Facile compliance-based pump for blood physiometer

Kang, Yang Jun

doi:10.1063/5.0208872

Physics of Fluids

2024

DOI: 10.1063/5.0208872

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Facile compliance-based pump for blood physiometer

Yang Jun Kang

Abstract: The biomechanical properties of blood are considered promising label-free biomarkers for early disease detection. Disposable pumps have been suggested as replacements for bulky and expensive syringe pumps. However, they have limitations, including initial air bubble removal, simple stop-and-run flow control, and quantification of many rheological properties. In this study, a compliance-based pump (CP) is developed by fitting a blood-loaded syringe, an air-compliance unit, and a needle into each port of a three… Show more

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Assessment of multiple hemorheological properties in microfluidic environment

Kang

2024

Physics of Fluids

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Measuring and monitoring hemorheological properties provide valuable insights into diseases. To effectively detect impaired blood, it is necessary to quantify the multiple hemorheological properties. However, most of the previous methods only provide single blood property. They require bulky and expensive syringe pumps for precise on–off control. In this study, to resolve several issues, a novel method for measuring multiple hemorheological properties (fluidic resistance, blood viscosity, time constant, compliance coefficient, red blood cell [RBC] aggregation index, and RBC sedimentation index) is proposed by analyzing blood images in microfluidic channels, where transient blood flow is induced by a portable air-compression pump. A microfluidic device consists of an inlet, a test chamber joined to a main channel, and a reservoir. The outlet of test chamber is connected to an air damper, which contributes to stopping blood flow promptly. A fluid circuit model of the proposed microfluidic channels is constructed for estimating flow rate and pressure in the main channel. First, the proposed method is used to obtain the rheological properties of glycerin solution (30%). The normalized difference between the proposed method and the reference value is less than 4%. Subsequently, the proposed method is adopted to detect differences in the medium (1× phosphate-buffered saline, dextran solution: 20 mg/ml) and hematocrit (30%–60%). All hemorheological properties exhibit substantial differences with respect to the hematocrit and medium. The proposed method yields comparable results when compared to the previous methods. In conclusion, the proposed method can measure multiple hemorheological properties by analyzing blood flow in microfluidic channels.

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Assessment of multiple hemorheological properties in microfluidic environment

Kang

2024

Physics of Fluids

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Facile compliance-based pump for blood physiometer

Cited by 1 publication

References 71 publications

Assessment of multiple hemorheological properties in microfluidic environment

Assessment of multiple hemorheological properties in microfluidic environment

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