Company Filing History:
Years Active: 2009-2010
Title: Reuven Schreiber: Innovator in Medical Diagnostics
Introduction
Reuven Schreiber is a notable inventor based in Haifa, Israel. He has made significant contributions to the field of medical diagnostics, particularly through his innovative patents. With a total of 2 patents, Schreiber's work focuses on enhancing in vivo detection methods and image display systems.
Latest Patents
One of Schreiber's latest patents is titled "Methods, device and system for in vivo detection." This invention provides a system and method for in vivo diagnosis, where a composition including a radioactive marking agent and a pharmaceutically acceptable carrier is administered to a patient. An autonomous in vivo device, which may include an illumination source, an image sensor, and a radiation and/or light detector, is utilized to differentiate between normal and pathological cells in a body lumen.
Another significant patent is "System and method for displaying an image stream." This invention allows for the display of an image stream, where an original image stream can be divided into two or more subset image streams. Each subset image stream can be displayed simultaneously or substantially simultaneously, with images collected from an ingestible capsule traversing the gastrointestinal tract.
Career Highlights
Reuven Schreiber is associated with Given Imaging Ltd., a company known for its advancements in medical imaging technology. His work at this company has been instrumental in developing innovative solutions for gastrointestinal diagnostics.
Collaborations
Schreiber has collaborated with notable colleagues such as Mordechai Yehuda Frisch and Gavriel Joseph Iddan. Their combined expertise has contributed to the success of various projects within the field of medical diagnostics.
Conclusion
Reuven Schreiber's contributions to medical diagnostics through his patents and collaborations highlight his role as an innovator in the field. His work continues to impact the way in vivo diagnostics are approached, paving the way for future advancements.