Company Filing History:
Years Active: 1997-1999
Title: Innovations in Cytology: The Contributions of Thanh Van Nguyen
Introduction
Thanh Van Nguyen is an accomplished inventor based in Palo Alto, CA. She has made significant contributions to the field of cytology, particularly through her innovative automated systems. With a total of 2 patents, her work focuses on enhancing the accuracy and efficiency of cytological analysis.
Latest Patents
Thanh Van Nguyen's latest patents include an interactive automated cytology method that incorporates both manual and automated processes. This system provides expedited handling of samples, minimizing false negatives while not substantially increasing the number of false positives. A computerized system identifies and displays the cells of greatest interest to the cytologist. It processes this information to classify the slide as normal, abnormal, or questionable based on a statistical analysis of cells meeting specific criteria. Before displaying the results of the statistical analysis, a cytologist reviews the cells identified as most significant by the computer. After the cytologist determines whether the cells are positive, negative, or questionable, this determination is inputted into the automated system. The automated system then compares the cytologist's analysis with its own statistical analysis. Based on these two opinions, the cytologist can effectively advise a doctor regarding the sample.
Career Highlights
Thanh Van Nguyen has been instrumental in advancing cytological methods through her work at Autocyte, Inc. Her innovative approaches have significantly improved the diagnostic capabilities in the field, making her a key figure in medical technology.
Collaborations
Some of her notable coworkers include Rainer Hermann Doerrer and Jochen Ernst Fischer, who have collaborated with her on various projects within the company.
Conclusion
Thanh Van Nguyen's contributions to the field of cytology through her innovative patents and collaborative efforts have made a lasting impact on medical diagnostics. Her work continues to pave the way for advancements in automated cytological analysis.