利用张量列形式化方法精确模拟牙龈癌细胞自旋系统中抗癌纳米药物- dna /RNA复合物的核磁共振

A. Heidari, R. Gobato
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引用次数: 11

摘要

本研究利用张量列形式化方法,研究了牙龈癌细胞自旋系统中抗癌纳米药物- dna /RNA复合物的精确核磁共振模拟。展望未来,我们可以预测三个有希望的方向。一是利用张量列形式化方法,基于双色精确核磁共振模拟牙龈癌细胞自旋系统中抗癌纳米药物- dna /RNA复合物的快速组织,可用于牙龈癌手术的手术室。第二种是基于原位分子的诊断,使用张量列形式,使用手持式快速精确核磁共振模拟牙龈癌细胞自旋系统中的抗癌纳米药物- dna /RNA复合物,例如,使用张量列形式,手持式精确核磁共振模拟牙龈癌细胞自旋系统中的抗癌纳米药物- dna /RNA复合物,或者使用张量列形式,使用高光谱精确核磁共振模拟牙龈癌细胞自旋系统中的抗癌纳米药物- dna /RNA复合物。第三种是多模态成像和光谱系统,它综合了每种模态的优点,可以更好地诊断牙龈癌。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exact NMR simulation of anti–cancer nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism
In the current study, exact NMR simulation of anti–cancer Nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism are considered. Looking into the future, we would predict three promising directions. One is the rapid histology based on two–color exact NMR simulation of anti–cancer Nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism which can be used in operation room during gum cancer surgery. The second is in situ molecule–based diagnosis using handheld fast exact NMR simulation of anti–cancer Nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism, for example, handheld exact NMR simulation of anti–cancer Nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism or hyperspectral exact NMR simulation of anti–cancer Nano drug–DNA/RNA complexes in gum cancer cells spin systems using tensor train formalism. The third is multimodal imaging and spectroscopy system that integrate advantages of each modality and may offer better diagnosis for gum cancer.
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