Company Filing History:
Years Active: 1987-1993
Title: Innovations by John Atkin
Introduction
John Atkin is a notable inventor based in Corona Del Mar, California. He holds a total of six patents, showcasing his contributions to the field of medical technology. His work primarily focuses on innovative methods for measuring blood parameters, which have significant implications for healthcare.
Latest Patents
One of Atkin's latest patents is an "Apparatus and method for direct measurement of blood parameters." This invention allows for continuous or periodic measurement of blood gas parameters and blood pressure by separating plasma from blood. The plasma is separated in vivo using a filter implanted within a blood vessel, enabling the analysis of blood parameters without the need to remove blood from the body. This method is advantageous as it utilizes plasma, where gas parameters reside, rather than whole blood.
Another significant patent is the "Transvivo plasma extraction catheter device." This device is designed for implantation in a blood vessel to facilitate continuous in vivo plasma separation. It features an elongated, axial header and at least one microporous fiber that allows plasma to diffuse into its hollow interior while preventing larger cellular components from passing through. This innovative design ensures that fluid flow through the blood vessel is minimally obstructed.
Career Highlights
Throughout his career, John Atkin has worked with companies such as Healthdyne, Inc. and Heathdyne, Inc. His experience in these organizations has contributed to his expertise in medical device innovation and development.
Collaborations
Atkin has collaborated with notable individuals in his field, including Reynolds G. Gorsuch and Tommy Gene Cooper. These partnerships have likely enhanced his work and led to further advancements in medical technology.
Conclusion
John Atkin's contributions to the field of medical technology through his innovative patents demonstrate his commitment to improving healthcare solutions. His work continues to influence the way blood parameters are measured, paving the way for advancements in patient care.