Location History:
- Groningen, NL (2004)
- University of Groningen, NL (2004)
Company Filing History:
2 out of 832,961 Years Active: 2004
Title: Jan Koopmans: Innovator in Neural Cell Storage
Introduction
Jan Koopmans is a notable inventor based in Groningen, Netherlands. He has made significant contributions to the field of neural cell storage, with a focus on improving methods for the preservation of these vital cells prior to transplantation. His innovative approaches have the potential to enhance the viability and functionality of neural cells used in medical applications.
Latest Patents
Jan Koopmans holds 2 patents related to methods for storing neural cells. His latest patents include "Methods for storing neural cells," which pertain to improved techniques for preserving dissociated neural cells before their use in transplantation. One embodiment of this patent describes methods for storing neural cells in a medium that lacks added buffer or protein. Additionally, it features neural cells maintained at 4°C prior to cryopreservation, ensuring comparable viability and functionality to freshly harvested cells. Another aspect of his patents involves methods for storing and/or transplantation of porcine neural cells, further expanding the applications of his research.
Career Highlights
Throughout his career, Jan Koopmans has focused on advancing the science of neural cell storage. His work has been instrumental in developing methods that enhance the preservation of neural cells, which are crucial for various medical treatments. His innovative techniques are paving the way for improved outcomes in transplantation procedures.
Collaborations
Jan Koopmans has collaborated with esteemed colleagues, including Douglas B Jacoby and Jonathan H Dinsmore. These partnerships have contributed to the advancement of his research and the successful development of his patented methods.
Conclusion
Jan Koopmans is a pioneering inventor whose work in neural cell storage is making a significant impact in the field of transplantation. His innovative methods are set to improve the viability of neural cells, ultimately benefiting medical science and patient care.