Company Filing History:
Years Active: 1997-1999
Title: Innovations in Bone Densitometry by Noah Berger
Introduction
Noah Berger is a prominent inventor based in Waltham, MA (US), known for his contributions to the field of medical imaging and bone densitometry. With a total of 6 patents to his name, Berger has made significant advancements in ultrasound and x-ray technologies that enhance the accuracy and efficiency of bone analysis.
Latest Patents
One of Berger's latest patents is focused on X-ray bone densitometry, which describes a method for calibrating an ultrasound bone analysis apparatus. This innovative method involves the use of transducer assemblies that can be moved relative to each other, allowing for precise contact with body parts. The process includes transmitting an ultrasound signal and receiving a corresponding signal, enabling the determination of the speed of sound through the body part with squish compensation.
Another notable patent is for a whole-body x-ray bone densitometry system. This system features a table that supports a patient while an x-ray source emits a narrow-angle fan beam to scan the body. The design allows for varying scan pass magnification, improving the overall imaging quality and diagnostic capabilities.
Career Highlights
Noah Berger has established himself as a key figure in the medical technology industry through his work at Hologic, Inc. His innovative approaches to bone densitometry have not only advanced the field but have also contributed to better patient outcomes in bone health assessments.
Collaborations
Throughout his career, Berger has collaborated with notable colleagues, including Jay A. Stein and Richard E. Cabral. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and the development of cutting-edge technologies.
Conclusion
Noah Berger's contributions to bone densitometry through his innovative patents have significantly impacted the medical imaging field. His work continues to pave the way for advancements in patient care and diagnostic accuracy.