Optical nanoprobes in biomedical diagnosis assays: Recent progress

Q1 Engineering
Fuli Chen , Jiuchuan Guo , Jinhong Guo , Wenjun Chen , Xing Ma
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引用次数: 0

Abstract

Biomedical assays based on optical nanoprobes play an important role in human health. Optical nanoprobes, the nanomaterials with special optical properties, are widely utilized in biomedical assays. Compared with traditional materials, the well-performed optical nanoprobes have certain properties, such as negligible interferences from the background fluorescence and scattering, simple operations and instruments, high sensitivity, and excellent specificity. This paper reviews the mechanisms, materials, and applications of optical nanoprobes. The mechanisms of optical nanoprobes involve fluorescence, phosphorescence, Förster resonance energy transfer (FRET), upconversion luminescence and chemiluminescence. Time-resolved luminescent nanoprobes are usually prepared from rare earth compounds and quantum dots (QDs). Ultralong inorganic phosphorescent nanoprobes are prepared from transition metal compounds, while ultralong organic phosphorescent nanoprobes are usually prepared from π-conjugated compound nanocrystals that exhibit a rigid confinement to suppress the non-radiative transitions and contain heavy atoms to enhance ISC. Time-resolved luminescent nanoprobes and ultralong phosphorescent nanoprobes minimize background interferences by longer luminescence lifetime. Chemiluminescent nanoprobes are usually prepared from compounds that can react with reactive oxygen species (ROS) to form peroxide bonds. Upconversion luminescent nanoprobes are usually prepared from inorganic rare earth fluoride nanocrystals. Chemiluminescent nanoprobes and upconversion luminescent nanoprobes can avoid background interferences because excitation light of shorter wavelength is not needed. FRET nanoprobes and luminescence quenching nanoprobes are prepared from a donor and an acceptor that can be linked or delinked by the analyte. Optical nanoprobes are applied in both in vitro diagnoses and in vivo imaging. The in vitro applications of optical nanoprobes include the determination of varieties of biomacromolecules and small molecules, while the in vivo imaging involves the diagnoses of inflammation and tumors.

光学纳米探针在生物医学诊断中的研究进展
基于光学纳米探针的生物医学检测在人类健康中发挥着重要作用。光学纳米探针是一种具有特殊光学性质的纳米材料,在生物医学检测中有着广泛的应用。与传统材料相比,性能良好的光学纳米探针具有某些特性,如背景荧光和散射的干扰可以忽略不计,操作和仪器简单,灵敏度高,特异性好。本文综述了光学纳米探针的机理、材料和应用。光学纳米探针的机理包括荧光、磷光、Förster共振能量转移(FRET)、上转换发光和化学发光。时间分辨发光纳米探针通常由稀土化合物和量子点(QDs)制备。超长无机磷光纳米探针由过渡金属化合物制备,而超长有机磷光纳米探测器通常由π-共轭化合物纳米晶体制备,这些化合物纳米晶体表现出刚性约束以抑制非辐射跃迁,并含有重原子以增强ISC。时间分辨发光纳米探针和超长磷光纳米探针通过延长发光寿命来最小化背景干扰。化学发光纳米探针通常由可以与活性氧(ROS)反应形成过氧化物键的化合物制备。上转换发光纳米探针通常由无机稀土氟化物纳米晶体制备。化学发光纳米探针和上转换发光纳米探针可以避免背景干扰,因为不需要更短波长的激发光。FRET纳米探针和发光猝灭纳米探针由供体和受体制备,所述供体和受体可以被分析物连接或脱链。光学纳米探针应用于体外诊断和体内成像。光学纳米探针的体外应用包括测定各种生物大分子和小分子,而体内成像则涉及炎症和肿瘤的诊断。
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
Smart Materials in Medicine
Smart Materials in Medicine Engineering-Biomedical Engineering
CiteScore
14.00
自引率
0.00%
发文量
41
审稿时长
48 days
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