Suzanne E Graumlich

Title: Suzanne E Graumlich: Innovator in Bio-Material Measurement Technologies

Introduction

Suzanne E Graumlich is a prominent inventor based in Irvine, CA, known for her contributions to the field of bio-material measurement technologies. With a total of 2 patents, she has developed innovative systems that enhance the precision and efficiency of measuring bio-materials for medical applications.

Latest Patents

Her latest patents include methods for measuring a bio-material for use in an implant. One notable invention is a system and method designed to facilitate thickness measurement of bio-material workpieces, particularly sheets. This system incorporates a three-axis programmable controller that manipulates the bio-material workpiece in relation to a thickness measurement head. The measurement head is equipped with multiple sensors that allow for simultaneous measurement of various points, adapting to contact the sheet as needed. A robust human-machine interface, featuring a touch-screen monitor, enhances process control. Additionally, a marking head is included to indicate thickness variations across different areas. The system is particularly effective for assessing and marking pericardial tissue, which is essential for forming heart valve leaflets. Another patent focuses on mapping and marking the thickness of bioprosthetic sheets, utilizing similar technology to optimize the use of available tissue for leaflet production.

Career Highlights

Throughout her career, Suzanne has worked with notable companies, including Edwards Lifesciences Corporation. Her work has significantly impacted the medical field, particularly in the development of heart valve technologies.

Collaborations

Some of her coworkers include Carl Roger Ekholm, Jr. and Son V Nguyen, who have contributed to her innovative projects.

Conclusion

Suzanne E Graumlich's work exemplifies the intersection of innovation and healthcare, showcasing her dedication to improving medical technologies through her patented inventions. Her contributions continue to influence the field of bio-material measurement, paving the way for advancements in medical implants.