Core–shell inorganic NP@MOF nanostructures for targeted drug delivery and multimodal imaging-guided combination tumor treatment

IF 15.9 1区 化学 Q1 CHEMISTRY, PHYSICAL Advances in Colloid and Interface Science Pub Date : 2023-11-01 DOI:10.1016/j.cis.2023.103007
Suliman Khan , Mojtaba Falahati , William C. Cho , Yasaman Vahdani , Rabeea Siddique , Majid Sharifi , Laila Abdulmohsen Jaragh-Alhadad , Setareh Haghighat , Xiaoju Zhang , Timo L.M. ten Hagen , Qian Bai
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引用次数: 3

Abstract

It is well known that metal–organic framework (MOF) nanostructures have unique characteristics such as high porosity, large surface areas and adjustable functionalities, so they are ideal candidates for developing drug delivery systems (DDSs) as well as theranostic platforms in cancer treatment. Despite the large number of MOF nanostructures that have been discovered, conventional MOF-derived nanosystems only have a single biofunctional MOF source with poor colloidal stability. Accordingly, developing core–shell MOF nanostructures with good colloidal stability is a useful method for generating efficient drug delivery, multimodal imaging and synergistic therapeutic systems. The preparation of core–shell MOF nanostructures has been done with a variety of materials, but inorganic nanoparticles (NPs) are highly effective for drug delivery and imaging-guided tumor treatment. Herein, we aimed to overview the synthesis of core–shell inorganic NP@MOF nanostructures followed by the application of core–shell MOFs derived from magnetic, quantum dots (QDs), gold (Au), and gadolinium (Gd) NPs in drug delivery and imaging-guided tumor treatment. Afterward, we surveyed different factors affecting prolonged drug delivery and cancer therapy, cellular uptake, biocompatibility, biodegradability, and enhanced permeation and retention (EPR) effect of core–shell MOFs. Last but not least, we discussed the challenges and the prospects of the field. We envision this article may hold great promise in providing valuable insights regarding the application of hybrid nanostructures as promising and potential candidates for multimodal imaging-guided combination cancer therapy.

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核壳无机NP@MOF用于靶向药物递送和多模式成像引导的联合肿瘤治疗的纳米结构。
众所周知,金属-有机框架(MOF)纳米结构具有高孔隙率、大表面积和可调节功能等独特特征,因此它们是开发癌症治疗药物递送系统(DDSs)和治疗平台的理想候选物。尽管已经发现了大量的MOF纳米结构,但传统的MOF衍生的纳米系统只有单一的生物功能MOF源,其胶体稳定性较差。因此,开发具有良好胶体稳定性的核壳-MOF纳米结构是产生高效药物递送、多模式成像和协同治疗系统的有用方法。核壳MOF纳米结构的制备已经用多种材料完成,但无机纳米颗粒(NP)在药物递送和成像引导的肿瘤治疗中非常有效。本文综述了核壳型无机材料的合成NP@MOF纳米结构,然后从磁性、量子点(QDs)、金(Au)和钆(Gd)NPs衍生的核壳MOFs在药物递送和成像引导的肿瘤治疗中的应用。之后,我们调查了影响延长药物递送和癌症治疗的不同因素、细胞摄取、生物相容性、生物降解性以及核壳MOFs的增强渗透和保留(EPR)效应。最后但同样重要的是,我们讨论了该领域的挑战和前景。我们认为这篇文章可能具有很大的前景,可以提供关于混合纳米结构应用的有价值的见解,作为多模式成像指导的癌症联合治疗的有前途和潜在的候选物。
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来源期刊
CiteScore
28.50
自引率
2.60%
发文量
175
审稿时长
31 days
期刊介绍: "Advances in Colloid and Interface Science" is an international journal that focuses on experimental and theoretical developments in interfacial and colloidal phenomena. The journal covers a wide range of disciplines including biology, chemistry, physics, and technology. The journal accepts review articles on any topic within the scope of colloid and interface science. These articles should provide an in-depth analysis of the subject matter, offering a critical review of the current state of the field. The author's informed opinion on the topic should also be included. The manuscript should compare and contrast ideas found in the reviewed literature and address the limitations of these ideas. Typically, the articles published in this journal are written by recognized experts in the field.
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