Polyethylene Glycol Coated Magnetic Nanoparticles: Hybrid Nanofluid Formulation, Properties and Drug Delivery Prospects

Mannu, Rashmi; Karthikeyan, Vaithinathan; Velu, Nandakumar; Arumugam, Chandravadhana; Roy, V. A. L.; Gopalan, A.; Saianand, Gopalan; Sonar, Prashant; Lee, Kwang-Pill; Kim, Wha-Jung; Lee, Dong‐Eun; Venkatramanan, K.

doi:10.3390/nano11020440

Cited by 41 publications

(18 citation statements)

References 69 publications

(62 reference statements)

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“…This may be utilized both for cancer treatment as well as contrast agents in magnetic resonance imaging. 17 Nanoparticle in cancer therapy has been evaluated in the majority of solid tumors. Interesting examples to note, published the last year, are doxorubicin conjugated iron oxide particles in osteosarcoma, 18 and the role ionizing radiation plays in the internalization and cytotoxic effects of the nano-carrier mediated drug delivery, mannose modified cyclodextrin with regorafenib in colorectal cancer to attenuate inflammation and inhibit tumor associated macrophage activation by targeting macrophages whilst improving regorafenib's anti-tumor effect by potentiating k i n a s e s u p p r e s s i o n , 19 c o m b i n a t i o n c h e m ophotodynamic therapy using lipid encapsulated polymeric nanoparticles against platinum resistant ovarian carcinoma cells, Yang et al, the use of lipid polymer hybrid nanoparticles constructed for CRISPR/CAS9 plasmids targeting drug resistant glioblastoma, 20 sorafenib nanoparticles as targeted ferroptosis-induced treatment of hepatocellular carcinoma, 21 and photothermal therapy and radiosensitization using silver nanoparticles in triple negative breast cancer without affecting nonmalignant mammary epithelial cells are some compelling examples.…”

Section: Nanotechnology and Nanomedicine In Oncologymentioning

confidence: 99%

Nanomedicina y nanopartículas en una nueva era oncológica

Shveid Gerson,

Shalkow Klincovstein

2022

Anales Médicos De La Asociación Médica Del Centro Médico ABC

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con dimensiones en escalas atómicas o moleculares (diámetros de ≤ 100 nm), se han utilizado cada vez más en la medicina y se consideran de gran importancia en cuanto a su capacidad de matar microorganismos o su papel en la transformación de células neoplásicas. Estas partículas exhiben características únicas debidas a su alta tasa de volumen a área de superficie con propiedades químicas y físicas únicas. En la investigación contemporánea se puede apreciar esta nueva tecnología para el diagnóstico de cáncer y su tratamiento. Estudios que involucran a las nanopartículas incluyen vehículos para administración directa de medicamentos, modulación de interacciones entre medicamentos y el sistema inmune, activación de blancos terapéuticos con mejor retención y recepción de drogas, nanopartículas que contienen agentes terapéuticos y de imagen que permiten la detección selectiva de células neoplásicas a través de técnicas de imagen en tiempo real hasta la detección de células neoplásicas mediante biopsia líquida dirigida por nanopartículas de exosomas. Sin duda, esta frontera en la oncología moderna requiere de una revisión que permita conocer nuevas herramientas en el diagnóstico y tratamiento de neoplasias.

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Section: Nanotechnology and Nanomedicine In Oncologymentioning

confidence: 99%

Nanomedicina y nanopartículas en una nueva era oncológica

Shveid Gerson,

Shalkow Klincovstein

2022

Anales Médicos De La Asociación Médica Del Centro Médico ABC

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“…The surface functionalization procedure and choice of appropriate solvent are crucial factors for obtaining nanoferrites. Here, the repulsive interactions among nanoparticles prevent agglomerations [71]. Moreover, functionalization promotes several advantages such as stable dispersions, biocompatibility, biodegradability, and reduced toxicity.…”

Section: Nanoferrites Functionalized and Functional Groups For Drug Delivery In Cancermentioning

confidence: 99%

Nanoferrites-Based Drug Delivery Systems as Adjuvant Therapy for Cancer Treatments. Current Challenges and Future Perspectives

Osorio¹,

Herrera²,

Londoño³

et al. 2021

Ferrites - Synthesis and Applications

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Cancer is the second cause of death worldwide, whose treatment often involves chemotherapy. In a conventional therapy, drug is transported (and usually absorbed) across biological membranes through diffusion and systemic transport. The pathway that medicine must travel before reaching the desired location, can bring adverse or unwanted effects, which are mainly the result of: low bioavailability, low solubility and toxicity. To avoiding risks, nanoparticles coated with the drug could be used as a therapeutic substance to selectively reach an area of interest to act without affecting non-target cells, organs, or tissues (drug delivery). Here, the goal is to enhance the concentration of the chemotherapeutic drug in the disease parts of the body. Among all nanostructured systems, ferrites attract worldwide attention in drug delivery applications. It is due to their versatile magnetic and physicochemical properties. Here, it is reviewed and analyzed recent advances in synthesis, morphology, size, magnetic properties, functionalization with a focus in drug delivery applications of nanoferrites.

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“…On the other hand, biocompatible compounds such as dextran, polyethylene glycol, polyvinyl alcohol, and polyvinylpyrrolidone have been used for surface modification or coating of MNPs to regulate their properties. The polymer layer applied to modify the MNP surface should be protein-resistant and non-antigenic to increase blood circulation time [ 50 , 51 , 52 , 53 , 54 ].…”

Section: Introductionmentioning

confidence: 99%

Chitosan/Gamma-Alumina/Fe3O4@5-FU Nanostructures as Promising Nanocarriers: Physiochemical Characterization and Toxicity Activity

et al. 2022

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Today, cancer treatment is an important issue in the medical world due to the challenges and side effects of ongoing treatment procedures. Current methods can be replaced with targeted nano-drug delivery systems to overcome such side effects. In the present work, an intelligent nano-system consisting of Chitosan (Ch)/Gamma alumina (γAl)/Fe3O4 and 5-Fluorouracil (5-FU) was synthesized and designed for the first time in order to influence the Michigan Cancer Foundation-7 (MCF-7) cell line in the treatment of breast cancer. Physico-chemical characterization of the nanocarriers was carried out using X-ray diffraction (XRD), Fourier-transform infrared spectroscopy (FTIR), vibrating sample magnetometry (VSM), dynamic light scattering (DLS), and scanning electron microscopy (SEM). SEM analysis revealed smooth and homogeneous spherical nanoparticles. The high stability of the nanoparticles and their narrow size distribution was confirmed by DLS. The results of the loading study demonstrated that these nano-systems cause controlled, stable, and pH-sensitive release in cancerous environments with an inactive targeting mechanism. Finally, the results of MTT and flow cytometry tests indicated that this nano-system increased the rate of apoptosis induction on cancerous masses and could be an effective alternative to current treatments.

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Polyethylene Glycol Coated Magnetic Nanoparticles: Hybrid Nanofluid Formulation, Properties and Drug Delivery Prospects

Cited by 41 publications

References 69 publications

Nanomedicina y nanopartículas en una nueva era oncológica

Nanomedicina y nanopartículas en una nueva era oncológica

Nanoferrites-Based Drug Delivery Systems as Adjuvant Therapy for Cancer Treatments. Current Challenges and Future Perspectives

Chitosan/Gamma-Alumina/Fe3O4@5-FU Nanostructures as Promising Nanocarriers: Physiochemical Characterization and Toxicity Activity

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