Recent Developments of Inorganic Nanosensitizers for Sonodynamic Therapy

Advanced Healthcare Materials, Journal Year: 2023, Volume and Issue: 12(22)

Published: April 18, 2023

As a noninvasive treatment, sonodynamic therapy (SDT) has been widely used in the treatment of tumors because its ability to penetrate deep tissue with few side effects. key factor SDT, it is meaningful design and synthesize efficient sonosensitizers. Compared organic sonosensitizers, inorganic sonosensitizers can be easily excited by ultrasound. In addition, stable properties, good dispersion, long blood circulation time, have great development potential SDT. This review summarizes possible mechanisms SDT (sonoexcitation ultrasonic cavitation) detail. Based on these mechanisms, synthesis nanosonosensitizers divided into three categories: traditional semiconductor enhanced cavitation-enhanced Subsequently, current construction methods are summarized including accelerated charge separation production reactive oxygen species through cavitation. Furthermore, advantages disadvantages different detailed strategies systematically discussed how enhance Hopefully, this could provide new insights nano-sonosensitizers for

Language: Английский

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Ultrasound-activated piezo-hot carriers trigger tandem catalysis coordinating cuproptosis-like bacterial death against implant infections

Nature Communications, Journal Year: 2024, Volume and Issue: 15(1)

Published: Feb. 22, 2024

Abstract Implant-associated infections due to the formation of bacterial biofilms pose a serious threat in medical healthcare, which needs effective therapeutic methods. Here, we propose multifunctional nanoreactor by spatiotemporal ultrasound-driven tandem catalysis amplify efficacy sonodynamic and chemodynamic therapy. By combining piezoelectric barium titanate with polydopamine copper, ultrasound-activated piezo-hot carriers transfer easily copper polydopamine. It boosts reactive oxygen species production piezoelectrics, facilitates interconversion between Cu2 + Cu promote hydroxyl radical generation via -catalyzed reactions. Finally, elevated cause membrane structure loosening DNA damage. Transcriptomics metabolomics analysis reveal that intracellular overload restricts tricarboxylic acid cycle, promoting cuproptosis-like death. Therefore, polyetherketoneketone scaffold engineered designed shows excellent antibacterial performance ultrasound stimulation promotes angiogenesis osteogenesis on-demand vivo.

Language: Английский

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Leveraging Semiconducting Polymer Nanoparticles for Combination Cancer Immunotherapy

Advanced Materials, Journal Year: 2023, Volume and Issue: 36(1)

Published: Oct. 21, 2023

Abstract Cancer immunotherapy has become a promising method for cancer treatment, bringing hope to advanced patients. However, immune‐related adverse events caused by also bring heavy burden Semiconducting polymer nanoparticles (SPNs) as an emerging nanomaterial with high biocompatibility, can eliminate tumors and induce tumor immunogenic cell death through different therapeutic modalities, including photothermal therapy, photodynamic sonodynamic therapy. In addition, SPNs work functional nanocarrier synergize variety of immunomodulators amplify anti‐tumor immune responses. this review, SPNs‐based combination is comprehensively summarized according the SPNs’ modalities type loaded immunomodulators. The in‐depth understanding existing will hopefully inspire design more novel nanomaterials potent effects, ultimately promote their clinical translation.

Language: Английский

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Carrier‐Free Self‐Assembly Nano‐Sonosensitizers for Sonodynamic‐Amplified Cuproptosis‐Ferroptosis in Glioblastoma Therapy

Advanced Science, Journal Year: 2024, Volume and Issue: 11(23)

Published: April 6, 2024

Abstract Cuproptosis is a newly discovered form of programmed cell death significantly depending on the transport efficacy copper (Cu) ionophores. However, existing Cu ionophores, primarily small molecules with short blood half‐life, face challenges in transporting enough amounts ions into tumor cells. This work describes construction carrier‐free nanoparticles (Ce6@Cu NPs), which self‐assembled by coordination 2+ sonosensitizer chlorin e6 (Ce6), facilitating sonodynamic‐triggered combination cuproptosis and ferroptosis. Ce6@Cu NPs internalized U87MG cells induce sonodynamic effect glutathione (GSH) depletion capability, promoting lipid peroxidation eventually inducing Furthermore, + concentration increases as reacts reductive GSH, resulting downregulation ferredoxin‐1 lipoyl synthase. induces oligomerization lipoylated dihydrolipoamide S‐acetyltransferase, causing proteotoxic stress irreversible cuproptosis. possess satisfactory ability to penetrate blood‐brain barrier, significant accumulation orthotopic U87MG‐Luc glioblastoma. The ferroptosis evidenced both vitro vivo minimal side effects. represents promising therapeutic strategy combining cuproptosis, potentially inspiring further research developing logical effective cancer therapies based

