Company Filing History:
Years Active: 2008
Title: Alyse Renee Stofer: Innovator in Pressure Measurement Catheters
Introduction
Alyse Renee Stofer is a notable inventor based in Woodbury, MN (US). She has made significant contributions to the field of medical devices, particularly in the development of pressure measurement catheters. Her innovative work focuses on enhancing the functionality and reliability of these critical medical instruments.
Latest Patents
Alyse holds 1 patent for her invention titled "Barriers and methods for pressure measurement catheters." This patent describes methods and apparatus that utilize viscoelastic barrier materials as barriers in devices such as pressure measurement catheters. The invention includes improved barrier materials that may consist of at least one barrier material precursor combined with a softener. In some embodiments, two barrier material precursor components are combined without a softener to create a fully cross-linked barrier material with specific softness characteristics. The softener may include dimethyl silicone oil, combined with the barrier material precursor in a weight percentage ranging from about 25% to about 45%. Once prepared, the viscoelastic barrier material can be injected into a catheter's lumen via a syringe, providing advantageous properties such as desired softness, full cross-linking, resistance to washout, and enhanced stability.
Career Highlights
Alyse is currently employed at Transoma Medical, Inc., where she continues to innovate in the medical device sector. Her work is instrumental in advancing technologies that improve patient care and outcomes.
Collaborations
Alyse collaborates with Lynn M Zwiers, who is also a key contributor in their field. Their partnership exemplifies the importance of teamwork in driving innovation and achieving breakthroughs in medical technology.
Conclusion
Alyse Renee Stofer's contributions to the field of pressure measurement catheters highlight her role as a pioneering inventor. Her innovative approaches and dedication to improving medical devices are commendable and have the potential to significantly impact patient care.