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通过pH功能化纳米颗粒进行的靶向癌症治疗:方法与结果的范围综述

Targeted Cancer Therapy via pH-Functionalized Nanoparticles: A Scoping Review of Methods and Outcomes.

作者信息

Morarasu Stefan, Morarasu Bianca Codrina, Ghiarasim Razvan, Coroaba Adina, Tiron Crina, Iliescu Radu, Dimofte Gabriel-Mihail

机构信息

Regional Institute of Oncology (IRO), 700483 Iasi, Romania.

Internal Medicine Department, Saint Spiridon University Hospital, Grigore T Popa University of Medicine and Pharmacy, 700483 Iasi, Romania.

出版信息

Gels. 2022 Apr 11;8(4):232. doi: 10.3390/gels8040232.

DOI:10.3390/gels8040232
PMID:35448133
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9030880/
Abstract

(1) Background: In recent years, several studies have described various and heterogenous methods to sensitize nanoparticles (NPs) to pH changes; therefore, in this current scoping review, we aimed to map current protocols for pH functionalization of NPs and analyze the outcomes of drug-loaded pH-functionalized NPs (pH-NPs) when delivered in vivo in tumoral tissue. (2) Methods: A systematic search of the PubMed database was performed for all published studies relating to in vivo models of anti-tumor drug delivery via pH-responsive NPs. Data on the type of NPs, the pH sensitization method, the in vivo model, the tumor cell line, the type and name of drug for targeted therapy, the type of in vivo imaging, and the method of delivery and outcomes were extracted in a separate database. (3) Results: One hundred and twenty eligible manuscripts were included. Interestingly, 45.8% of studies (n = 55) used polymers to construct nanoparticles, while others used other types, i.e., mesoporous silica (n = 15), metal (n = 8), lipids (n = 12), etc. The mean acidic pH value used in the current literature is 5.7. When exposed to in vitro acidic environment, without exception, pH-NPs released drugs inversely proportional to the pH value. pH-NPs showed an increase in tumor regression compared to controls, suggesting better targeted drug release. (4) Conclusions: pH-NPs were shown to improve drug delivery and enhance antitumoral effects in various experimental malignant cell lines.

摘要

(1) 背景:近年来,多项研究描述了多种使纳米颗粒(NPs)对pH变化敏感的不同方法;因此,在本次范围综述中,我们旨在梳理当前纳米颗粒pH功能化的方案,并分析载药pH功能化纳米颗粒(pH-NPs)在肿瘤组织体内递送时的效果。(2) 方法:对PubMed数据库进行系统检索,查找所有已发表的与通过pH响应性纳米颗粒进行抗肿瘤药物递送的体内模型相关的研究。将纳米颗粒类型、pH敏化方法、体内模型、肿瘤细胞系、靶向治疗药物的类型和名称、体内成像类型以及递送方法和结果等数据提取到一个单独的数据库中。(3) 结果:纳入了120篇符合条件的手稿。有趣的是,45.8%的研究(n = 55)使用聚合物构建纳米颗粒,而其他研究使用其他类型,即介孔二氧化硅(n = 15)、金属(n = 8)、脂质(n = 12)等。当前文献中使用的平均酸性pH值为5.7。当暴露于体外酸性环境时,pH-NPs无一例外地以与pH值成反比的方式释放药物。与对照组相比,pH-NPs显示出肿瘤消退增加,表明靶向药物释放更好。(4) 结论:在各种实验性恶性细胞系中,pH-NPs显示出改善药物递送并增强抗肿瘤作用。

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