Advances in Nanotechnology-Enabled Optical Biosensors for Dengue Virus Detection: A Systematic Review.

IF 11.6 1区医学 Q1 CHEMISTRY, MEDICINAL

Medicinal Research Reviews Pub Date : 2025-07-29 DOI:10.1002/med.70006

Marta Quero-Delgado, Helena Codina, Rafael Gómez, Francisco José Terán, M A Muñoz-Fernández, José Luis Jiménez, Salvador Resino, Daniel Sepúlveda-Crespo, Isidoro Martínez

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引用次数: 0

Abstract

The dramatic surge in dengue cases in early 2024, endangering half the global population, urgently necessitates faster diagnostic methods. Nanotechnology-enabled optical biosensors offer a promising avenue, leveraging nanomaterial properties for highly sensitive detection of dengue virus (DENV), potentially surpassing conventional techniques in terms of simplicity, speed, and cost-effectiveness. This systematic review analyzes recent advancements in these biosensors for DENV diagnosis. Following PRISMA 2020 guidelines, we systematically searched PubMed, Embase, Scopus, Web of Science, and Cochrane Library databases (2010-June 1, 2025; OSF: https://osf.io/3gmey/). The methodological quality of the 98 included studies was assessed using a modified CASP checklist. Diverse nanotechnology-based optical biosensors were identified. SPR (36.7%) was the most common transducer, followed by fluorescence (24.5%), colorimetry (15.3%), and SERS (8.2%). Gold-based nanomaterials (35.7%) were most frequently employed, with silver nanomaterials (15.3%), quantum dots (15.3%), and graphene-based materials (15.3%) also showing promise. DENV NS1 protein was the primary target analyte (21.4%). Importantly, almost half of the studies (44.9%) used clinically relevant human samples. While many optical biosensors show promise, challenges hinder their demonstration of the true potential for point-of-care use in their current format; however, they offer high specificity and faster results, laying a strong foundation for cost-effective clinical diagnostics. Nanotechnology-driven optical biosensors offer a transformative approach for DENV detection. Advances in computational design and green synthesis of novel nanomaterials are key to addressing stability and field-deployment challenges. These innovations are crucial for developing robust, sensitive, and user-friendly tools to manage dengue and improve patient outcomes globally.

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用于登革热病毒检测的纳米光学生物传感器的进展：系统综述。

登革热病例在2024年初急剧增加，危及全球一半人口，迫切需要更快的诊断方法。纳米技术支持的光学生物传感器提供了一条很有前途的途径，利用纳米材料的特性对登革热病毒（DENV）进行高度敏感的检测，在简单性、速度和成本效益方面可能超过传统技术。本系统综述分析了用于DENV诊断的这些生物传感器的最新进展。根据PRISMA 2020指南，我们系统地检索了PubMed、Embase、Scopus、Web of Science和Cochrane Library数据库(2010- 2025年6月1日；OSF: https://osf.io/3gmey/)。98项纳入研究的方法学质量采用改良的CASP检查表进行评估。鉴定了多种基于纳米技术的光学生物传感器。SPR（36.7%）是最常见的换能器，其次是荧光（24.5%）、比色（15.3%）和SERS（8.2%）。金基纳米材料（35.7%）是最常用的材料，其次是银纳米材料（15.3%）、量子点（15.3%）和石墨烯基材料（15.3%）。DENV NS1蛋白为主要目标分析物（21.4%）。重要的是，几乎一半的研究（44.9%）使用了临床相关的人类样本。虽然许多光学生物传感器显示出希望，但挑战阻碍了它们以目前的形式展示在护理点使用的真正潜力；然而，它们提供了高特异性和更快的结果，为具有成本效益的临床诊断奠定了坚实的基础。纳米技术驱动的光学生物传感器为DENV检测提供了一种革命性的方法。新型纳米材料的计算设计和绿色合成的进步是解决稳定性和现场部署挑战的关键。这些创新对于开发强大、敏感和用户友好的工具来管理登革热并改善全球患者的预后至关重要。

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

Medicinal Research Reviews 医学-药学

CiteScore

29.30

自引率

0.00%

发文量

审稿时长

2 months

期刊介绍： Medicinal Research Reviews is dedicated to publishing timely and critical reviews, as well as opinion-based articles, covering a broad spectrum of topics related to medicinal research. These contributions are authored by individuals who have made significant advancements in the field. Encompassing a wide range of subjects, suitable topics include, but are not limited to, the underlying pathophysiology of crucial diseases and disease vectors, therapeutic approaches for diverse medical conditions, properties of molecular targets for therapeutic agents, innovative methodologies facilitating therapy discovery, genomics and proteomics, structure-activity correlations of drug series, development of new imaging and diagnostic tools, drug metabolism, drug delivery, and comprehensive examinations of the chemical, pharmacological, pharmacokinetic, pharmacodynamic, and clinical characteristics of significant drugs.