Organ-on-Chip high-throughput apparatus for in vitro preclinical trials on human cardiac slices
Researchers at the George Washington University have invented a novel apparatus and method allowing high-throughput testing of pharmacological agents and therapeutic virus on human tissue (e.g. human cardiac slices). The apparatus can be used to create induced disease models for testing of therapies targeting specific diseases. For example, heart...
Published: 1/7/2022
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Updated: 11/16/2021
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Inventor(s): Igor Efimov, Yun Qiao, Chaoyi Kang, Zhenyu Li, Quan Dong, Baichen Li
Keywords(s):
Category(s): Technology Classifications > Medical Devices > Therapeutic Devices
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Flexible Integrated Circuit Packaging
The George Washington University has invented a way to package integrated circuits (ICs) in a flexible, twistable, and stretchable format. In addition to many applications in wearable electronics, flexible circuits can be useful in any situation where a circuit must conform to a non-uniform space, or allow for deflection during operation.
This...
Published: 1/7/2022
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Updated: 11/13/2021
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Inventor(s): Zhenyu Li, Mona Zaghloul, Bowei Zhang, Can Korman
Keywords(s):
Category(s): Technology Classifications > Computers Electronics & Software > Processing Chips
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Handheld microfluidic chip controller with smartphone app
GW researchers designed a completely automated, handheld smartphone controlled microfluidic liquid handling system. This is compatible with your microfluidic chip and application of choice. The intensive liquid handling steps required for biological sample preparation and assay automation can be a bottleneck in assay throughput. This small, handheld,...
Published: 1/7/2022
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Updated: 11/9/2021
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Inventor(s): Baichen Li, Zhenyu Li
Keywords(s):
Category(s): Technology Classifications > Computers Electronics & Software > Computing Architecture, Technology Classifications > Computers Electronics & Software > Robotics, Technology Classifications > Computers Electronics & Software > Processing Chips, Technology Classifications > Medical Devices > Diagnostic Devices
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Vital Ring: a Wearable Wireless Multiple-Lead ECG Sensor Embedded in a Flexible Finger Ring
Patients at risk of adverse cardiac events can benefit from mobile, on-demand, or real-time monitoring of their heart rhythms. Patient data can help diagnose symptoms of cardiac arrhythmias, heart attacks, and more. GW engineers incorporated advanced electrocardiogram (ECG) capabilities into a wearable device to provide portability and ease of use.
Competing...
Published: 1/7/2022
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Updated: 11/4/2021
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Inventor(s): Zhenyu Li, Quan Dong, Mona Zaghloul
Keywords(s):
Category(s): Technology Classifications > Medical Devices > Diagnostic Devices, Technology Classifications > Medical Devices > Cardiology
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PMU-Embedded Analytics for Online Event Detection and Classification in Power Grids
Researchers at The George Washington University are developing innovative analytics for power grid online surveillance (event detection and classification with minimum latency) and real-time situational awareness. The novel analytics can be deployed as a stand-alone next-generation smart sensor or can be embedded within the existing phasor measurement...
Published: 1/7/2022
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Updated: 10/6/2021
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Inventor(s): Payman Dehghanian, Shiyuan Wang, Li Li
Keywords(s):
Category(s): Technology Classifications > Industrial or Consumer Tech > Energy Infrastructure and Environment
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