Location History:
- Jena, DE (2017)
- Beutnitz, DE (2022)
Company Filing History:
Years Active: 2017-2022
Title: Michael Gottschaldt: Innovator in Cationic Polymers and Nanostructured Delivery Systems
Introduction
Michael Gottschaldt, an accomplished inventor based in Jena, Germany, has made significant contributions to the fields of polymer chemistry and targeted drug delivery. With two patents to his name, his innovations focus on the development of biocompatible materials that enhance selective interactions with cellular structures.
Latest Patents
One of his latest patents features cationic polymers with D-fructose substituents. This invention aims to address the challenges of creating novel, biocompatible cationic polymers that possess higher selectivity for certain cell types. The patented polymers utilize a general formula that includes a cationic polymer, a linker, and D-fructose, allowing for selective interaction with specific cell surface elements.
His other notable patent pertains to cell-specific targeting using nanostructured delivery systems. This invention comprises a delivery system that combines at least one polymer or lipid with a polymethine dye, facilitating the targeted transport of therapeutic agents to specific tissues. This technology shows promise for treating diseases related to the liver and kidneys.
Career Highlights
Throughout his career, Michael Gottschaldt has worked with prominent organizations, including Smartdelivery GmbH and Friedrich-Schiller-University Jena. His role in these institutions has allowed him to advance his research and apply his expertise in innovative ways.
Collaborations
In addition to his work at these institutions, Michael has collaborated with notable individuals such as Ulrich Sigmar Schubert and Michael Bauer. Their combined efforts in research and development have contributed to the successful realization of his inventive ideas.
Conclusion
Michael Gottschaldt's inventive contributions are shaping the future of polymer science and targeted drug delivery. With a focus on creating biocompatible and selective systems, his work stands as a testament to the impact of innovation in medical applications. As he continues to develop new technologies, his influence in the field of chemistry will likely extend further, inspiring future inventors and researchers.