HIGH-THROUGHPUT IMAGING PLATFORM

Organization Name

Board of Regents, The University of Texas System

Inventor(s)

Adela Ben-yakar of Austin TX (US)

Evan Hegarty of Austin TX (US)

Sudip Mondal of Austin TX (US)

Navid Ghorashian of Sunnyvale CA (US)

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Christopher Martin of Austin TX (US)

HIGH-THROUGHPUT IMAGING PLATFORM - A simplified explanation of the abstract

This abstract first appeared for US patent application 18449351 titled 'HIGH-THROUGHPUT IMAGING PLATFORM

Simplified Explanation

The microfluidic device described in the patent application is designed to trap contents in a manner suitable for high-throughput imaging. Here are some key points about the innovation:

• The device includes one or more trapping devices, each with multiple trapping channels.
• Trapping channels receive contents from a sample reservoir via an inlet channel, positioning them optimally for imaging.
• Contents within the trapping channels can be controlled using hydraulic pressure.
• Trapping channels are connected to at least one exit channel for fluid communication.

Potential Applications

The microfluidic device could be used in various applications such as:

• High-throughput imaging of biological samples
• Drug discovery and screening processes
• Cell analysis and sorting

Problems Solved

This technology addresses the following issues:

• Efficient trapping and positioning of contents for imaging
• High-throughput imaging of samples
• Precise control of fluid and contents within the device

Benefits

The benefits of this technology include:

• Increased efficiency in imaging processes
• Enhanced control and manipulation of samples
• Potential for automation and scalability in research and testing

Potential Commercial Applications

The microfluidic device could find commercial applications in:

• Biotechnology and pharmaceutical industries
• Research laboratories and academic institutions
• Medical diagnostics and healthcare settings

Possible Prior Art

One possible prior art for this technology could be the development of microfluidic devices for cell trapping and analysis, such as those used in lab-on-a-chip systems.

Unanswered Questions

How does the device handle different types of samples and fluids?

The patent application does not provide specific details on the compatibility of the device with various sample types and fluids. Further information on this aspect would be helpful for potential users looking to apply the technology in different research areas.

What is the expected lifespan of the microfluidic device?

The longevity of the device and its trapping components is not discussed in the abstract. Understanding the durability and maintenance requirements of the device would be crucial for users considering its long-term use in their experiments.

Original Abstract Submitted

A microfluidic device capable of trapping contents in a manner suitable for high-throughput imaging is described herein. The microfluidic device may include one or more trapping devices, with each trapping device having a plurality of trapping channels. The trapping channels may be configured to receive contents via an inlet channel that connects a sample reservoir to the trapping channels via fluid communication. The trapping channels are shaped such that contents within the trapping channels are positioned for optimal imaging purposes. The trapping channels are also connect to at least one exit channel via fluid communication. The fluid, and contents within the fluid, maybe controlled via hydraulic pressure.