Repurposing disposable medical syringes into valuable fluorescent carbon dots: application to the fluorometric determination of nintedanib

IF 4.6 3区 化学 Q2 CHEMISTRY, MULTIDISCIPLINARY
RSC Advances Pub Date : 2025-10-21 DOI:10.1039/D5RA07196H
Mohamed N. Goda, Laila S. Alqarni, K. S. Al-Namshah, Hossieny Ibrahim, Al-Montaser Bellah H. Ali and Mohamed M. El-Wekil
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引用次数: 0

Abstract

Monitoring nintedanib (NTB) using reliable analytical methods is essential for ensuring safe dosing, minimizing toxicity, assessing drug–drug interactions, and supporting quality control in personalized cancer therapy. In this work, we present a cost-effective and energy-efficient hydrothermal strategy for synthesizing nitrogen-doped carbon dots (CDs) from disposable plastic syringes. The process, carried out at 200 °C following a calcination pretreatment, not only provides a sustainable route for valorizing biomedical waste but also addresses pressing environmental challenges. The as-prepared CDs exhibited intense green fluorescence, outstanding photostability, and a high quantum yield of 46.42%, reflecting their superior optical performance. Upon exposure to NTB, a concentration-dependent quenching response at 470 nm was observed, primarily mediated by the inner filter effect (IFE). This mechanism enabled highly sensitive NTB detection, with an ultralow detection limit of 2.5 nM (S/N = 3). The probe demonstrated remarkable selectivity, showing negligible interference from common coexisting ions, biomolecules, and anticancer drugs. Analytical accuracy was validated by recovery studies in spiked serum and urine samples, which ranged from 97.6% to 103.2%, while RSD values below 3.48% confirmed excellent precision and reproducibility. These findings establish the proposed CD-based probe as a robust, reproducible, and clinically relevant tool for NTB quantification. By demonstrating the conversion of discarded medical plastics into high-value nanomaterials, this work presents a strategy that aligns with the goals of green nanotechnology and delivers a practical platform for bioanalytical sensing, therapeutic drug monitoring, and pharmacokinetic studies. The dual focus on waste repurposing and clinical utility underscores the potential the potential of syringe plastic-derived CDs for translation into next-generation biomedical diagnostics.

Abstract Image

将一次性医用注射器转化为有价值的荧光碳点:在尼达尼布荧光测定中的应用。
使用可靠的分析方法监测nintedanib (NTB)对于确保安全给药、最小化毒性、评估药物-药物相互作用以及支持个性化癌症治疗的质量控制至关重要。在这项工作中,我们提出了一种经济高效的水热策略,用于从一次性塑料注射器合成氮掺杂碳点(cd)。该过程在200°C下进行煅烧预处理,不仅为生物医学废物提供了可持续的途径,而且还解决了紧迫的环境挑战。所制备的CDs具有强烈的绿色荧光,良好的光稳定性和高达46.42%的量子产率,反映了其优越的光学性能。暴露于NTB后,在470 nm处观察到浓度相关的淬火响应,主要由内过滤效应(IFE)介导。该机制实现了高灵敏度的NTB检测,超低检出限为2.5 nM (S/N = 3)。该探针表现出显著的选择性,对常见共存离子、生物分子和抗癌药物的干扰可以忽略不计。加标后的血清和尿液样品的回收率为97.6% ~ 103.2%,RSD值低于3.48%,具有良好的精密度和重现性。这些发现证实了所提出的基于cd的探针是一种可靠的、可重复的、临床相关的NTB定量工具。通过展示将废弃的医用塑料转化为高价值的纳米材料,这项工作提出了一种与绿色纳米技术目标一致的策略,并为生物分析传感、治疗药物监测和药代动力学研究提供了一个实用的平台。对废物再利用和临床应用的双重关注强调了注射器塑料衍生cd转化为下一代生物医学诊断的潜力。
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来源期刊
RSC Advances
RSC Advances chemical sciences-
CiteScore
7.50
自引率
2.60%
发文量
3116
审稿时长
1.6 months
期刊介绍: An international, peer-reviewed journal covering all of the chemical sciences, including multidisciplinary and emerging areas. RSC Advances is a gold open access journal allowing researchers free access to research articles, and offering an affordable open access publishing option for authors around the world.
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