Company Filing History:
Years Active: 1976
Title: Hellmut Mittenzwei: Innovator in Blood Extract Applications
Introduction
Hellmut Mittenzwei is a noteworthy inventor based in Munich, Germany, recognized for his contributions to the field of biomedical innovations. With two patents to his name, Mittenzwei focuses on advancing medical applications through the use of blood extract technologies.
Latest Patents
Mittenzwei's latest patents showcase his inventive prowess in the area of tissue stimulation and growth regulation. His first patent involves "Tissue Cell Stimulating Blood Extracts," which details novel blood extracts derived from vertebrates, particularly warm-blooded animals. These blood extracts exhibit cell respiration stimulating activity, promoting cell growth and outlining new processes for their preparation. The second patent, "Growth Regulating Compositions Extracted from Spleen," describes compositions obtained from the spleens of vertebrates. This innovative work offers processes for these compositions that can effectively increase or decrease the normal rate of tissue growth, demonstrating the versatility and potential impact of such extracts in medical applications.
Career Highlights
Currently, Hellmut Mittenzwei is associated with Solco Basel AG, where he leverages his extensive knowledge in the development of cutting-edge biomedical solutions. His career is marked by a dedication to research and innovation, pushing the boundaries of what is possible in tissue growth regulation.
Collaborations
Mittenzwei collaborates closely with his colleague, Karl-Heinz Jaeger, benefiting from a shared vision of advancing medical technology. Their partnership is indicative of the collaborative spirit often seen in the field of biomedical research, where collective expertise leads to impactful innovations.
Conclusion
Through his inventive work and patents, Hellmut Mittenzwei has made significant strides in the realm of biomedical innovations. His research on blood extracts for stimulating cellular activity and regulating tissue growth holds promise for various medical applications, positioning him as a vital contributor to the field.