was activated by a custom-made diode lamp with a high-power LED emitting light at 630 nm and 300 mW delivered through an optical fiber probe. A light exposure dose was 150 J/cm2. The therapy comprised of 10 weekly illumination sessions. The lesions’ response to the therapy was macroscopically measured in millimeters with a periodontal probe and clinically evaluated at each session, then on completion of the series and throughout the 12-month follow-up. Results: The baseline mean size of lesions was 3.99 cm2±3.73. The lesions on the buccal mucosa and lips (lining mucosa) were larger than those on the gingiva and tongue (masticatory mucosa) – 4.58 cm2±4.01 and 2.93 cm2±2.91 respectively. On completion of the therapy 109 sites improved, including 46 in complete remission. The mean reduction in size was 62.91% (p=0.000000). 12-month after therapy mean reduction of the lesions was 78.7% (p=0.000000), specifically 79.48% (p=0.000000) within the lining mucosa and 76.11% on the masticatory mucosa. Conclusions: The results suggest that PDT may become an alternative method for treating the reticular form of OLP. The results proved that ALA-mediated photodynamic therapy with a 630 nm light was effective and as such it can be used as an optional treatment for symptomatic OLP.
关键词: photodynamic therapy,reticular oral lichen planus
更新于2025-09-10 09:29:36
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Unveiling Ga(III) phthalocyanine-a different photosensitizer in neuroblastoma cellular model
摘要: Phthalocyanines (Pc) and their metallated derivatives are strongly considered for photodynamic therapy (PDT) possessing unique properties as possible new photosensitizers (PS). We have used toxicological assessments, real‐time monitoring of cellular impedance, and imagistic measurements for assessing the in vitro dark toxicity and PDT efficacy of Ga(III)‐Pc in SHSy5Y neuroblastoma cells. We have established the non‐toxic concentration range of Ga(III)‐Pc, a compound which shows a high intracellular accumulation, with perinuclear distribution in confocal microscopy. By choosing Ga(III)Pc non‐toxic dose, we performed in vitro experimental PDT hampering cellular proliferation. Our proposed Ga(III)‐Pc could complete a future PS panel for neuroblastoma alternate therapy.
关键词: toxicity,gallium(III),photosensitizer,proliferation,tumour,photodynamic therapy,neuroblastoma,viability
更新于2025-09-10 09:29:36
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A biomimetic nanoreactor for synergistic chemiexcited photodynamic therapy and starvation therapy against tumor metastasis
摘要: Photodynamic therapy (PDT) is ineffective against deeply seated metastatic tumors due to poor penetration of the excitation light. Herein, we developed a biomimetic nanoreactor (bio-NR) to achieve synergistic chemiexcited photodynamic-starvation therapy against tumor metastasis. Photosensitizers on the hollow mesoporous silica nanoparticles (HMSNs) are excited by chemical energy in situ of the deep metastatic tumor to generate singlet oxygen (1O2) for PDT, and glucose oxidase (GOx) catalyzes glucose into hydrogen peroxide (H2O2). Remarkably, this process not only blocks the nutrient supply for starvation therapy but also provides H2O2 to synergistically enhance PDT. Cancer cell membrane coating endows the nanoparticle with biological properties of homologous adhesion and immune escape. Thus, bio-NRs can effectively convert the glucose into 1O2 in metastatic tumors. The excellent therapeutic effects of bio-NRs in vitro and in vivo indicate their great potential for cancer metastasis therapy.
