Keywords: هیپرترمی مایع مغناطیسی; Magnetic nanoparticles; Magnetic fluid hyperthermia; Ferrohydrogels; Phantom tissue gels; Particle immobilization;
مقالات ISI هیپرترمی مایع مغناطیسی (ترجمه نشده)
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در صورتی که به ترجمه آماده هر یک از مقالات زیر نیاز داشته باشید، می توانید سفارش دهید تا مترجمان با تجربه این مجموعه در اسرع وقت آن را برای شما ترجمه نمایند.
Keywords: هیپرترمی مایع مغناطیسی; Magnetic Fluid Hyperthermia; Magnetic nanoparticles; Superparamagnetism; Specific Absorption Rate; Relaxation times; Brownian motion;
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Inverse method; Magnetic nanoparticles; Uniform temperature elevation; Specific loss power;
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Ferrofluids; SPIONs; Hergt's biological safety limit; Heat influencing factors; In vitro cancer therapy;
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Magnetic nanoemulsions; Orientational ordering; Specific absorption rate (SAR); Magnetic force microscopy (MFM); Neel & Brown relaxation;
Keywords: هیپرترمی مایع مغناطیسی; AG; agarose; AIs; active ingredients; AP; aminopyrene; AGET; activators generated by electron transfer; AgNPs; silver nanoparticles; ATRP; atom transfer radical polymerization; AuNPs; gold nanoparticles; B. subtilis; Bacillus subtilis; BD; bismaleimide; B
Keywords: هیپرترمی مایع مغناطیسی; AIBN; Azobisisobutyronitrile; ANOVA; Analysis of variance; DOC; Docetaxel; EBD; Evans blue dye; ESI/MS; Electrospray ionization mass spectroscopy; EPR; Enhanced permeability and retention; FBS; Fetal bovine serum; FDA; Food and Drug Administration; Gd; Ga
Keywords: هیپرترمی مایع مغناطیسی; Magnetic Fluid Hyperthermia; Magnetic nanoparticles; Superparamagnetism; Specific Loss Power;
Keywords: هیپرترمی مایع مغناطیسی; Cancer therapy; Colon cancer; Hemocompatibility; Magnetic colloid; Magnetic fluid hyperthermia; Magnetic solid lipid nanoparticle; Nanocomposite
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Magnetic particle imaging; Magnetic relaxation; Specific absorption rate; Bias field; Ferrohydrodynamics;
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Specific Absorption Rate; Cobalt ferrite; Magnetic nanoparticle; Magnetic anisotropy;
Keywords: هیپرترمی مایع مغناطیسی; Specific absorption rate; Magnetic nanoparticles; Co-precipitation; Peptization; Ultra-sonication; Tetramethylammonium hydroxide; Magnetic fluid hyperthermia; Optimization
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Iron oxide nanoparticles; Magnetic field strength; Magnetic field frequency; Specific absorption rate;
Keywords: هیپرترمی مایع مغناطیسی; Dual-phase-lag; Bi-layer tissues; Magnetic nano-particles; Magnetic fluid hyperthermia; Finite element Legendre wavelet Galerkin method
Effect of viscosity on the AC magnetization of magnetic nanoparticles under different AC excitation fields
Keywords: هیپرترمی مایع مغناطیسی; Magnetic nanoparticle; Viscosity; Field dependent relaxation; Magnetic fluid hyperthermia; Magnetic particle imaging;
Predicting size-dependent heating efficiency of magnetic nanoparticles from experiment and stochastic Néel-Brown Langevin simulation
Keywords: هیپرترمی مایع مغناطیسی; Magnetic iron-oxide nanoparticles; Magnetic fluid hyperthermia; Particle core size; Monte Carlo simulation; Magnetic relaxation dynamics;
Heat transfer of PEGylated cobalt ferrite nanofluids for magnetic fluid hyperthermia therapy: In vitro cellular study
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; PEGylated cobalt ferrite; Specific loss power; Cancer treatment;
A method for increasing the homogeneity of the temperature distribution during magnetic fluid hyperthermia with a Fe-Cr-Nb-B alloy in the presence of blood vessels
Keywords: هیپرترمی مایع مغناطیسی; Temperature prediction; Blood vessel; Magnetic fluid hyperthermia; Bio-heat transfer equation;
Magnetic hyperthermia study in water based magnetic fluids containing TMAOH coated Fe3O4 using infrared thermography
Keywords: هیپرترمی مایع مغناطیسی; Infrared thermography; Magnetic fluid hyperthermia; SAR; Magnetic fluid; TMAOH;
