Company Filing History:
Years Active: 2018-2021
Title: The Innovations of Daniel L. Dietrich
Introduction
Daniel L. Dietrich is an accomplished inventor based in Westlake, Ohio. He has made significant contributions to the field of metabolic analysis through his innovative inventions. With a total of two patents to his name, Dietrich's work focuses on enhancing the understanding of human metabolic function.
Latest Patents
One of Dietrich's latest patents is a Portable Unit for Metabolic Analysis. This device includes a manifold that is in fluid communication with the mouth of a test subject. A conduit extends from the manifold, defining a flow channel through which the breaths of the test subject travel. A carbon dioxide sensor is attached to the conduit, which features an intermediate support housing enclosing a volume along the flow channel. This design allows for precise measurements of metabolic function. Another notable invention is also a Portable Unit for Metabolic Analysis, which measures human metabolic function by attaching to the face of a subject. It records highly time-resolved measurements of air temperature and pressure, flow rates during inhalation and exhalation, and the partial pressures of oxygen and carbon dioxide. This device is capable of conducting 'breath-by-breath' analysis and 'within-breath' analysis at high temporal resolution.
Career Highlights
Dietrich works for the United States of America as represented by the Administrator of NASA. His role involves developing advanced technologies that contribute to scientific research and innovation in the field of metabolic analysis.
Collaborations
Dietrich has collaborated with notable coworkers such as Jeffrey R. Juergens and Mark E. Lewis. Their combined expertise has furthered the development of innovative solutions in their respective fields.
Conclusion
Daniel L. Dietrich's contributions to the field of metabolic analysis through his innovative patents demonstrate his commitment to advancing scientific understanding. His work continues to impact the way we measure and analyze human metabolic function.