Language: Английский

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Ultrasound-Based Micro-/Nanosystems for Biomedical Applications

Chemical Reviews, Journal Year: 2024, Volume and Issue: 124(13), P. 8307 - 8472

Published: June 26, 2024

Due to the intrinsic non-invasive nature, cost-effectiveness, high safety, and real-time capabilities, besides diagnostic imaging, ultrasound as a typical mechanical wave has been extensively developed physical tool for versatile biomedical applications. Especially, prosperity of nanotechnology nanomedicine invigorates landscape ultrasound-based medicine. The unprecedented surge in research enthusiasm dedicated efforts have led mass multifunctional micro-/nanosystems being applied biomedicine, facilitating precise diagnosis, effective treatment, personalized theranostics. deployment applications is rooted profound understanding relationship among composition, structure, property, bioactivity, application, performance. In this comprehensive review, we elaborate on general principles regarding design, synthesis, functionalization, optimization abundant particular, recent advancements imaging are meticulously summarized. Furthermore, systematically elucidate state-of-the-art studies concerning progress therapeutic targeting various pathological abnormalities including cancer, bacterial infection, brain diseases, cardiovascular metabolic diseases. Finally, conclude provide an outlook field with in-depth discussion challenges faced future developments further extensive clinical translation application.

Language: Английский

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De Novo Designed Ru(II) Metallacycle as a Microenvironment‐Adaptive Sonosensitizer and Sonocatalyst for Multidrug‐Resistant Biofilms Eradication

Angewandte Chemie International Edition, Journal Year: 2024, Volume and Issue: 63(15)

Published: Feb. 8, 2024

Abstract Albeit sonodynamic therapy (SDT) has achieved encouraging progress in microbial sterilization, the scarcity of guidelines for designing highly effective sonosensitizers and intricate biofilm microenvironment (BME), substantially hamper therapeutic efficacy against infections. To address bottlenecks, we innovatively design a Ru(II) metallacycle‐based sonosensitizer/sonocatalyst (named Ru‐A3‐TTD ) to enhance potency sonotherapy by employing molecular engineering strategies tailored BME. Our approach involves augmenting ’s production ultrasonic‐triggered reactive oxygen species (ROS), surpassing performance commercial sonosensitizers, through straightforward but potent π‐expansion approach. Within BME, synergistically amplifies sonotherapeutic via triple‐modulated approaches: (i) alleviation hypoxia, leading increased ROS generation, (ii) disruption antioxidant defense system, which shields from glutathione consumption, (iii) enhanced penetration, enabling deep sites. Notably, sono‐catalytically oxidizes NADPH, critical coenzyme involved defenses. Consequently, demonstrates superior eradication multidrug‐resistant Escherichia coli compared conventional clinical antibiotics, both vitro vivo. our knowledge, this study represents pioneering instance supramolecular sonosensitizer/sonocatalyst. It provides valuable insights into structure‐activity relationship paves promising pathway treatment

Language: Английский

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Narrow Bandgap Schottky Heterojunction Sonosensitizer with High Electron–Hole Separation Boosted Sonodynamic Therapy in Bladder Cancer

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(26)

Published: March 29, 2024

Abstract Sonodynamic therapy (SDT) is applied to bladder cancer (BC) given its advantages of high depth tissue penetration and nontoxicity due the unique anatomical location near abdominal surface. However, low electron–hole separation efficiency wide bandgap sonosensitizers limit effectiveness SDT. This study aims develop a TiO 2 ‐Ru‐PEG Schottky heterojunction sonosensitizer with narrow for SDT in BC. Density functional theory (DFT) calculations experiments collectively demonstrate that reduced characteristic crystalline‐amorphous interface formed by deposition ruthenium (Ru) within shell layer . Thanks enhancement oxygen adsorption efficient pairs, promotes generation reactive species (ROS) under ultrasound (US) irradiation, resulting cell cycle arrest apoptosis tumor cells. The vivo results prove boosted subcutaneous orthotopic models while exhibiting good safety. adopts complex optimizing sonosensitizers, contributing progress improvement strategies presenting paradigm BC therapy.

