Radiolabeled theranostics: magnetic and gold nanoparticles

BioImpacts : BI Pub Date : 2016-09-30 DOI:10.15171/bi.2016.23

S. Same, Ayuob Aghanejad, Sattar Akbari Nakhjavani, J. Barar, Y. Omidi

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引用次数: 74

Abstract

Introduction: Growing advances in nanotechnology have facilitated the applications of newly emerged nanomaterials in the field of biomedical/pharmaceutical sciences. Following this trend, the multifunctional nanoparticles (NPs) play a significant role in development of advanced drug delivery systems (DDSs) such as diapeutics/theranostics used for simultaneous diagnosis and therapy. Multifunctional radiolabeled NPs with capability of detecting, visualizing and destroying diseased cells with least side effects have been considered as an emerging filed in presentation of the best choice in solving the therapeutic problems. Functionalized magnetic and gold NPs (MNPs and GNPs, respectively) have produced the potential of nanoparticles as sensitive multifunctional probes for molecular imaging, photothermal therapy and drug delivery and targeting. Methods: In this study, we review the most recent works on the improvement of various techniques for development of radiolabeled magnetic and gold nanoprobes, and discuss the methods for targeted imaging and therapies. Results: The receptor-specific radiopharmaceuticals have been developed to localized radiotherapy in disease sites. Application of advanced multimodal imaging methods and related modality imaging agents labeled with various radioisotopes (e.g., 125I, 111In, 64Cu, 68Ga, 99mTc) and MNPs/GNPs have significant effects on treatment and prognosis of cancer therapy. In addition, the surface modification with biocompatible polymer such as polyethylene glycol (PEG) have resulted in development of stealth NPs that can evade the opsonization and immune clearance. These long-circulating agents can be decorated with homing agents as well as radioisotopes for targeted imaging and therapy purposes. Conclusion: The modified MNPs or GNPs have wide applications in concurrent diagnosis and therapy of various malignancies. Once armed with radioisotopes, these nanosystems (NSs) can be exploited for combined multimodality imaging with photothermal/photodynamic therapy while delivering the loaded drugs or genes to the targeted cells/tissues. These NSs will be a game changer in combating various cancers.

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放射标记治疗:磁性和金纳米颗粒

引言:纳米技术的不断进步促进了新出现的纳米材料在生物医学/制药科学领域的应用。随着这一趋势的发展，多功能纳米颗粒(NPs)在开发先进的药物输送系统(dds)中发挥着重要作用，例如用于同时诊断和治疗的降压剂/治疗剂。多功能放射性标记NPs具有检测、可视化和破坏病变细胞的能力，且副作用最小，已被认为是解决治疗问题的最佳选择。功能化磁性纳米粒子和金纳米粒子(分别为MNPs和GNPs)已经产生了纳米粒子作为分子成像，光热治疗和药物传递和靶向的敏感多功能探针的潜力。方法:本文综述了近年来各种放射性标记磁性纳米探针和金纳米探针开发技术的进展，并对其靶向成像和治疗方法进行了讨论。结果:受体特异性放射药物已被开发用于疾病部位的局部放疗。应用先进的多模态成像方法和相关的多模态显像剂标记各种放射性同位素(如125I, 111In, 64Cu, 68Ga, 99mTc)和MNPs/GNPs对癌症治疗的治疗和预后有显著影响。此外，生物相容性聚合物如聚乙二醇(PEG)的表面修饰导致了隐形NPs的发展，可以逃避光化和免疫清除。这些长时间循环的药剂可以用导引剂和放射性同位素进行修饰，以达到靶向成像和治疗的目的。结论:改良的MNPs或GNPs在多种恶性肿瘤的并发诊断和治疗中具有广泛的应用价值。一旦配备了放射性同位素，这些纳米系统(NSs)就可以用于光热/光动力治疗的多模态成像，同时将装载的药物或基因输送到目标细胞/组织。这些NSs将改变对抗各种癌症的游戏规则。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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