In vitro hyperthermia with improved colloidal stability and enhanced SAR of magnetic core/shell nanostructures
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Colloidal stability; Specific absorption rate; Cytotoxicity; Reactive oxygen species; In vitro hyperthermia;
Infrared thermography based magnetic hyperthermia study in Fe3O4 based magnetic fluids
Keywords: هیپرترمی مایع مغناطیسی; Infrared thermography; Magnetic fluid hyperthermia; SAR; Magnetic fluids
Optimization of maghemite-loaded PLGA nanospheres for biomedical applications
Keywords: هیپرترمی مایع مغناطیسی; MNPs; magnetic nanoparticles; MRI; magnetic resonance imaging; MFH; magnetic fluid hyperthermia; PLGA; poly-lactic-co-glycolic acid; FDA; Food and Drugs Administration; PVA; poly(vinyl alcohol); PDI; polydispersity index; TEM; transmission electronic micr
Heating effect and biocompatibility of bacterial magnetosomes as potential materials used in magnetic fluid hyperthermia
Keywords: هیپرترمی مایع مغناطیسی; Magnetosome; Synthesized magnetic nanoparticles; Magnetic fluid hyperthermia; Properties; Biocompatibility
Diffusion of magnetic nanoparticles in a multi-site injection process within a biological tissue during magnetic fluid hyperthermia using lattice Boltzmann method
Keywords: هیپرترمی مایع مغناطیسی; Diffusion; Magnetic fluid hyperthermia; Magnetic nanoparticle; Multi-site injection; Lattice Boltzmann method
Preparation of magnetite aqueous dispersion for magnetic fluid hyperthermia
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Surface modification; Thermal decomposition
Parametric investigation of heating due to magnetic fluid hyperthermia in a tumor with blood perfusion
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Ferrofluid; Cancer tumor therapy; Bioheat transfer;
Synthesis and magnetic properties of Co1−xZnxFe2O4+γ nanoparticles as materials for magnetic fluid hyperthermia
Keywords: هیپرترمی مایع مغناطیسی; Magnetic nanoparticle; Cobalt zinc ferrite; Precipitation; Magnetic behavior; Magnetic fluid hyperthermia
Heating of magnetic fluid systems driven by circularly polarized magnetic field
Keywords: هیپرترمی مایع مغناطیسی; Circular magnetic field; Ferrofluid; Heating; Magnetic fluid hyperthermia; Superparamagnetism
Size-dependant heating rates of iron oxide nanoparticles for magnetic fluid hyperthermia
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Nanoparticle; Magnetic relaxation; Superparmagnetism
Post-mortem studies in glioblastoma patients treated with thermotherapy using magnetic nanoparticles
Keywords: هیپرترمی مایع مغناطیسی; Glioblastoma multiforme; Magnetic nanoparticles; Magnetic fluid hyperthermia; Macrophages; Phagocytosis
Magnetic fluid hyperthermia therapy for malignant brain tumors—an ethical discussion
Keywords: هیپرترمی مایع مغناطیسی; Nano-Cancer therapy; Nanotherapy; Brain tumor; Nanoethics; Magnetic fluid hyperthermia; Glioblastoma multiforme
Search of new core materials for magnetic fluid hyperthermia: Preliminary chemical and physical issues
Keywords: هیپرترمی مایع مغناطیسی; Magnetic nanoparticles; Magnetic fluid hyperthermia; Cobalt ferrite; Manganese perovskites; Sr-hexaferrite/maghemite composites
ESR study of thermal demagnetization processes in ferromagnetic nanoparticles with Curie temperatures between 40 and 60∘C
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Radiofrequency heating; Curie temperature; Temperature control by parametric feedback; Thermal demagnetization rate; Mechanisms of thermal demagnetization; Electron spin resonance; Nanoparticles; Copper–Nickel alloy; Manganite
Magnetite ferrofluid with high specific absorption rate for application in hyperthermia
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; AC losses; Magnetic nanoparticle; Ferrofluid; Brownian relaxation; Neel relaxation
Local radiofrequency-induced hyperthermia using CuNi nanoparticles with therapeutically suitable Curie temperature
Keywords: هیپرترمی مایع مغناطیسی; Magnetic fluid hyperthermia; Radiofrequency heating; Curie temperature; Temperature control by parametric feedback; Nanoparticle; Copper–nickel alloy; Cancer treatment