Systematic review: Mechanisms of photoactive nanocarriers for imaging and therapy including controlled drug delivery

IF 7.6 1区医学 Q1 RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING European Journal of Nuclear Medicine and Molecular Imaging Pub Date : 2024-12-26 DOI:10.1007/s00259-024-07014-z

Yapei Zhang, Yunxiu Qiu, Ali Bavandpour Karimi, Bryan Ronain Smith

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Abstract

Background

The design of smart, photoactivated nanomaterials for targeted drug delivery systems (DDS) has garnered significant research interest due in part to the ability of light to precisely control drug release in specific cells or tissues with high spatial and temporal resolution. The development of effective light-triggered DDS involves mechanisms including photocleavage, photoisomerization, photopolymerization, photosensitization, photothermal phenomena, and photorearrangement, which permit response to ultraviolet (UV), visible (Vis), and/or Near Infrared (NIR) light. This review explores recent advancements in light-responsive small molecules, polymers, and nanocarriers, detailing their underlying mechanisms and utility for drug delivery and/or imaging. Furthermore, it highlights key challenges and future perspectives in the development of light-triggered DDS, emphasizing the potential of these systems to revolutionize targeted therapies.

Method

A systematic literature search was performed using Google Scholar as the primary database and information source. We searched the recently published literature (within 15 years) with the following keywords individually and in relevant combinations: light responsive, nanoparticle, drug release, mechanism, photothermal, photosensitization, photopolymerization, photocleavage, and photoisomerization.

Results

We selected 117 scientific articles to assess the strength of evidence after screening titles and abstracts. We found that six mechanisms (photocleavage, photoisomerization, photopolymerization, photosensitization, photothermal phenomena, and photorearrangement) have primarily been used for light-triggered drug release and categorized our review accordingly. Azobenzene/spiropyran-based derivatives and o-nitrobenzyl/Coumarin derivatives are often used for photoisomerization and photocleavage-enabled drug delivery, while free radical polymerization and cationic polymerization comprise two main mechanisms of photopolymerization. One hundred two is the primary active radical oxygen species employed for photosensitization, which is a key factor that impacts the therapeutic effects in Photodynamic therapy, but not in photothermal therapy.

Conclusion

The comprehensive review serves as a guiding compass for light-triggered DDS for biomedical applications. This rapidly advancing field is poised to generate breakthroughs for disease diagnosis and treatment.

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系统综述：光活性纳米载体的成像和治疗机制，包括控制药物输送

设计用于靶向药物递送系统（DDS）的智能光激活纳米材料已经引起了重大的研究兴趣，部分原因是光能够以高空间和时间分辨率精确控制特定细胞或组织中的药物释放。有效的光触发DDS的开发涉及包括光裂解、光异构化、光聚合、光敏化、光热现象和光重排在内的机制，这些机制允许对紫外线（UV）、可见光（Vis）和/或近红外（NIR）光做出反应。本文综述了光响应小分子、聚合物和纳米载体的最新进展，详细介绍了它们在药物传递和/或成像方面的潜在机制和应用。此外，它还强调了光触发DDS发展的关键挑战和未来前景，强调了这些系统彻底改变靶向治疗的潜力。方法以谷歌Scholar为主要数据库和信息源，进行系统的文献检索。我们检索了最近发表的文献（15年内），检索了以下关键词：光响应、纳米颗粒、药物释放、机制、光热、光敏、光聚合、光裂解、光异构化。结果筛选题目和摘要后，选取117篇科学文献进行证据强度评估。我们发现六种机制（光裂解、光异构化、光聚合、光敏化、光热现象和光重排）主要用于光触发药物释放，并相应地对我们的综述进行了分类。偶氮苯/螺吡喃衍生物和邻硝基苯/香豆素衍生物常用于光异构化和光切割药物递送，而自由基聚合和阳离子聚合是光聚合的两种主要机制。102是光敏作用的主要活性自由基，在光动力治疗中是影响治疗效果的关键因素，而在光热治疗中则不是。结论综合评价可为光触发DDS在生物医学领域的应用提供指导。这一快速发展的领域有望为疾病诊断和治疗带来突破。

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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来源期刊

European Journal of Nuclear Medicine and Molecular Imaging 医学-核医学

CiteScore

15.60

自引率

9.90%

发文量

392

审稿时长

3 months

期刊介绍： The European Journal of Nuclear Medicine and Molecular Imaging serves as a platform for the exchange of clinical and scientific information within nuclear medicine and related professions. It welcomes international submissions from professionals involved in the functional, metabolic, and molecular investigation of diseases. The journal's coverage spans physics, dosimetry, radiation biology, radiochemistry, and pharmacy, providing high-quality peer review by experts in the field. Known for highly cited and downloaded articles, it ensures global visibility for research work and is part of the EJNMMI journal family.