Project Overview

Cellular microarrays contain populations of living cells that are spatially separated from one another. Due to the numerous discrete populations, these devices are beneficial in high-throughput screening applications. Last semester, we adapted a microfluidic device, originally created by Jeon et al., to be capable of establishing a concentration gradient over the intended cellular microarray portion of the platform. This semester, we aspire to integrate the microfluidic and microarray components in a way that enables them to be compatible with a standard microscope stage. Along with fitting into the stage, the platform must be able to generate concentration gradients across the field of flow, form a watertight seal, and be reusable in order for the device to be effective. By accomplishing this, our client will be able to perform live-cell imaging and high-throughput analysis to determine how various culture conditions affect neural stem cell differentiation.

Team Picture

Files

• PDS (May 9, 2012)
• Midsemester Presentation (March 8, 2012)
• Midsemester Journal Article (March 14, 2012)
• Poster Presentation (May 3, 2012)
• Journal Article (May 9, 2012)

Contact Information

Team Members

• Alexander Johnson - Team Leader
• Anthony Sprangers - Communicator
• John Byce - BSAC
• Sarah Reichert - BWIG

Advisor and Client

• Prof. John Puccinelli - Advisor
• Prof. Randolph Ashton - Client

Related Projects

• Spring 2012: Microfluidic platform for culture and live cell imaging of cellular microarrays
• Fall 2011: Microfluidic platform for culture and live cell imaging of cellular microarrays