Language: Английский

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Remote Control of Energy Transformation‐Based Cancer Imaging and Therapy

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(27)

Published: March 29, 2024

Cancer treatment requires precise tumor-specific targeting at specific sites that allows for high-resolution diagnostic imaging and long-term patient-tailorable cancer therapy; while, minimizing side effects largely arising from non-targetability. This can be realized by harnessing exogenous remote stimuli, such as tissue-penetrative ultrasound, magnetic field, light, radiation, enable local activation therapy in deep tumors. A myriad of nanomedicines efficiently activated when the energy stimuli transformed into another type energy. review discusses control transformation targetable, efficient, therapy. Such ultrasonic, magnetic, photonic, radiative, radioactive mechanical, thermal, chemical, radiative to a variety modalities. The current article describes multimodal where serial cascade or multiple types occur. includes not only hyperthermia, radiation but also emerging thermoelectric, pyroelectric, piezoelectric therapies treatment. It illustrates resonance, fluorescence, computed tomography, photoluminescence, photoacoustic imaging-guided therapies. highlights afterglow eliminate autofluorescence sustained signal emission after excitation.

Language: Английский

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Surface Oxygen Vacancies and Corona Polarization of Bi₄Ti₃O₁₂ Nanosheets for Synergistically Enhanced Sonopiezoelectric Therapy

Journal of the American Chemical Society, Journal Year: 2024, Volume and Issue: 146(32), P. 22348 - 22359

Published: Aug. 1, 2024

Sonopiezoelectric therapy, an ultrasound-activated piezoelectric nanomaterial for tumor treatment, has emerged as a novel alternative modality. However, the limited catalytic efficiency is serious bottleneck its practical application. Excellent catalysts with high coefficients, good deformability, large mechanical impact surface area, and abundant catalytically active sites still need to be developed urgently. In this study, classical ferroelectric material, bismuth titanate (Bi4Ti3O12, BTO), selected sonopiezoelectric sensitizer therapy. BTO generates electron–hole pairs under ultrasonic irradiation, which can react substrates in sonocatalytic-driven redox reaction. Aiming further improve activity of BTO, modification oxygen vacancies treatment corona polarization are envisioned study. Notably, reduces bandgap inhibits recombination. Additionally, immobilized built-in electric field on promoting separation electrons holes. Consequently, these modifications greatly sonocatalytic situ generation cytotoxic ROS CO, effectively eradicating tumor.

Language: Английский

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MOF‐Derived Nanoparticles with Enhanced Acoustical Performance for Efficient Mechano‐Sonodynamic Therapy

Advanced Materials, Journal Year: 2024, Volume and Issue: 36(33)

Published: June 19, 2024

Ultrasound (US) generates toxic reactive oxygen species (ROS) by acting on sonosensitizers for cancer treatment, and the mechanical damage induced cavitation effects under US is equally significant. Therefore, designing a novel sonosensitizer that simultaneously possesses efficient ROS generation enhanced promising. In this study, carbon-doped zinc oxide nanoparticles (C-ZnO) are constructed mechano-sonodynamic therapy. The presence of carbon (C) doping optimizes electronic structure, thereby enhancing triggered US, efficiently inducing tumor cell death. On other hand, high specific surface area porous structure brought about C enable C-ZnO to enhance stress bubbles irradiation, causing severe cells. Under dual sonodynamic therapy (SDT) mediated C-ZnO, excellent anti-tumor efficacy demonstrated both in vitro vivo, along with level biological safety. This first instance utilizing an inorganic nanomaterial achieve simultaneous enhancement production US-induced holds significant importance future development advancing applications treatment.

Language: Английский

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