Company Filing History:
Years Active: 2019-2020
Title: Innovations by Timothy Simon Walsh
Introduction
Timothy Simon Walsh is a notable inventor based in North Berwick, GB. He has made significant contributions to the field of molecular biology, particularly in the detection of bacteria and fungi. With a total of 2 patents, his work has implications for both medical diagnostics and research.
Latest Patents
Walsh's latest patents include innovative molecular probes designed for detecting gram-negative bacteria in vitro and in vivo. The first patent describes a probe that comprises a label and a binding moiety, which is specifically adapted to bind to gram-negative bacteria while avoiding binding to animal cells or gram-positive bacteria. This technology allows for the detection of bacteria in a target area and helps determine whether the bacteria are gram-negative or gram-positive.
The second patent focuses on fluorescent polybranched probes for detecting bacteria and/or fungi in vitro and in vivo. This probe features a core with multiple probe elements, each containing a fluorophore and a binding moiety that selectively binds to bacteria and/or fungi, while not binding to animal cells. The methods of use for this probe and associated kits are also included in the patent.
Career Highlights
Timothy Walsh is affiliated with the University of Edinburgh, where he continues to advance his research and innovations. His work is pivotal in enhancing the accuracy of bacterial detection, which is crucial for various applications in healthcare and environmental monitoring.
Collaborations
Walsh collaborates with esteemed colleagues, including Mark Bradley and Annamaria Helena Lilienkampf. Their combined expertise contributes to the development of cutting-edge technologies in the field of molecular diagnostics.
Conclusion
Timothy Simon Walsh's contributions to the field of molecular biology through his innovative patents demonstrate his commitment to advancing scientific knowledge and improving diagnostic methods. His work continues to have a lasting impact on the detection of bacteria and fungi.