Automated end-to-end blood testing at the point-of-care: Integration of robotic phlebotomy with downstream sample processing.

M L Balter, J M Leipheimer, A I Chen, A Shrirao, T J Maguire, M L Yarmush
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Abstract

Diagnostic blood testing is the most commonly performed clinical procedure in the world, and influences the majority of medical decisions made in hospital and laboratory settings. However, manual blood draw success rates are dependent on clinician skill and patient physiology, and results are generated almost exclusively in centralized labs from large-volume samples using labor-intensive analytical techniques. This paper presents a medical device that enables end-to-end blood testing by performing blood draws and providing diagnostic results in a fully automated fashion at the point-of-care. The system couples an image-guided venipuncture robot, developed to address the challenges of routine venous access, with a centrifuge-based blood analyzer to obtain quantitative measurements of hematology. We first demonstrate a white blood cell assay on the analyzer, using a blood mimicking fluid spiked with fluorescent microbeads, where the area of the packed bead layer is correlated with the bead concentration. Next we perform experiments to evaluate the pumping efficiency of the sample handling module. Finally, studies are conducted on the integrated device - from blood draw to analysis - using blood vessel phantoms to assess the accuracy and repeatability of the resulting white blood cell assay.

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护理点自动化端到端血液检测:将机器人静脉切开术与下游样本处理集成。
血液诊断检测是世界上最常见的临床程序,影响着医院和实验室环境中的大多数医疗决策。然而,手动抽血的成功率取决于临床医生的技能和患者的生理学,而且结果几乎完全是在集中的实验室中使用劳动密集型分析技术从大量样本中产生的。本文介绍了一种医疗设备,通过在护理点进行抽血并以全自动的方式提供诊断结果,实现端到端血液检测。该系统将为应对常规静脉穿刺的挑战而开发的图像引导静脉穿刺机器人与基于离心机的血液分析仪相耦合,以获得血液学的定量测量。我们首先在分析仪上演示了白细胞测定,使用掺有荧光微珠的血液模拟液,其中填充的珠层面积与珠浓度相关。接下来,我们进行实验来评估样品处理模块的泵送效率。最后,使用血管模型对集成设备进行研究,从抽血到分析,以评估所产生的白细胞测定的准确性和可重复性。
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TECHNOLOGY
TECHNOLOGY ENGINEERING, MULTIDISCIPLINARY-
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Twenty-four hour ex-vivo normothermic machine perfusion in rat livers. First-in-human evaluation of a hand-held automated venipuncture device for rapid venous blood draws. A protein interaction free energy model based on amino acid residue contributions: Assessment of point mutation stability of T4 lysozyme. The growing role of precision and personalized medicine for cancer treatment. Automated end-to-end blood testing at the point-of-care: Integration of robotic phlebotomy with downstream sample processing.
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