Heterojunction semiconductor nanocatalysts as cancer theranostics.

Cancer nanotechnology is a promising area of cross-disciplinary research aiming to develop facile, effective, and noninvasive strategies to improve cancer diagnosis and treatment. Catalytic therapy based on exogenous stimulus-responsive semiconductor nanomaterials has shown its potential to address the challenges under the most global medical needs. Semiconductor nanocatalytic therapy is usually triggered by the catalytic action of hot electrons and holes during local redox reactions within the tumor, which represent the response of nontoxic semiconductor nanocatalysts to pertinent internal or external stimuli.

Magnetic stirring with iron oxide nanospinners accretes neurotoxic Aβ oligomers into phagocytic clearable plaques for Alzheimer's disease treatment.

An increasing number of medications have been explored to treat the progressive and irreversible Alzheimer's disease (AD) that stands as the predominant form of dementia among neurodegenerative ailments. However, assertions about toxic side effects of these drugs are a significant hurdle to overcome, calling for drug-free nanotherapeutics. Herein, a new therapeutic strategy devoid of conventional drugs or other cytotoxic species was developed.

Nanomedicines Targeting Glioma Stem Cells.

Glioblastoma (GBM), classified as a grade IV glioma, is a rapidly growing, aggressive, and most commonly occurring tumor of the central nervous system. Despite the therapeutic advances, it carries an ominous prognosis, with a median survival of 14.6 months after diagnosis.

Photothermal/NO combination therapy from plasmonic hybrid nanotherapeutics against breast cancer.

In this study, a plasmon-semiconductor nanotheranostic system comprising Au nanostars/graphene quantum dots (AuS/QD) hybrid nanoparticles loaded with BNN6 and surface modified with PEG-pyrene was developed for the photo-triggered hyperthermia effect and NO production as the dual modality treatment against orthotopic triple-negative breast cancer. The structure and morphology of the hybrid nanodevice was characterized and the NIR-II induced thermal response and NO production was determined. The hybrid nanodevice has shown enhanced plasmonic energy transfer from localized surface plasmonic resonance of Au nanostars to QD semiconductor that activates the BNN6 species loaded on QD surfaces, leading to the effective NO production and the gas therapy in addition to the photothermal response.

New combination treatment from ROS-Induced sensitized radiotherapy with nanophototherapeutics to fully eradicate orthotopic breast cancer and inhibit metastasis.

Radiotherapy (RT) is one of the most commonly employed approaches in the treatment of malignant tumors and is often combined with radiosensitizers to enhance the therapeutic efficacy for clinical use. For developing a smart therapeutic strategy leveraging local tissue response to photo-mediated reactions and the combination of multiple treatment modalities involving ROS-induced sensitization of RT, a novel nanophototherapeutic system has been developed. The nanotherapeutics prepared from the assembly of poly (thiodiethylene malonate) (PSDEM) and PEG-PSDEM-PEG and loaded with suberoylanilide hydroxamic acid (SAHA) employed as the RT sensitizer and indocyanine green (ICG) as the photothermal/photodynamic agent, demonstrated the capability of undergoing structural change and releasing therapeutic payloads in response to near-infrared irradiation and X-ray radiotherapy.

Combo-targeted nanoassemblies as a chemotherapy delivery system against peritoneal carcinomatosis colorectal cancer.

Peritoneal carcinomatosis colorectal cancer (pcCRC) is one of the most challenging cases in clinical treatment due to its aggressive characteristics and diagnostic limitations, impeding the therapeutic efficacy of chemotherapy. In this study, a poly(lactic-co-glycolic acid) nanoparticle (NP)-based drug delivery system capable of encapsulating the chemodrug SN38 and enhancing drug accumulation in metastatic tumors was developed for the treatment of pcCRC. The SN38-loaded NPs with a diameter of ca.