纳米颗粒疫苗的多模态成像:对免疫学的启示。

IF 6.9 2区 医学 Q1 MEDICINE, RESEARCH & EXPERIMENTAL
Muhsin H Younis, Zhongmin Tang, Weibo Cai
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引用次数: 1

摘要

近年来,基于纳米颗粒的疫苗和疫苗递送系统的发展取得了重大创新。为了设计和评估的目的,利用围绕纳米材料医学成像建立的丰富知识对这些纳米疫苗进行成像。通过分析成像平台的设计原理以及成像提供的信息的意义,可以对纳米疫苗领域的进展提供重要的见解。纳米疫苗成像策略可以根据所利用的成像方式进行分类,但在特定纳米疫苗的特定背景下,特定模式相对于其他模式的优越性或便利性也值得了解。在这一努力中最重要的成像方式是光学成像,包括近红外荧光成像(NIRF),发射断层扫描方法,如正电子发射断层扫描(PET)和单光子发射计算机断层扫描(SPECT),有或没有计算机断层扫描(CT)或磁共振(MR),新兴的磁粒子成像(MPI),最后,成像的多模态应用,包括分子成像与磁共振成像(MRI)和光声成像(PA)。人们发现每种模式都有优点和缺点,但在这种情况下,光学和PET成像往往是目前最容易获得、最方便和信息最多的模式。然而,一个重要的原则是,不存在放之四海而皆准的解决方案,所讨论的特定纳米疫苗必须与特定的成像方式兼容。本文分类如下:纳米技术生物学方法>生物学中的纳米系统治疗方法和药物发现>肿瘤疾病的纳米医学治疗方法和药物发现>感染性疾病的纳米医学。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multimodality imaging of nanoparticle-based vaccines: Shedding light on immunology.

In recent years, there have been significant innovations in the development of nanoparticle-based vaccines and vaccine delivery systems. For the purposes of both design and evaluation, these nanovaccines are imaged using the wealth of understanding established around medical imaging of nanomaterials. An important insight to the advancement of the field of nanovaccines can be given by an analysis of the design rationale of an imaging platform, as well as the significance of the information provided by imaging. Nanovaccine imaging strategies can be categorized by the imaging modality leveraged, but it is also worth understanding the superiority or convenience of a given modality over others in a given context of a particular nanovaccine. The most important imaging modalities in this endeavor are optical imaging including near-infrared fluorescence imaging (NIRF), emission tomography methods such as positron emission tomography (PET) and single photon emission computed tomography (SPECT) with or without computed tomography (CT) or magnetic resonance (MR), the emerging magnetic particle imaging (MPI), and finally, multimodal applications of imaging which include molecular imaging with magnetic resonance imaging (MRI) and photoacoustic (PA) imaging. One finds that each of these modalities has strengths and weaknesses, but optical and PET imaging tend, in this context, to be currently the most accessible, convenient, and informative modalities. Nevertheless, an important principle is that there is not a one-size-fits-all solution, and that the specific nanovaccine in question must be compatible with a particular imaging modality. This article is categorized under: Nanotechnology Approaches to Biology > Nanoscale Systems in Biology Therapeutic Approaches and Drug Discovery > Nanomedicine for Oncologic Disease Therapeutic Approaches and Drug Discovery > Nanomedicine for Infectious Disease.

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来源期刊
Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology
Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology NANOSCIENCE & NANOTECHNOLOGY-MEDICINE, RESEARCH & EXPERIMENTAL
CiteScore
16.60
自引率
2.30%
发文量
93
期刊介绍: Nanotechnology stands as one of the pivotal scientific domains of the twenty-first century, recognized universally for its transformative potential. Within the biomedical realm, nanotechnology finds crucial applications in nanobiotechnology and nanomedicine, highlighted as one of seven emerging research areas under the NIH Roadmap for Medical Research. The advancement of this field hinges upon collaborative efforts across diverse disciplines, including clinicians, biomedical engineers, materials scientists, applied physicists, and toxicologists. Recognizing the imperative for a high-caliber interdisciplinary review platform, WIREs Nanomedicine and Nanobiotechnology emerges to fulfill this critical need. Our topical coverage spans a wide spectrum, encompassing areas such as toxicology and regulatory issues, implantable materials and surgical technologies, diagnostic tools, nanotechnology approaches to biology, therapeutic approaches and drug discovery, and biology-inspired nanomaterials. Join us in exploring the frontiers of nanotechnology and its profound impact on biomedical research and healthcare.
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