Company Filing History:
Years Active: 2010
Introduction
Kortlan D. Stewart is an innovative inventor based in Salt Lake City, Utah. He has made significant contributions to the field of medical technology with his patented invention. His dedication to advancing healthcare solutions has positioned him as a notable figure in his industry.
Latest Patents
Stewart holds a patent for a groundbreaking breast scanning system. This system utilizes transducer arrays to transmit and receive ultrasound signals while immersed in a suitable medium, such as a liquid. A unique feature of the invention is a table designed to be disposed over a bath, which accommodates the patient comfortably. The table includes an aperture that enables the breast to be positioned within the bath for optimal scanning. Furthermore, the system incorporates a preconditioning tank to enhance the properties of the liquid prior to its use, alongside mechanisms for securing the breast within the bath during the scanning process.
Career Highlights
Kortlan D. Stewart works with Techniscan, Inc., a company dedicated to developing advanced imaging technologies. His creative solutions to complex medical challenges reflect his commitment to enhancing patient care through innovation. The breast scanning system represents a significant advancement in ultrasound technology, showcasing his capacity to blend engineering with medical needs.
Collaborations
Throughout his career, Stewart has collaborated with talented professionals, including Steven A. Johnson and Michael J. Berggren. These partnerships leverage a wealth of knowledge and skills, driving innovations that improve healthcare delivery and patient experiences.
Conclusion
Kortlan D. Stewart exemplifies the spirit of innovation in the medical sector. His patent for a breast scanning system not only highlights his abilities as an inventor but also underscores the importance of collaboration in developing cutting-edge technologies. As he continues his work at Techniscan, Inc., the impact of his inventions has the potential to greatly influence the future of medical imaging and patient diagnostics.