Company Filing History:
Years Active: 2006-2008
Title: **Innovative Contributions of Bret M. Steiner in Infection Detection**
Introduction
Bret M. Steiner is a notable inventor based in Chamblee, Georgia, renowned for his significant contributions to the field of medical diagnostics. He holds a total of two patents, both of which focus on innovative methods for the detection of infections, particularly syphilis.
Latest Patents
Steiner's most recent patents provide groundbreaking methods for the specific and highly sensitive detection of infections, utilizing unique antigenic proteins and peptides. These detection assays are especially adept at recognizing the acidic repeat protein, which is vital for identifying primary syphilis in its early stages of infection. Furthermore, the methods detailed in these patents enhance the ability to differentially detect various infections, thereby pinpointing the causative agents associated with specific disease states, including syphilis (subspecies), yaws (subspecies CDC-1 or CDC-2 strain), and bejel (subspecies).
Career Highlights
Bret M. Steiner is associated with the United States of America as represented by the Secretary of the Department of Health and Human Services. His work in this esteemed organization has propelled advancements in infection detection, underscoring the importance of early diagnosis in public health.
Collaborations
Throughout his career, Steiner has collaborated with esteemed colleagues such as Hsi Liu and Berta Rodes. These partnerships have significantly contributed to the development and refinement of the detection methodologies outlined in his patents, showcasing the collaborative spirit that drives innovation in the field of medical research.
Conclusion
Bret M. Steiner's work exemplifies the critical role of inventors in advancing medical diagnostics. His innovative patents not only enhance the ability to detect infections early but also pave the way for improved public health outcomes. Through collaboration and dedication, Steiner continues to make significant strides in the field of infection detection.