Highly sensitive and rapid optical fiber bio-sensor for endotoxin detection using anti-resonance effect

IF 8 1区 化学 Q1 CHEMISTRY, ANALYTICAL
Zhibin Li, Yu Zhang, Yongbo Mi, Ziye Wu, Rongfeng Pan, Chenkang Li, Yixin Peng, Jieyuan Tang, Mengyuan Xie, Wenguo Zhu, Huadan Zheng, Yongchun Zhong, Yan Xu, Zheng Xiang, Xiong Deng, Xihua Zou, Zhe Chen, Jianhui Yu
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Abstract

Endotoxin detection is critical to human health. Reported endotoxin assays usually rely on multistep enrichment or specific modification techniques to improve sensitivity, resulting in long response times (∼1 h) and greater sample consumption (>1 mL). By now, it is still challenging to implement a highly sensitive and ultra-fast response (∼seconds) biosensor for optical endotoxin assays with only micro/nanoliter volume. Here, a new approach is proposed to break the challenges by using an anti-resonance (AR) fiber-optic biosensors with the length-independent and volume-independent sensitivity. The AR fiber-optic biosensor is composed of a side-polished single-mode/hollow-core/single-mode fiber (SP-SHSF) structure, capable of achieving high sensitivity (∼7394 nm/RIU@RI=1.33–1.385 and 33,657.14 nm/RIU@RI=1.436–1.446) with a lowest sample volume limit of down to sub-nanoliter (∼600 pL). A standard Limulus Amebocyte Lysate (LAL) assay was combined to achieve refractive index (RI) increases during LAL gel formation, and endotoxin concentrations were quantified by fixing the response time required for a 5 nm resonance dip drift. The limit of detection (LOD) of endotoxin for the biosensor was measured to be 10−4 EU/mL with a fast response time of 344 s and only 5 μL consumption of LAL reagent per test. Compared with the traditional LAL test, the fiber-optic biosensor has more than two orders of magnitude lower LOD, about 9 times faster respond and 20 times less sample consumption. The proposed fiber-optic biosensor has the advantages of small size, high sensitivity, reusability, and online detection, which is of great significance for detecting endotoxin contamination in products for biopharmaceuticals and medical devices.
利用反共振效应检测内毒素的高灵敏快速光纤生物传感器
内毒素检测对人类健康至关重要。已报道的内毒素检测方法通常依赖多步富集或特定修饰技术来提高灵敏度,导致响应时间长(∼1 小时)和样品消耗量大(>1 mL)。目前,要在仅有微/纳升体积的光学内毒素检测中实现高灵敏度、超快速响应(∼秒)的生物传感器仍是一项挑战。在此,我们提出了一种新方法,通过使用灵敏度与长度和体积无关的抗共振(AR)光纤生物传感器来打破这一难题。抗共振光纤生物传感器由侧面抛光的单模/中空芯/单模光纤(SP-SHSF)结构组成,能够实现高灵敏度(∼7394 nm/RIU@RI=1.33-1.385 和 33657.14 nm/RIU@RI=1.436-1.446),最低样品体积限制可达亚纳升(∼600 pL)。结合标准的鹅卵石红细胞裂解液(LAL)测定法,在 LAL 凝胶形成过程中实现折射率(RI)的增加,并通过固定 5 nm 共振倾角漂移所需的响应时间来量化内毒素浓度。生物传感器的内毒素检测限(LOD)为 10-4 EU/mL,快速反应时间为 344 秒,每次测试仅消耗 5 μL LAL 试剂。与传统的 LAL 测试相比,光纤生物传感器的 LOD 低两个数量级以上,响应速度快约 9 倍,样品消耗量少 20 倍。所提出的光纤生物传感器具有体积小、灵敏度高、可重复使用和在线检测等优点,对于检测生物制药和医疗器械产品中的内毒素污染具有重要意义。
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来源期刊
Sensors and Actuators B: Chemical
Sensors and Actuators B: Chemical 工程技术-电化学
CiteScore
14.60
自引率
11.90%
发文量
1776
审稿时长
3.2 months
期刊介绍: Sensors & Actuators, B: Chemical is an international journal focused on the research and development of chemical transducers. It covers chemical sensors and biosensors, chemical actuators, and analytical microsystems. The journal is interdisciplinary, aiming to publish original works showcasing substantial advancements beyond the current state of the art in these fields, with practical applicability to solving meaningful analytical problems. Review articles are accepted by invitation from an Editor of the journal.
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