Company Filing History:
Years Active: 1995-1997
Title: The Innovative Contributions of Alexander Saunders
Introduction
Alexander Saunders is a notable inventor based in San Carlos, CA (US). He has made significant contributions to the field of medical technology, particularly in the area of blood analysis. With a total of 3 patents to his name, Saunders continues to push the boundaries of innovation.
Latest Patents
One of his latest patents is titled "Two-phase optical assay." This method involves measuring an analyte in a sample by adding substantially transparent particles that have an affinity for the analyte. The process includes fractionating the particles from the solution to create a particle-rich fraction and a substantially particle-free fraction. The readings from both fractions are then correlated to obtain a quantitative determination of the analyte present in the sample.
Another significant patent is the "Method and procedure for preparing red blood fractions." This invention describes methods and apparatus for separating red blood cells by density. It highlights how older red blood cells are denser than younger ones, allowing for the assessment of physiological changes over time. Improved separation is achieved through the use of rigid capillary tubes and chemical treatments to enhance the deformability of red blood cells.
Career Highlights
Alexander Saunders is currently associated with Chronomed, Inc., where he applies his expertise in developing innovative solutions for medical diagnostics. His work has been instrumental in advancing the understanding of blood cell dynamics and their implications for health.
Collaborations
Throughout his career, Saunders has collaborated with notable colleagues, including Michael A Zarowitz and Frank W Summerfield. These partnerships have fostered a collaborative environment that enhances the innovation process.
Conclusion
Alexander Saunders exemplifies the spirit of innovation in the medical technology sector. His patents reflect a commitment to improving diagnostic methods and understanding blood cell behavior. His contributions continue to have a lasting impact on the field.