Company Filing History:
Years Active: 2014-2017
Title: Innovations by Karin Obermaier in In-Vivo Measurement Technologies.
Introduction
Karin Obermaier is a notable inventor based in Bruehl, Germany. She has made significant contributions to the field of medical technology, particularly in the area of in-vivo measurements. With a total of 2 patents, her work focuses on improving the accuracy and efficiency of analyte concentration measurements in the human body.
Latest Patents
Karin's latest patents include a "Method of compression data from in-vivo measurements of an analyte concentration in a human" and a "System for in-vivo measurement of an analyte concentration." Both patents describe the use of an implantable sensor that generates measurement signals for analytes such as glucose. The measurement signals are compressed using statistical techniques, resulting in compressed measurement data that is easier to process and communicate. A base station is utilized to carry the implantable sensor, which includes a signal processor, memory, and a transmitter. Additionally, a display device is disclosed that can receive the compressed measurement data from the base station for further processing and display.
Career Highlights
Karin Obermaier is currently employed at Roche Diagnostics Operations, Inc., where she continues to innovate in the field of medical diagnostics. Her work has the potential to significantly enhance the management of chronic conditions, such as diabetes, by providing more accurate and timely data to patients and healthcare providers.
Collaborations
Throughout her career, Karin has collaborated with esteemed colleagues, including Bernd Roesicke and Stefan Lindegger. These partnerships have contributed to the advancement of her research and the successful development of her patented technologies.
Conclusion
Karin Obermaier's contributions to the field of in-vivo measurement technologies exemplify the impact of innovative thinking in medical diagnostics. Her patents not only enhance the accuracy of analyte measurements but also pave the way for improved patient care.