Shaowei Yao scite author profile

Hyperthermia incorporating magnetic nanoparticles (MNPs) is a hopeful therapy to cancers and steps into clinical tests at present. However, the clinical plan of MNPs deposition in tumors, especially applied for directly multipoint injection hyperthermia (DMIH), and the information of temperature rise in tumors by DMIH is lack of studied. In this paper, we mainly discussed thermal distributions induced by MNPs in the rat brain tumors during DMIH. Due to limited experimental measurement for detecting thermal dose of tumors, and in order to acquire optimized results of temperature distributions clinically needed, we designed the thermal model in which three types of MNPs injection for hyperthermia treatments were simulated. The simulated results showed that MNPs injection plan played an important role in determining thermal distribution, as well as the overall dose of MNPs injected. We found that as injected points enhanced, the difference of temperature in the whole tumor volume decreased. Moreover, from temperature detecting data by Fiber Optic Temperature Sensors (FOTSs) in glioma bearing rats during MNPs hyperthermia, we found the temperature errors by FOTSs reduced as the number of points injected enhanced. Finally, the results showed that the simulations are preferable and the optimized plans of the numbers and spatial positions of MNPs points injected are essential during direct injection hyperthermia.

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Co3O4/NiO/C composites derived from zeolitic imidazolate frameworks (ZIFs) as high-performance anode materials for Li-ion batteries

Zhao

Nie

et al. 2020

J Solid State Electrochem

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Shaowei Yao

ZnO/Co3O4/C hollow dodecahedrons derived from ZnCo-ZIFs as anode materials for lithium ion batteries

Synthesis and characterization of Tb3+/Gd3+ dual-doped multifunctional hydroxyapatite nanoparticles

Thermal Analysis in the Rat Glioma Model During Directly Multipoint Injection Hyperthermia Incorporating Magnetic Nanoparticles

Co3O4/NiO/C composites derived from zeolitic imidazolate frameworks (ZIFs) as high-performance anode materials for Li-ion batteries

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