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A Disposable Blood-on-a-Chip for Simultaneous Measurement of Multiple Biophysical Properties.

Authors :
Kang, Yang Jun
Source :
Micromachines; Oct2018, Vol. 9 Issue 10, p475, 1p
Publication Year :
2018

Abstract

Biophysical properties are widely used to detect pathophysiological processes of vascular diseases or clinical states. For early detection of cardiovascular diseases, it is necessary to simultaneously measure multiple biophysical properties in a microfluidic environment. However, a microfluidic-based technique for measuring multiple biophysical properties has not been demonstrated. In this study, a simple measurement method was suggested to quantify three biophysical properties of blood, including red blood cell (RBC) deformability, RBC aggregation, and hematocrit. To demonstrate the suggested method, a microfluidic device was constructed, being composed of a big-sized channel (BC), a parallel micropillar (MP), a main channel, a branch channel, inlet, and outlets. By operating a single syringe pump, blood was supplied into the inlet of the microfluidic device, at a periodic on-off profile (i.e., period = 240 s). The RBC deformability index (DI) was obtained by analyzing the averaged blood velocity in the branch channel. Additionally, the RBC aggregation index (AI<subscript>N</subscript>) and the hematocrit index (H<subscript>iBC</subscript>) were measured by analyzing the image intensity of blood flows in the MP and the BC, respectively. The corresponding contributions of three influencing factors, including the turn-on time (T<subscript>on</subscript>), the amplitude of blood flow rate (Q<subscript>0</subscript>), and the hematocrit (Hct) on the biophysical indices (DI, AI<subscript>N</subscript>, and H<subscript>iBC</subscript>) were evaluated quantitatively. As the three biophysical indices varied significantly with respect to the three factors, the following conditions (i.e., T<subscript>on</subscript> = 210 s, Q<subscript>0</subscript> = 1 mL/h, and Hct = 50%) were maintained for consistent measurement of biophysical properties. The proposed method was employed to detect variations of biophysical properties depending on the concentrations of autologous plasma, homogeneous hardened RBCs, and heterogeneous hardened RBCs. Based on the observations, the proposed method exhibited significant differences in biophysical properties depending on base solutions, homogeneous hardened RBCs (i.e., all RBCs fixed with the same concentration of glutaraldehyde solution), and heterogeneous hardened RBCs (i.e., partially mixed with normal RBCs and homogeneous hardened RBCs). Additionally, the suggested indices (i.e., DI, AI<subscript>N</subscript>, and H<subscript>iBC</subscript>) were effectively employed to quantify three biophysical properties, including RBC deformability, RBC aggregation, and hematocrit. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
2072666X
Volume :
9
Issue :
10
Database :
Complementary Index
Journal :
Micromachines
Publication Type :
Academic Journal
Accession number :
132632198
Full Text :
https://doi.org/10.3390/mi9100475