Company Filing History:
4 out of 4 
1 out of 1 
1 out of 1 Years Active: 1981-2007
Title: The Innovations of Klaus Keplinger: A Pioneer in Endothelial Research
Introduction
Klaus Keplinger, an accomplished inventor based in Innsbruck, Austria, has made significant contributions to the field of biomedical research. With a remarkable portfolio that includes nine patents, he has focused on the intricate mechanisms of cell interactions, particularly those involving endothelial cells.
Latest Patents
One of Klaus Keplinger's notable recent patents is a process and substances for the release of a growth-regulating factor from endothelial cells. This research highlights the ability of endothelial cells to release soluble factors that can modify immune cell behavior. His findings suggest that pentacyclic oxindole alkaloids can stimulate the release of factors that promote the proliferation of resting and weakly activated lymphocytes while inhibiting the expansion of highly activated lymphocytes and transformed lymphoblasts, without compromising their essential functions. Another significant patent addresses the production of specific isomer mixtures from oxindole—a process that involves dissolving compounds in solvents with high dissolving power, allowing for controlled isomerization.
Career Highlights
Throughout his career, Klaus has exhibited a strong commitment to advancing scientific knowledge and practical applications in the biomedical field. His inventive capabilities are evidenced by the numerous patents he holds, each reflecting a deep understanding of complex biochemical processes.
Collaborations
Klaus Keplinger's collaborative efforts with esteemed colleagues such as Edwin Hiesinger and Hermann Nessler have further enriched his work. These partnerships have fostered interdisciplinary approaches that enhance research outcomes, highlighting the importance of teamwork in scientific innovation.
Conclusion
Klaus Keplinger stands out as a prominent inventor in the field of endothelial research, with a focus on how cellular interactions can influence immune responses and therapeutic outcomes. His latest patents demonstrate his innovative thinking and dedication to transforming scientific understanding into tangible advancements. As he continues to explore new frontiers in his research, the impact of his work will undoubtedly resonate within the biomedical community and beyond.