Viscoelastic blood coagulation testing system enabled by a non-contact triboelectric angle sensor

Baocheng Wang, Xuelian Wei, Hanlin Zhou, Xiaole Cao, Enyang Zhang, Zhong Lin Wang, Zhiyi Wu
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Abstract

Thromboelastography (TEG) remains a convenient and effective viscoelastic blood coagulation testing device for guiding blood component transfusion and assessing the risk of thrombosis. Here, a TEG enabled by a non-contact triboelectric angle sensor (NTAS) with a small size (∼7 cm3) is developed for assessing the blood coagulation system. With the assistance of a superelastic torsion wire structure, the NTAS-TEG realizes the detection of blood viscoelasticity. Benefiting from a grating and convex design, the NTAS holds a collection of compelling features, including accurate detection of rotation angles from −2.5° to 2.5°, high linearity (R2 = 0.999), and a resolution of 0.01°. Besides, the NTAS exhibits merits of low cost and simplified fabrication. Based on the NTAS-TEG, a viscoelastic blood coagulation detection and analysis system is successfully constructed, which can provide a graph and parameters associated with clot initiation, formation, and stability for clinicians by using 0.36 mL of whole blood. The system not only validates the feasibility of the triboelectric coagulation testing sensor, but also further expands the application of triboelectric sensors in healthcare.

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利用非接触式三电角传感器实现的粘弹性血液凝固测试系统
血栓弹性成像(TEG)仍是一种方便有效的粘弹性血液凝固检测设备,用于指导血液成分输注和评估血栓形成风险。在此,我们开发了一种由非接触式三电角传感器(NTAS)驱动的血栓弹力图(TEG),它体积小(∼7 cm3),可用于评估血液凝固系统。借助超弹性扭转线结构,NTAS-TEG 实现了对血液粘弹性的检测。得益于光栅和凸面设计,NTAS 具有一系列引人注目的特点,包括精确检测 -2.5° 至 2.5° 的旋转角度、高线性度(R2 = 0.999)和 0.01° 的分辨率。此外,NTAS 还具有成本低、制造简单等优点。基于 NTAS-TEG 成功构建了粘弹性血液凝固检测和分析系统,只需使用 0.36 毫升全血,就能为临床医生提供与血凝块的形成、形成和稳定性相关的图表和参数。该系统不仅验证了三电凝血检测传感器的可行性,还进一步拓展了三电传感器在医疗领域的应用。
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Issue Information Back Cover: High-yield upcycling of feather wastes into solid-state ultra-long phosphorescence carbon dots for advanced anticounterfeiting and information encryption (EXP2 6/2024) Frontispiece: Advancements and challenges in brain cancer therapeutics (EXP2 6/2024) Front Cover: Piezoelectric stimulation enhances bone regeneration in alveolar bone defects through metabolic reprogramming of macrophages (EXP2 6/2024) Pioneering Exploration for a lasting and sustainable future
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