Lisa C Lafleur, Age 491488 E 850 N, Lake Point, UT 84074

2011015, Jun 23, 2011

Aug 25, 2009

13/060664

Dean Y. Stevens - Seattle WA, US
Lisa K. Lafleur - Kirkland WA, US
Berry R. Lutz - Seattle WA, US
Paul Yager - Seattle WA, US

University of Washington - Seattle WA

G01N 33/53
G01N 33/48
G01N 30/00
G01N 1/00

435 71, 422 681, 422 69, 436174

Disclosed is a flow-through membrane assay that takes advantage of a high surface area and rapid transport while allowing individual control over flow rates and times for each step of a multi-step assay. A microfluidic card features channels in communication with a porous membrane, channels on either side of membrane to allow transverse flow across the membrane, capturing a labeled target from the sample by flowing the sample across the membrane, or capturing a target from the sample followed by flowing a reagent containing a label that binds to the target. Fluid can be pushed or pulled through the assay membrane by external control. Air near the membrane is managed by diverting air between fluids to a channel upstream of the assay membrane, venting air between fluids through a hydrophobic membrane upstream of the assay membrane, and/or by venting trapped air through a hydrophobic membrane downstream of the assay membrane.

2017007, Mar 16, 2017

Nov 28, 2016

15/362646

- Seattle WA, US
Lisa Kathryn Lafleur - Seattle WA, US
Robert John Flickenger - Seattle WA, US
Jennifer Hu - Seattle WA, US
Koji Intlekofer - Seattle WA, US
Phillip Edward Rutschman - Seattle WA, US

Shift Labs, Inc. - Seattle WA

A61M 5/168
G01F 1/704

A device, method, and system are provided for monitoring the delivery of fluids through a drip chamber. The device includes an electromagnetic radiation (EMR) source and an EMR detector. A device body is employed to position the source and detector about the drip chamber so that the source and detector define an optical path across the drip chamber. A processor device is employed to detect fluid drops from differences between detector signal values separated by a lag time. The flow rate is determined from a drip factor and the detection of multiple drops. In the context of delivering intravenous (IV) fluids, a battery powered handheld monitoring device that includes the source, detector, device body, and processor device may be affixed to a drip chamber included in an infusion set. The device includes a user interface, including buttons, a display, and an audio speaker, for the input and output of information.

2016004, Feb 18, 2016

Oct 26, 2015

14/923427

- Seattle WA, US
Lisa Kathryn Lafleur - Seattle WA, US
Robert John Flickenger - Seattle WA, US
Jennifer Hu - Seattle WA, US
Koji Intlekofer - Seattle WA, US
Phillip Edward Rutschman - Seattle WA, US

SHIFT LABS, INC. - Seattle WA

A61M 5/168
G01F 1/05

A device, method, and system are provided for monitoring the delivery of fluids through a drip chamber. The device includes an electromagnetic radiation (EMR) source and an EMR detector. A device body is employed to position the source and detector about the drip chamber so that the source and detector define an optical path across the drip chamber. A processor device is employed to detect fluid drops from differences between detector signal values separated by a lag time. The flow rate is determined from a drip factor and the detection of multiple drops. In the context of delivering intravenous (IV) fluids, a battery powered handheld monitoring device that includes the source, detector, device body, and processor device may be affixed to a drip chamber included in an infusion set. The device includes a user interface, including buttons, a display, and an audio speaker, for the input and output of information.

2015036, Dec 17, 2015

Jan 22, 2014

14/761604

- Seattle WA, US
Joshua Buser - Seattle WA, US
Samantha Byrnes - Seattle WA, US
Shivani Dharmaraja - Seattle WA, US
Elain S. Fu - Seattle WA, US
Jared Houghtaling - Seattle WA, US
Peter C. Kauffman - Seattle WA, US
Sujatha Kumar - Seattle WA, US
Lisa Lafleur - Seattle WA, US
Tinny Liang - Seattle WA, US
Barry Lutz - Seattle WA, US
Bhushan Toley - Seattle WA, US
Maxwell Wheeler - Seattle WA, US
Paul Yager - Seattle WA, US
Xiaohong Zhang - Seattle WA, US

C12Q 1/68
B01L 7/00
B01L 3/00

The present technology is directed to capillarity-based devices for performing chemical processes and associated system and methods. In one embodiment, for example, a device can include a porous receiving element having an input region and a receiving region, a first fluid source and a second fluid source positioned within the input region of the receiving element; wherein the first fluid source is positioned between the second fluid source and the receiving region, and wherein, when both the first and second fluid sources are in fluid connection with the input region, the device is configured to sequentially deliver the first fluid and the second fluid to the receiving region without leakage.

2014028, Sep 25, 2014

Feb 24, 2014

14/188669

- Seattle WA, US
Lisa Kathryn Lafleur - Seattle WA, US
Robert John Flickenger - Seattle WA, US
Jennifer Hu - Seattle WA, US
Koji Intlekofer - Seattle WA, US
Phillip Edward Rutschman - Seattle WA, US

Shift Labs, Inc. - Seattle WA

A61M 5/168
G01F 1/05

7386141

A device, method, and system are provided for monitoring the delivery of fluids through a drip chamber. The device includes an electromagnetic radiation (EMR) source and an EMR detector. A device body is employed to position the source and detector about the drip chamber so that the source and detector define an optical path across the drip chamber. A processor device is employed to detect fluid drops from differences between detector signal values separated by a lag time. The flow rate is determined from a drip factor and the detection of multiple drops. In the context of delivering intravenous (IV) fluids, a battery powered handheld monitoring device that includes the source, detector, device body, and processor device may be affixed to a drip chamber included in an infusion set. The device includes a user interface, including buttons, a display, and an audio speaker, for the input and output of information.