Company Filing History:
Years Active: 2024-2025
Title: Innovations by Inventor Zheng Ao
Introduction
Zheng Ao is a prominent inventor based in Bloomington, IN (US). He has made significant contributions to the field of biomedical engineering, particularly in drug screening and cell adhesion dynamics. With a total of 2 patents, his work is paving the way for advancements in medical diagnostics and therapeutic applications.
Latest Patents
Zheng Ao's latest patents include innovative methods and devices that enhance the understanding of cell behavior. One of his notable patents is titled "Methods for identifying and using cell behavior in drug screening and diagnosis." This invention involves an algorithm that captures images of immune cells in 3D tissue cultures. It analyzes these images to create immune cell infiltration maps, enabling the automatic scoring and identification of drugs that may be clinically beneficial.
Another significant patent is the "Open chamber acoustic device to measure cell binding force." This apparatus allows for the parallel profiling of cell-matrix adhesion at a single-cell level. By introducing localized and uniform acoustic streaming into an open chamber microfluidic device, the adherent cells can be detached using streaming-induced Stokes drag force. This method provides accurate determinations of the forces and kinetics involved in cell adhesion, with broad applications in various biological studies.
Career Highlights
Zheng Ao is affiliated with Indiana University, where he conducts research and develops his innovative technologies. His work has garnered attention for its potential impact on drug development and cellular biology.
Collaborations
Zheng Ao collaborates with esteemed colleagues, including Feng Guo and Hongwei Cai. Their combined expertise contributes to the advancement of research in their respective fields.
Conclusion
Zheng Ao's contributions to the field of biomedical engineering through his patents and research are noteworthy. His innovative approaches to drug screening and cell adhesion dynamics hold promise for future medical advancements.