Location History:
- Vastra Frolulnda, SE (2008)
- Västra Frolunda, SE (2012)
- München, DE (2012)
Company Filing History:
Years Active: 2008-2012
Title: Cecilia Farre: Innovator in Electroporation Techniques
Introduction
Cecilia Farre is a prominent inventor based in Västra Frölunda, Sweden. She has made significant contributions to the field of cell structure manipulation through her innovative methods of agent delivery and electroporation. With a total of three patents to her name, Farre is recognized for her groundbreaking work in biotechnology.
Latest Patents
Cecilia Farre's latest patents include two notable methods for agent delivery and electroporation. The first patent, titled "Method for combined parallel agent delivery and electroporation for cell structures and use thereof," discloses a technique for the parallel delivery of agents into cell structures. This method utilizes electrolyte-filled tubes connected to a voltage generator, allowing agents to be transported through the tubes and into the cell structure via electroporation. The second patent, "Method for combined sequential agent delivery and electroporation for cell structures and use thereof," describes a sequential delivery method where agents are introduced one at a time into an electrolyte-filled tube. This method also employs electroporation to facilitate the transfer of cell-impermeant solutes, such as drugs or genes, into or out of the cell structure.
Career Highlights
Cecilia Farre is currently associated with Cellectricon AB, a company known for its innovative solutions in the field of cell biology. Her work has significantly advanced the understanding and application of electroporation techniques in various biotechnological processes.
Collaborations
Cecilia collaborates with notable colleagues, including Mattias Karlsson and Owe Orwar. Their combined expertise contributes to the innovative research and development at Cellectricon AB.
Conclusion
Cecilia Farre's contributions to the field of biotechnology through her patents and collaborative efforts highlight her role as a leading inventor in electroporation techniques. Her work continues to influence advancements in the delivery of therapeutic agents to cell structures.