Stephen Patrick Blythe

Title: The Innovations of Stephen Patrick Blythe

Introduction

Stephen Patrick Blythe is a notable inventor based in Inverness, GB. He has made significant contributions to the field of medical technology, particularly in the development of methods for measuring analytes in blood samples. With a total of 7 patents to his name, Blythe's work has the potential to improve the accuracy and reliability of glucose measurements in clinical settings.

Latest Patents

Blythe's latest patents include a "System and method for measuring an analyte in a sample and calculating hematocrit-insensitive glucose concentrations." This invention describes methods and systems that apply a plurality of test voltages to a test strip, measuring a current transient output resulting from an electrochemical reaction. This innovative approach allows for a simpler and less error-prone determination of glucose concentration, providing the unexpected advantage of being insensitive to hematocrit levels in blood samples. Another significant patent is the "Method for determining hematocrit corrected analyte concentrations." This method involves a series of steps, including applying a fluid sample to a test strip, measuring test currents, and calculating hematocrit-corrected concentrations of analytes.

Career Highlights

Throughout his career, Stephen Patrick Blythe has worked with prominent companies in the medical field, including Lifescan Scotland Limited and Cilag International Gmbh. His experience in these organizations has contributed to his expertise in developing innovative solutions for medical diagnostics.

Collaborations

Blythe has collaborated with various professionals in his field, including Marco Fabio Cardosi and Leanne Mills. These collaborations have likely enhanced his research and development efforts, leading to the successful patents he holds today.

Conclusion

Stephen Patrick Blythe's contributions to medical technology through his patents demonstrate his commitment to innovation and improving healthcare outcomes. His work continues to influence the field of medical diagnostics, making a significant impact on how glucose concentrations are measured in blood samples.