Company Filing History:
Years Active: 2003
Title: Gregory J Friend: Innovator in Medical Imaging Technology
Introduction
Gregory J Friend is a notable inventor based in Seattle, WA, recognized for his contributions to medical imaging technology. He has developed innovative solutions that enhance the capabilities of ultrasound imaging, particularly in surgical settings. His work has significant implications for improving patient care and diagnostic accuracy.
Latest Patents
Gregory J Friend holds a patent for an "Intraoperative ultrasound probe with an integrated acoustic standoff." This ultrasound probe is designed for imaging and diagnosing areas of interest that are in immediate contact with the probe. The probe features an integrated standoff made of a rubber material with optimal acoustic characteristics. The lens is directly applied to the transducer, and the standoff is positioned to ensure that the focal zone is located just below the patient contact surface. The lens material encapsulates the transducer, providing reliable protection against electrical shock. Additionally, the standoff is separated from the examined surface by a cap made of a biocompatible elastomer, which is resistant to chemicals and abrasions, allowing for easy sterilization and disinfection. This innovative design minimizes the volume of the distal transducer section, making the probe easy to manipulate during procedures.
Career Highlights
Gregory J Friend is associated with Koninklijke Philips Corporation N.V., where he continues to contribute to advancements in medical technology. His work focuses on enhancing the functionality and safety of medical devices, particularly in the field of ultrasound imaging.
Collaborations
Gregory has collaborated with notable colleagues, including Timothy Fred Nordgren and James Robertson Jago, to further develop and refine medical imaging technologies.
Conclusion
Gregory J Friend's innovative contributions to ultrasound technology exemplify the impact of engineering on healthcare. His patented inventions are paving the way for improved diagnostic tools that enhance patient outcomes.