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A membrane-based, high-efficiency microfluidic debubbler for point-of-care devices

Description:

Brief Description: Debubbler for microfluidic systems

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Technology:

 

Problem: Microfluidic devices often suffer from unwanted bubbles inside a channel, resulting in obstructed fluidic paths, lower reaction efficiency, detection distortion, and interference with bead array-based assays.  Existing active debubblers that use pneumatics or vacuum to trap and dissipate bubbles require an external vacuum source, preventing portable device applications.  However, passive debubblers rely on buoyancy or surface tension and do not provide sufficient degassing speed, especially when used in tandem with biological reagents.

 

Solution: Researchers in the Bau lab have developed a passive in-line microfluidic debubbler with a hydrophobic porous poly(tetrafluoroethylene) (PTFE) membrane that is permeable to gas but not liquid.  There is a nozzle to direct the bubble-laden liquid toward the membrane.  When there are no air bubbles flowing toward the membrane valve, liquid pressure lifts up the valve, allowing the liquid to pass through unobstructed toward the outlet of the device.  When air bubbles migrate towards the valve, the air leaks through the membrane, reducing the line pressure and keeping the valve closed, forcing the bubble to discharge through the porous membrane to the external environment.  The debubbler has been integrated with an agarose bead array-based microfluidic cassette and used to detect PCR amplicons of B. cereus bacteria.

 

From Liu et al, 2011.  On left, schematic depiction of debubbler.  On right, bead array-based microfluidic cassette with integrated debubbler.

 

Advantages:

·         High efficiency of bubble removal

·         Rapid degassing

·         No external vacuum required

·         Compatible with microfluidics and multiple surfactants in solution

 

Applications:

·         Debubbler for microfluidic applications, including nucleic acid amplification

·         Degas fluid within fluidic systems

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Stage of Development:

·         Proof-of-concept integration with bead array-based cassette and PCR microfluidics

 

Intellectual Property:

UP application (US20120245042 A1)

 

Reference Media:

Liu C. et al.  Lab on a Chip, 2011, 11(9), p. 1688-1693.

 

Desired Partnerships:

1.    License

2.    Co-development

 

Download PDF


Patent Information:
For Information, Contact:
Joshua Jeanson
Associate Director, SEAS/SAS Licensing Group
University of Pennsylvania
jeanson@upenn.edu
Inventors:
Haim Bau
Changchun Liu
Keywords: