构建了检测增强渗透和保留效应的聚集诱导发射探针,以评估纳米治疗对不同肿瘤个体的适用性。

Yuelan Liang, Ya-Nan Chang, Xue Li, Ziteng Chen, Jiaxin Zhang, Jiacheng Li, Yujiao Wang, Haojun Liang, Meiru Mao, Kui Chen, Juan Li, Gengmei Xing
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引用次数: 1

摘要

纳米药物在肿瘤内蓄积并获得优异疗效的机制——增强渗透和滞留效应。这些机制的问题是由于30年后工程纳米材料的临床转化有限而产生的。EPR的差异限制了纳米药物对个体患者的治疗效果。对个体患者的EPR效果进行评估,有助于选择纳米治疗药物积累量较高、治疗效果较好的患者。根据血清中TIMP1/MMP-9的变化,设计并构建了聚集诱导发光探针,用于检测和评价模型小鼠EPR效应。结果显示,TIMP1/MMP-9比值(0.2 ~ 1.2范围内)与探针荧光强度呈负线性相关,bsa -罗丹明在肿瘤中积累的影响存在个例差异,且与血清中TIMP-1/MMP-9的相对比值相关。我们的数据支持基于肿瘤个性化纳米治疗的这些生物标志物探针的开发。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Aggregation Induced Emission Probe of Detecting Enhanced Permeation and Retention Effects is Structured for Evaluating the Applicability of Nanotherapy to Different Tumor Individuals.

Enhanced permeation and retention (EPR) effect, the mechanism by which nanodrugs accumulate in tumors and acquire superior curative effect. The questions of these mechanisms occur because of limited clinical transformation of engineered nanomaterials after 30 years. The difference of EPR limits the therapeutic effect of nanodrugs in the individual patient. Evaluation of the EPR effect in the individual patient will aid in selecting patients who will accumulate higher amounts of nanotherapeutics and show better therapeutic efficacy. Based on varied TIMP1/MMP-9 in serum, an aggregation-induced emission luminogen probe was designed and constructed to detect and evaluate the EPR effect in model mouse. The result showed that the ratio of TIMP1/MMP-9 (in the range 0.2-1.2) and fluorescence intensity of the probe were negative linear correlation and the effects of BSA-rhodamine accumulation in tumor were individualized differences as well as correlated with the relative ratio of TIMP-1/MMP-9 in serum. Our data support the development of these biomarkers probes based on the personalized nanotherapy of tumor.

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来源期刊
Journal of nanoscience and nanotechnology
Journal of nanoscience and nanotechnology 工程技术-材料科学:综合
自引率
0.00%
发文量
0
审稿时长
3.6 months
期刊介绍: JNN is a multidisciplinary peer-reviewed journal covering fundamental and applied research in all disciplines of science, engineering and medicine. JNN publishes all aspects of nanoscale science and technology dealing with materials synthesis, processing, nanofabrication, nanoprobes, spectroscopy, properties, biological systems, nanostructures, theory and computation, nanoelectronics, nano-optics, nano-mechanics, nanodevices, nanobiotechnology, nanomedicine, nanotoxicology.
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