关键词: tumor metastasis,biomimetic nanoreactor,starvation therapy,synergistic therapy,photodynamic therapy
更新于2025-09-09 09:28:46
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Recent Advances in Cell Membrane-Camouflaged Nanoparticles for Cancer Phototherapy
摘要: Phototherapy including photothermal therapy (PTT) and photodynamic therapy (PDT) employs phototherapeutic agents to generate heat or cytotoxic reactive oxygen species (ROS), and has therefore garnered particular interest for cancer therapy. However, the main challenges faced by conventional phototherapeutic agents include easy recognition by the immune system, rapid clearance from blood circulation, and low accumulation in target sites. Cell-membrane coating has emerged as a potential way to overcome these limitations, owing to the abundant proteins on the surface of cell membranes that can be inherited to the cell membrane–camouflaged nanoparticles. This review summarizes the recent advances in the development of biomimetic cell membrane–camouflaged nanoparticles for cancer phototherapy. Different sources of cell membranes can be used to coat nanoparticles using different coating approaches. After cell-membrane coating, the photophysical properties of the original phototherapeutic nanoparticles remain nearly unchanged; however, the coated nanoparticles are equipped with additional physiological features including immune escape, in vivo prolonged circulation time, or homologous targeting, depending on the cell sources. Moreover, the coated cell membrane can be ablated from phototherapeutic nanoparticles under laser irradiation, leading to drug release and thus synergetic therapy. By combining other supplementary agents to normalize tumor microenvironment, cell-membrane coating can further enhance the therapeutic efficacy against cancer.
关键词: biomimetic nanoparticles,photodynamic therapy,cell membrane,photothermal therapy
更新于2025-09-09 09:28:46
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Nanoparticulate photosensitizer decorated with hyaluronic acid for photodynamic/photothermal cancer targeting therapy
摘要: Aim: A photomedicine consisting of a core for photothermal therapy, a photosensitizer for photodynamic therapy, and a cancer-targeting moiety was fabricated to improve photosensitizer selectivity and antitumor efficiency. Materials & methods: Hyaluronic acid-decorated polydopamine nanoparticles with conjugated chlorin e6 (HA–PDA–Ce6) were synthesized and characterized. Cell uptake, phototoxicity, penetration, distribution and therapeutic effects were evaluated. Results: HA–PDA–Ce6 had high photoactivities for photodynamic therapy/photothermal therapy and was readily internalized via CD44-mediated endocytosis. Enhanced accumulation and deeper penetration into tumors were achieved by the diffusion molecular retention tumor targeting effect following peritumoral injection. In the combination therapy, HA–PDA–Ce6 displayed the highest tumor growth inhibition in HCT-116 tumor-bearing mice. Conclusion: HA–PDA–Ce6 is promising for targeted colorectal cancer therapy.
关键词: peritumoral injection,polydopamine nanoparticles,photothermal therapy,photodynamic therapy,hyaluronic acid,chlorin e6
更新于2025-09-09 09:28:46
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Ultrasensitive Redox-responsive Porphyrin-based Polymeric Nanoparticles for Enhanced Photodynamic Therapy
摘要: Stimulus-sensitive nanoparticles (NPs) have been established to widely adapt to remarkable abnormalities under the tumor microenvironment, which can observably enhance the therapeutic efficiency, improve the specific targeting ability and reduce the side effects. Photodynamic therapy (PDT) as a promising non-invasive and selective treatment for cancers through photodynamic reaction can profit from stimulus-sensitive NPs. Herein, a harmonious amphiphilic polymer (PEG-b-PTPPDS-b-PEG) with an extremely sensitive redox response is constructed via click chemistry between N3-TPPC6-N3, PEG-N3 and alkynyl-containing disulfide ester for PDT. This polymer can be self-assembled into micelles with excellent stability, ultra-fast sensitivity of redox-triggered porphyrin release, and significant photodynamic anticancer performance. The redox-triggered dissociation of micelles and the release of porphyrin are much faster than common porphyrin-containing polymer. The bio-distribution and phototoxicity of micelles against A549 cells are measured and evaluated in vitro by flow cytometry, confocal scanning laser microscopy (CLSM) and MTT assay, respectively. The results reveal that PEG-b-PTPPDS-b-PEG micelles can effectively enhance the cellular uptake and cellular internalization of porphyrin and have an extremely low dark toxicity with efficient PDT towards A549 cells. This intracellular responsive nanoparticle provides a potential strategy for anticancer therapeutic application.
