Future animal studies and further investigations on cells and tissues with a broad spectrum of functionalized nanoparticles will elucidate the overall potential of magnetic fluid hyperthermia.
在未来,利用广谱的功能化纳米颗粒对动物、细胞和组织的深入研究,将全面地阐明磁流体热疗的潜在治疗价值。
Conclusion Single hyperthermia treatment with dextran magnetic fluid inhibited growth of H22 tumor in mice.
结论单次磁流体热处理可以显著抑制小鼠h22肝癌移植瘤的生长。
Conclusion Single hyperthermia treatment with dextran magnetic fluid inhibited growth of H22 tumor in mice.
结论单次磁流体热处理可以显著抑制小鼠h22肝癌移植瘤的生长。
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