Location History:
- Leonberg, DE (2016 - 2017)
- Mannheim, DE (2017 - 2023)
Company Filing History:
Years Active: 2016-2023
Title: Kathy Sahner: Innovator in Respiratory Gas Analysis Technology
Introduction
Kathy Sahner is a prominent inventor based in Mannheim, Germany. She has made significant contributions to the field of respiratory gas analysis technology. With a total of 8 patents to her name, her work focuses on developing innovative devices and methods that enhance the accuracy and efficiency of respiratory gas analysis.
Latest Patents
One of Kathy's latest patents is a device, system, and method for providing a calibration fluid for the calibration and quality control of a respiratory gas analysis device. This invention includes a first interface for connecting a chamber of the device to a measurement path of the respiratory gas analysis device. It features a first opening for introducing a reactant carrier with a first reactant into the chamber, along with a contact element designed to facilitate a chemical reaction that generates the calibration fluid.
Another notable patent is a filter for a respiratory air analyzer, which comprises a filter housing, a converter material, and a sensor. The sensor is arranged within the filter housing to monitor the characteristics of the converter material, ensuring optimal performance of the respiratory air analyzer.
Career Highlights
Kathy Sahner has established herself as a key figure in her field through her innovative work at Robert Bosch GmbH. Her inventions have not only advanced technology but have also contributed to improving healthcare outcomes related to respiratory analysis.
Collaborations
Kathy has collaborated with notable colleagues, including Richard Fix and Denis Kunz, who have supported her in her innovative endeavors. Their teamwork has played a crucial role in the development of her patented technologies.
Conclusion
Kathy Sahner's contributions to respiratory gas analysis technology exemplify her dedication to innovation and excellence. Her patents reflect her commitment to enhancing the accuracy and reliability of respiratory analysis devices.