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Integrated Digital Microfluidics NMR Spectroscopy: A Key Step toward Automated In Vivo Metabolomics

Amy Jenne, Sebastian von der Ecken, Vincent Moxley‐Paquette, Ronald Soong, Ian Swyer, Monica Bastawrous, Falko Busse, Wolfgang Bermel, Daniel Schmidig, Till Kuehn, Rainer Kuemmerle, Danijela Al Adwan‐Stojilkovic, Stephan Gräf, Thomas Frei, Martine Monette, Aaron R. Wheeler, André J. Simpson

2023Analytical Chemistry13 citationsDOI

Abstract

Toxicity testing is currently undergoing a paradigm shift from examining apical end points such as death, to monitoring sub-lethal toxicity in vivo. In vivo nuclear magnetic resonance (NMR) spectroscopy is a key platform in this endeavor. A proof-of-principle study is presented which directly interfaces NMR with digital microfluidics (DMF). DMF is a “lab on a chip” method allowing for the movement, mixing, splitting, and dispensing of μL-sized droplets. The goal is for DMF to supply oxygenated water to keep the organisms alive while NMR detects metabolomic changes. Here, both vertical and horizontal NMR coil configurations are compared. While a horizontal configuration is ideal for DMF, NMR performance was found to be sub-par and instead, a vertical-optimized single-sided stripline showed most promise. In this configuration, three organisms were monitored in vivo using 1 H- 13 C 2D NMR. Without support from DMF droplet exchange, the organisms quickly showed signs of anoxic stress; however, with droplet exchange, this was completely suppressed. The results demonstrate that DMF can be used to maintain living organisms and holds potential for automated exposures in future. However, due to numerous limitations of vertically orientated DMF, along with space limitations in standard bore NMR spectrometers, we recommend future development be performed using a horizontal (MRI style) magnet which would eliminate practically all the drawbacks identified here.

Topics & Concepts

Nuclear magnetic resonance spectroscopyChemistryMicrofluidicsProton NMRIn vivoMetabolomicsSpectrometerSpectroscopyNanotechnologyAnalytical Chemistry (journal)Two-dimensional nuclear magnetic resonance spectroscopyNuclear magnetic resonanceChromatographyMaterials scienceOpticsOrganic chemistryPhysicsStereochemistryBiotechnologyBiologyQuantum mechanicsElectrowetting and Microfluidic TechnologiesMicrofluidic and Capillary Electrophoresis ApplicationsInnovative Microfluidic and Catalytic Techniques Innovation
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