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Dual-Target Additively Manufactured Electrochemical Sensor for the Multiplexed Detection of Protein A29 and DNA of Human Monkeypox Virus

Luiz Silva, Jéssica S. Stefano, Cristiane Kalinke, Robert D. Crapnell, Laís Canniatti Brazaca, Luiz H. Marcolino‐Júnior, Márcio F. Bergamini, Craig E. Banks, Bruno C. Janegitz

2024ACS Omega13 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Herein, we present the first 3D-printed electrochemical portable biodevice for the detection of monkeypox virus (MKPV). The electrochemical device consists of two biosensors: an immunosensor and a genosensor specifically designed for the detection of the protein A29 and a target DNA of MKPV, respectively. The electrodes were manufactured using lab-made ultraflexible conductive filaments composed of carbon black, recycled PLA from coffee pods, and castor oil as a plasticizer. The sensors created through 3D printing technology exhibited good reproducibility and repeatability of analytical responses. Furthermore, both the immunosensor and genosensor demonstrated excellent MKPV detection capabilities, with a linear range from 0.01 to 1.0 μmol L –1 for the antigen and 0.1 to 20.0 μmol L –1 for the DNA target. The biosensors achieved limits of detection of 2.7 and 29 nmol L –1 for the immunosensor and genosensor, respectively. Interference tests conducted with the biosensors demonstrated their selectivity for MKPV. Moreover, analyses of fortified human serum samples showed recoveries close to 100%, confirming the absence of significant matrix effects for MKPV analysis. Therefore, the 3D-printed multiplex device represents a viable and highly promising alternative for on-site, portable, and rapid point-of-care MKPV monitoring.

Topics & Concepts

BiosensorMultiplexDetection limitMaterials scienceChromatographyNanotechnologyChemistryBiologyBioinformaticsPoxvirus research and outbreaksHerpesvirus Infections and TreatmentsVirus-based gene therapy research