Ursula-Henrike Wienhues

Title: The Innovative Contributions of Ursula-Henrike Wienhues

Introduction

Ursula-Henrike Wienhues is an accomplished inventor based in Krailling, Germany. With a remarkable portfolio of 12 patents, her work has significantly advanced the field of immunology, particularly in the detection of specific antibodies and the production of peptide antigens.

Latest Patents

Among her latest innovations is the patent for the "Determination of a specific immunoglobulin using multiple antigens." This invention elaborates on a method for immunologically determining specific antibodies in a sample liquid by incubating the sample with two distinct antigens. The first antigen is marked with a detectable group, while the second antigen either binds to a solid phase or is capable of binding, facilitating the identification of the antibody through marker group detection. Furthermore, one of the key features of this method is that at least one of the antigens includes multiple epitope regions that react with the target antibody.

Another significant patent from Wienhues focuses on "Metal chelate-labelled peptides." This invention outlines a process for creating metal chelate-labelled peptide antigens, which can be utilized in immunological detection methods.

Career Highlights

Ursula-Henrike Wienhues has had a distinguished career, holding positions at prestigious organizations such as Roche Diagnostics GmbH and Boehringer Mannheim GmbH. Her expertise in immunology and innovation has made her a key contributor to advancements in diagnostic technologies.

Collaborations

Throughout her career, Wienhues has collaborated with notable professionals, including Christoph Seidel and Michael Wiedmann. These collaborations have fostered a rich exchange of ideas and have significantly enhanced the scope of her research.

Conclusion

Ursula-Henrike Wienhues stands out as a notable inventor in the field of immunology, with her innovative patents paving the way for advancements in antibody detection and antigen production. Her contributions not only demonstrate her expertise but also her commitment to improving diagnostic methods, further solidifying her legacy in the scientific community.