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论文抄袭:纳米颗粒的合成提高了抗癌药物疗效

阐述了具有控制负载能力和多药同步释放能力的聚合物治疗学合成是一个关键挑战。这不仅是对药物输送的挑战,也是对合成高分子化学的挑战。在这篇文章中,作者报道了基于聚合物的纳米颗粒合成。这些颗粒携带特定的阿霉素摩尔比、顺铂和喜树碱。本文为三种药物从单个纳米粒子正交触发释放提供了一个初步的例子。高收敛性合成药物的出现,为基于NP的新型抗癌药物组合治疗开辟了一条新的途径。

论文抄袭:纳米颗粒的合成提高了抗癌药物疗效

这说明纳米颗粒具有高效的抗癌作用。然而,如果不与其他粒子结合,这是不可能的。当两种或两种以上的药物联合使用时,可促进不同药物之间对抗癌细胞的协同作用。它还可以通过不同的作用机制抑制药物的耐药性。相反,纳米颗粒药物通过药代动力学有助于提高治疗效果和减少药物有效载荷副作用。

论文抄袭:纳米颗粒的合成提高了抗癌药物疗效

states that polymer therapeutics synthesis with control load capability and capability of multiple therapeutic agents’ synchronized release is a key challenge. It is not only a challenge for delivery of drug, but also for the chemistry of synthetic polymer. In the article, the authors have reported polymer based nano-particles synthesis . These particles carry specific doxorubicin molar ratios, cisplatin and camptothecin. The article has provided an initial example for three drugs orthogonal trigger release from individual nano-particles. The approach of high convergence synthetics opens a pathway for new combinational therapies based on NP as anti-cancer drugs.

论文抄袭:纳米颗粒的合成提高了抗癌药物疗效

This is to conclude that nanoparticles have the ability to serve as anti-cancer drugs with efficiency. However, without combining them with other particles, this is not possible. When two or more than two drugs are combined, it results in promoting synergistic effects between distinct drugs in opposition to cells of cancer. It also results in suppressing the resistance of drugs by different action mechanisms. Delivery of nano-particle drugs, on the contrary, helps in enhancing effectiveness of therapy and reducing drug payloads side effects through pharmacokinetics.