Karen Staehling-Hampton

Title: Insights into the Innovations of Karen Staehling-Hampton

Introduction

Karen Staehling-Hampton is a notable inventor based in Bothell, Washington. With a total of four patents to her name, she has significantly contributed to the fields of genetics and immunology. Her latest inventions focus on groundbreaking methodologies for disease detection and modulation of the immune response.

Latest Patents

Among her recent innovations, one key patent involves a method for detecting individuals who are affected by or are carriers of Van Buchem's disease. This method identifies a specific genomic locus responsible for the condition, located on human chromosome 17. It elaborates on the detection of a 52 kb deletion within a crucial 92 kb region, allowing for differentiation between individuals who are homozygous and afflicted, heterozygous and carriers, and those who are unaffected.

Another significant patent provides novel methods for manipulating cytokine levels utilizing CD83 gene products. This invention presents techniques for modulating the immune system and GM-CSF levels through CD83 nucleic acids, polypeptides, and anti-CD83 antibodies. The invention also highlights the creation of mutant and transgenic mice possessing the CD83 gene, which are instrumental in studying its role in immune responses and identifying potential modulating compounds.

Career Highlights

Karen Staehling-Hampton is currently associated with Celltech R&D Limited, where she continues to innovate and advance her research. Her contributions in biomedicine have positioned her as a leading figure in scientific circles and have paved the way for further exploration in genetics and immunology.

Collaborations

In her professional journey, Karen has collaborated with esteemed colleagues such as Sean Proll and Mary E Brunkow. These partnerships have enhanced her research capabilities and facilitated the development of her groundbreaking inventions.

Conclusion

Karen Staehling-Hampton exemplifies the spirit of innovation through her dedicated research and impactful patents. Her work not only enhances our understanding of genetic diseases and immune system modulation but also serves as a cornerstone for future advancements in medical science. Her contributions reflect the importance of collaboration and innovation in addressing complex health challenges.