Technologies That Enable Accurate and Precise Nano- to Milliliter-Scale Liquid Dispensing of Aqueous Reagents Using Acoustic Droplet Ejection

Technologies That Enable Accurate and Precise Nano- to Milliliter-Scale Liquid Dispensing of Aqueous Reagents Using Acoustic Droplet Ejection

Acoustic liquid handling uses high-frequency acoustic signals that are focused on the surface of a fluid to eject droplets with high accuracy and precision for various life science applications. Here we present a multiwell source plate, the Echo Qualified Reservoir (ER), which can acoustically trans...

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Veröffentlicht in:Journal of Laboratory Automation 2016-02, Vol.21 (1), p.166-177
Hauptverfasser: Sackmann, Eric K., Majlof, Lars, Hahn-Windgassen, Annett, Eaton, Brent, Bandzava, Temo, Daulton, Jay, Vandenbroucke, Arne, Mock, Matthew, Stearns, Richard G., Hinkson, Stephen, Datwani, Sammy S.
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Acoustics
Biomedical Technology - methods
Indicators and Reagents
Solutions
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container_end_page 177
container_issue 1
container_start_page 166
container_title Journal of Laboratory Automation
container_volume 21
creator Sackmann, Eric K.
Majlof, Lars
Hahn-Windgassen, Annett
Eaton, Brent
Bandzava, Temo
Daulton, Jay
Vandenbroucke, Arne
Mock, Matthew
Stearns, Richard G.
Hinkson, Stephen
Datwani, Sammy S.
description Acoustic liquid handling uses high-frequency acoustic signals that are focused on the surface of a fluid to eject droplets with high accuracy and precision for various life science applications. Here we present a multiwell source plate, the Echo Qualified Reservoir (ER), which can acoustically transfer over 2.5 mL of fluid per well in 25-nL increments using an Echo 525 liquid handler. We demonstrate two Labcyte technologies—Dynamic Fluid Analysis (DFA) methods and a high-voltage (HV) grid—that are required to maintain accurate and precise fluid transfers from the ER at this volume scale. DFA methods were employed to dynamically assess the energy requirements of the fluid and adjust the acoustic ejection parameters to maintain a constant velocity droplet. Furthermore, we demonstrate that the HV grid enhances droplet velocity and coalescence at the destination plate. These technologies enabled 5-µL per destination well transfers to a 384-well plate, with accuracy and precision values better than 4%. Last, we used the ER and Echo 525 liquid handler to perform a quantitative polymerase chain reaction (qPCR) assay to demonstrate an application that benefits from the flexibility and larger volume capabilities of the ER.
doi_str_mv 10.1177/2211068215602191
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subjects Acoustics
Biomedical Technology - methods
Indicators and Reagents
Solutions
title Technologies That Enable Accurate and Precise Nano- to Milliliter-Scale Liquid Dispensing of Aqueous Reagents Using Acoustic Droplet Ejection
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