光学 精密工程, 2018, 26 (9): 2304, 网络出版: 2018-12-16   

用于aPTT测量的Parylene-C增强型石英晶体微天平耗散检测系统

Parylene-C enhanced quartz crystal microbalance based dissipation detecting system for aPTT measurement
作者单位
1 上海大学 通信与信息工程学院, 上海 200444
2 中国科学院 苏州生物医学工程技术研究所, 江苏 苏州 215163
3 苏州大学 电子信息学院, 江苏 苏州 215006
摘要
房颤、血栓等患者抗凝药物日常口服等场景迫切需要凝血参数快速检测, 本文设计和制作了一种Parylene-C增强型石英晶体微天平(QCM)传感器及其耗散因子检测系统用于凝血测量。首先使用Parylene-C有效增加石英晶体微天平传感器的峰峰值和有效使用次数, 基于传感器耗散因子对血液凝固过程血液粘弹性变化敏感, 设计电导谱分析法的压电传感器耗散因子快速测量系统, 对血浆部分凝血活酶时间(aPTT)进行测量。并用SYSMEX CS 5100光学凝血仪、Lambda 950分光光度计验证系统测量结果。实验表明, Parylene-C增强型QCM传感器信号峰峰值增加8±1%, 传感器aPTT实验有效重复使用次数为30次, 系统30 ℃温差最大耗散偏移2.09×10-6。aPTT耗散曲线与光学法(lambda 950)吸光度曲线变化趋势一致。与SYSMEX CS 5100临床结果线性拟合决定系数R2为0.99。同样本10次重复实验结果变异系数为1.48%。Parylene-C增强型QCM传感器与耗散分析法的联合应用具备多场景下凝血参数快速检测的能力, 系统温度稳定性好, 具有满足即时检测应用的潜力。
Abstract
To address the need to rapidly detect blood coagulation in daily administration of anticoagulant for atrial fibrillation and thrombus patients and others, a Parylene-C enhanced quartz crystal microbalance (QCM) sensor and a dissipation detection system were designed and manufactured for the measurement of coagulation parameters. Parylene-C was used to enhance the peak-to-peak value and reusability of the QCM sensor. A dissipation detection system for piezoelectric sensors was designed using the principle of conductance spectrum analysis to measure the activated partial thromboplastin time (aPTT) based on the sensitivity of the sensors dissipation to the change of blood viscoelasticity in the coagulation process. The SYSMEX CS 5100 optical coagulometer system and Lambda 950 spectrophotometer were used to evaluate the system. The results indicate that Parylene-C increases the sensors peak-to-peak value by 8±1% and it can be reused 30 times. The system has a maximum dissipation excursion of 2.09×10-6 with a temperature difference of 30 ℃. The dissipation and absorbance curves of optical detection (Lambda 950) have the same variation trend. The adjusted R-square value of the linear fitting with SYSMEX CS 5100 is 0.99. The results of the experiment, repeated 10 times with the same sample, have a variable coefficient of 1.48%. The combination of the Parylene-C enhanced QCM and dissipation detection system is highly temperature-stable, can rapidly detect blood coagulation in different scenarios, and has the potential for point-of-care testing.

丰斌, 姚佳, 张威, 孔慧, 魏巍, 周连群. 用于aPTT测量的Parylene-C增强型石英晶体微天平耗散检测系统[J]. 光学 精密工程, 2018, 26(9): 2304. FENG Bin, YAO Jia, ZHANG Wei, KONG Hui, WEI Wei, ZHOU Lian-qun. Parylene-C enhanced quartz crystal microbalance based dissipation detecting system for aPTT measurement[J]. Optics and Precision Engineering, 2018, 26(9): 2304.

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