Company Filing History:
Years Active: 2008
Title: The Innovative Contributions of Robert M. Healey in Tissue Adhesion Evaluation
Introduction
Robert M. Healey, an inventive figure based in San Diego, CA, has made significant strides in the field of medical technology. His pioneering work focuses on the evaluation of tissue adhesion levels, a crucial aspect in medical treatments and surgical procedures. With a singular patent to his name, Healey's innovation stands out in its potential to revolutionize how tissue adhesions are detected within the human body.
Latest Patents
Robert M. Healey holds a patent titled "Method for Evaluation of Tissue Adhesion Level." This innovative method involves utilizing gadolinium from MRI imaging to assess the adhesion level between different tissues. By capturing a cross-section of the boundary surface between a first and second tissue, Healey's technique allows for a convenient, speedy, and precise evaluation of tissue adhesion levels that are otherwise challenging to detect externally. The detecting agent and method developed in this patent underscore their importance in improving surgical outcomes and postoperative care.
Career Highlights
Healey is associated with Seikagaku Kogyo Kabushiki Kaisha, where his contributions have been pivotal in advancing medical imaging technology. His work not only highlights his expertise in tissue adhesion evaluation but also reflects a commitment to enhancing medical practices through innovation.
Collaborations
Throughout his career, Robert has collaborated with notable coworkers such as David Amiel and Richard D. Coutts. These partnerships have likely fostered a productive environment for sharing ideas and developing innovative solutions in the medical field.
Conclusion
Robert M. Healey's contributions to medical technology through his patented method for evaluating tissue adhesion levels represent a significant advancement in the field. His work is a testament to the critical role inventors play in refining techniques that improve patient care and surgical practices. As we continue to explore innovations in this area, Healey's contributions will undoubtedly serve as a foundation for future developments.