A Fully Integrated Microfluidic Device with Immobilized Dyes for Simultaneous Detection of Cell-Free DNA and Histones from Plasma Using Dehydrated Agarose Gates

Author:

Shahriari Shadi1ORCID,Selvaganapathy P. Ravi12ORCID

Affiliation:

1. Department of Mechanical Engineering, McMaster University, Hamilton, ON L8S 4L8, Canada

2. School of Biomedical Engineering, McMaster University, Hamilton, ON L8S 4L8, Canada

Abstract

Sepsis, a life-threatening condition resulting from a failing host response to infection, causes millions of deaths annually, necessitating rapid and simple prognostic assessments. A variety of genomic and proteomic biomarkers have been developed for sepsis. For example, it has been shown that the level of plasma cell-free DNA (cfDNA) and circulating histones increases considerably during sepsis, and they are linked with sepsis severity and mortality. Developing a diagnostic tool that is capable of assessing such diverse biomarkers is challenging as the detection methodology is quite different for each. Here, a fully integrated microfluidic device capable of detecting a genomic biomarker (cfDNA) and a proteomic biomarker (total circulating histones) using a common detection platform has been demonstrated. The microfluidic device utilizes dehydrated agarose gates loaded with pH-specific agarose to electrophoretically trap cfDNA and histones at their respective isoelectric points. It also incorporates fluorescent dyes within the device, eliminating the need for off-chip sample preparation and allowing the direct testing of plasma samples without the need for labeling DNA and histones with fluorescent dyes beforehand. Xurography, which is a low-cost and rapid method for fabrication of microfluidics, is used in all the fabrication steps. Experimental results demonstrate the effective accumulation and separation of cfDNA and histones in the agarose gates in a total processing time of 20 min, employing 10 and 30 Volts for cfDNA and histone accumulation and detection, respectively. The device can potentially be used to distinguish between the survivors and non-survivors of sepsis. The integration of the detection of both biomarkers into a single device and dye immobilization enhances its clinical utility for rapid point-of-care assessment of sepsis prognosis.

Funder

Canadian Institute of Health Research

Natural Sciences and Engineering Research Council of Canada

McMaster University in the form of Distinguished Engineering Professor Award

Publisher

MDPI AG

Reference20 articles.

1. The Third International Consensus Definitions for Sepsis and Septic Shock (Sepsis-3);Singer;Jama,2016

2. Circulating Histones in Sepsis: Potential Outcome Predictors and Therapeutic Targets;Li;Front. Immunol.,2021

3. Improving Time to Antibiotics and Implementing the “Sepsis 6”;McGregor;BMJ Open Qual.,2014

4. Cell-Free DNA as Prognostic and Diagnostic Biomarkers for Adult Sepsis: A Systematic Review and Meta-Analysis;Charoensappakit;Sci. Rep.,2023

5. An Update on Sepsis Biomarkers;Kim;Infect. Chemother.,2020

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