Harmful algal bloom (HAB)-on- a-chip: Development of a microfluidic platform to study algal chemotaxis Kelly O’Quinn Dr. Adam Melvin Cain Department of Chemical Engineering Louisiana State University
Kelly O’Quinn Dr. Adam Melvin Cain Department of Chemical Engineering Louisiana State University
Dec 30, 2015
Harmful algal bloom (HAB)-on-a-chip: Development of a microfluidic platform to study algal chemotaxis. Kelly O’Quinn Dr. Adam Melvin Cain Department of Chemical Engineering Louisiana State University. Harmful Algal Blooms. Overabundance of algae Karenia brevis Problems Ecosystem - PowerPoint PPT Presentation
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Harmful algal bloom (HAB)-on-a-chip: Development of a microfluidic platform
to study algal chemotaxis
Kelly O’Quinn
Dr. Adam Melvin
Cain Department of Chemical Engineering
Louisiana State University
Harmful Algal Blooms
• Overabundance of algae– Karenia brevis
• Problems• Ecosystem• Economy• Health
• Reproduction and Migration
(1) http://oceanservice.noaa.gov/hazards/hab/(2) http://naturalunseenhazards.wordpress.com/2012/08/01/washington-warns-of-paralytic-shellfish-poison-biotoxin-found-in-
central-and-south-puget-sound-waters-lyme-disease-stories-presented-by-cdc-west-nile-virus-reports-from-ne-sc-tx-rabies-r/
Migration of Algae
•Phototaxis: upward migration toward light during day•Chemotaxis: downward migration toward nutrients at night
Heterogeneous Environments
• Algae migrate in response to many factors• Concentrations not constant throughout system
Developing a New Technology
• Microfluidic devices– Precise control of fluids– Laminar flow: diffusion-based mixing– Dynamic control
• Past research– Homogeneous tanks– Other microfluidic devices
http://www.rsc.org/ej/IB/2010/c0ib00055h/c0ib00055h-f1.gif
Design and Fabricate the Device
• Design in AutoCAD• Soft lithography
– Master• PDMS replication
Fabrication
Spin coat photoresist onto wafer
Cross-linked polymers stay and non cross-
linked dissolve in solution
Place photomask onto wafer then UV expose
then bake
Device Assembly
• Layers– PDMS– Agarose– Glass slide
• Tubes• Options for adhering layers
– Silanes– Thiol-ene resin– Plexiglas box– Negative pressure
Shing-Yi Cheng, Steven Heilman, Max Wasserman, Shivaun Archer, Michael L. Shuler and Mingming Wu, “A hydrogel-based microfluidic device for the studies of directed cell migration,” Lab Chip, 2007, 7, 763-769
Characterize the Device
• Ensure stable, well-controlled gradients formed• Fluorescent tracers• ImageJ line scan• COMSOL models
Implement the Device for Studying Algae Migration
• Chlamydomonas reinhardtii– Unicellular, survives in many environments
• Load both channels• Allow gradient to develop• Load cells into center, flow-free channel
Gathering and Analyzing Results
• Chemotactic Index– Vector assigning
• Design of Experiment (DOE)• Analysis of Variance (ANOVA)
Future Applications
• Better understanding of algae migration– Most prominent factors causing blooms
• Developing new technology– Future collaborations with other labs
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