Company Filing History:
Years Active: 2024
Title: Keith Krenek: Innovator in Electrogenic Cell Analysis
Introduction
Keith Krenek is a notable inventor based in Cambridge, MA (US). He has made significant contributions to the field of electronic circuits, particularly in analyzing electrogenic cells. His innovative work has implications for various applications in biomedical research and technology.
Latest Patents
Krenek holds a patent for "Electronic circuits for analyzing electrogenic cells and related methods." This patent describes methods and systems for monitoring the activity of electrogenic networks. One representative system includes an array of electrodes coupled to an analyzer that has both a stimulator and a receiver. The electrodes are placed in contact with an electrogenic cell and can be shaped as nanowires, tubes, cavities, and/or cones. The analyzer is designed to operate in two modes: voltage stimulation mode and current stimulation mode. In voltage stimulation mode, the cells are stimulated via voltages and monitored via current, while in current stimulation mode, the cells are stimulated via currents and monitored via voltages. The analyzers may be arranged as single-stage amplifiers and can include a feedback loop that is shared between the stimulation signal path and the sensing signal path. This feedback loop allows for overlapping stimulation and sensing of the electrogenic network's cells.
Career Highlights
Krenek is affiliated with Harvard College, where he continues to advance his research and innovations. His work has garnered attention for its potential to enhance the understanding of electrogenic networks and their applications in various scientific fields.
Collaborations
Krenek has collaborated with esteemed colleagues such as Donhee Ham and Hongkun Park. Their combined expertise contributes to the advancement of research in the field of electrogenic cells.
Conclusion
Keith Krenek is a pioneering inventor whose work in electronic circuits for analyzing electrogenic cells is shaping the future of biomedical technology. His contributions are vital for the ongoing research and development in this innovative field.