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Frontiers in bioengineering and biotechnology
2019;7 395.

Technology Advancements in Blood Coagulation Measurements for Point-of-Care Diagnostic Testing.

Mohammad Mohammadi Aria, Ahmet Erten, Ozlem Yalcin
Author Information
  1. Mohammad Mohammadi Aria: Graduate School of Biomedical Sciences and Engineering, Koc University, Sariyer, Turkey.
  2. Ahmet Erten: Department of Electronics and Communication Engineering, Istanbul Technical University, Istanbul, Turkey.
  3. Ozlem Yalcin: Graduate School of Biomedical Sciences and Engineering, Koc University, Sariyer, Turkey.
PMID: 31921804 DOI: 10.3389/fbioe.2019.00395

Abstract

In recent years, blood coagulation monitoring has become crucial to diagnosing causes of hemorrhages, developing anticoagulant drugs, assessing bleeding risk in extensive surgery procedures and dialysis, and investigating the efficacy of hemostatic therapies. In this regard, advanced technologies such as microfluidics, fluorescent microscopy, electrochemical sensing, photoacoustic detection, and micro/nano electromechanical systems (MEMS/NEMS) have been employed to develop highly accurate, robust, and cost-effective point of care (POC) devices. These devices measure electrochemical, optical, and mechanical parameters of clotting blood. Which can be correlated to light transmission/scattering, electrical impedance, and viscoelastic properties. In this regard, this paper discusses the working principles of blood coagulation monitoring, physical and sensing parameters in different technologies. In addition, we discussed the recent progress in developing nanomaterials for blood coagulation detection and treatments which opens up new area of controlling and monitoring of coagulation at the same time in the future. Moreover, commercial products, future trends/challenges in blood coagulation monitoring including novel anticoagulant therapies, multiplexed sensing platforms, and the application of artificial intelligence in diagnosis and monitoring have been included.

Keywords

MEMS POC devices blood coagulation electrochemical sensing fluorescent microscopy microfluidics nanomaterials photoacoustic detection

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