关键词: amphiphilic polymer,polymeric nanoparticles,porphyrin,photodynamic therapy,reduction-sensitive
更新于2025-09-09 09:28:46
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Transmission electron microscopy revealing the mechanism of action of photodynamic therapy on Trichomonas vaginalis
摘要: Trichomonas vaginalis is an amitochondrial parasite that causes human trichomoniasis. Despite metronidazole effectiveness, resistant cases are becoming more frequent. This scenario reveals the need to develop new therapeutic options. Photodynamic Therapy (PDT) is an experimental treatment that involves the activation of photosensitive substances and the generation of cytotoxic oxygen species and free radicals to promote the selective destruction of target tissues. In previous work, we identified an excellent in vitro PDT activity using methylene blue and light emitting diode against metronidazole sensitive and resistant strains of T. vaginalis. Here, we evaluated the efficacy of PDT in vivo and its high trichomonicidal activity was assessed through transmission electron microscopy. Female Balb/c mice were infected intravaginally with T. vaginalis trophozoites. On the third day of infection, methylene blue was introduced into the vaginal canal, which then received 68.1 J / cm2 of radiation for 35.6 sec. Twenty-four hours after treatment the vaginal canal of the animals was scraped and the samples processed by the immunocytochemistry technique. Besides that, in vitro photodynamic treatment was performed and T. vaginalis trophozoites were processed by transmission electron microscopy. PDT significantly reduced infection in animals treated, compared to control groups, being as efficient as metronidazole. Morphological changes observed have suggested that PDT activity on T. vaginalis was due to necrosis. These results, added to the high trichomonicidal activity of PDT confirm its feasibility for trichomoniasis treatment.
关键词: Methylene Blue,Transmission Electron Microscopy,Trichomonas vaginalis,Photodynamic Therapy,Treatment
更新于2025-09-09 09:28:46
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New Sensitizers Developed on a Methylpheophorbide a Platform for Photodynamic Therapy: Synthesis, Singlet Oxygen Generation and Modeling of Passive Membrane Transport
摘要: This study focuses on the behavior of new potential sensitizers for photodynamic therapy of cancer developed on a chlorophyll a platform. Pheophorbide a 17-(3) methylester and its two glycol derivatives have been synthesized from chlorophyll and identified via visible, UV-, NMR- and MS-spectra. The behavior of photosensitizers in solutions has been studied with various experimental techniques. They are found to generate singlet oxygen with a sufficient quantum yield and reveal a tendency to effectively penetrate into cell membranes due to high lipophilicity. Thermodynamic analysis indicates that the sensitizer transfer from a water-like to a lipid-like medium is controlled by a large and negative enthalpic term excepting the case of the most polar solute, where for phosphate saline buffer the favorable entropic term dominates. Our study highlights the important feature dealing with the temperature dependence of partition coefficients between saline buffer and 1-octanol which is found to be surprisingly strong for hydrophobic solutes and temperature independent for the species containing both H-donor and H-acceptor groups.
关键词: Hydrophobicity,Photosensitizers,Photodynamic therapy,Thermodynamics of solvation,Partition coefficients,Reactive oxygen species
更新于2025-09-09 09:28:46
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Photomedicine - Advances in Clinical Practice || Can Nanotechnology Shine a New Light on Antimicrobial Photodynamic Therapies?
摘要: Recent developments in light‐controlled therapies (e.g., photodynamic and photothermal therapies) provide promising strategies to prevent and suppress bacterial infections, which are a leading cause of morbidity and mortality. Antibacterial photodynamic therapy (aPDT) has drawn increasing attention from the scientific society for its potential to kill multidrug‐resistant pathogenic bacteria and for its low tendency to induce drug resistance. In this chapter, we summarize the mechanism of action of aPDT, the photosensitizers, as well the current developments in terms of treating Gram‐positive and Gram‐negative bacteria. The chapter also describes the recent progress relating to photomedicine for preventing bacterial infections and biofilm formation. We focus on the laser device used in aPDT and on the light‐treatment parameters that may have a strong impact on the results of aPDT experiments. In the last part of this chapter, we survey on the various nanoparticles delivering photoactive molecules, and photoactive‐nanoparticles that can potentially enhance the antimicrobial action of aPDT.
关键词: antimicrobial photodynamic therapy,laser,nanotechnology,bacterial infections,biofilm
更新于2025-09-09 09:28:46