Company Filing History:
1 out of 13 
1 out of 1 Years Active: 2005-2008
Title: Innovations of Hugo Hämmerle
Introduction
Hugo Hämmerle is a notable inventor based in Tübingen, Germany. He has made significant contributions to the field of biomedical engineering, particularly in the area of electrical contact with biological cells. With a total of two patents to his name, Hämmerle's work has the potential to impact medical technology and treatment methods.
Latest Patents
Hämmerle's latest patents include an "Apparatus and method for electrically contacting biological cells suspended in a liquid." This invention features a substrate with an opening and an electrode designed to electrically contact a cell immobilized above the opening. The contact unit includes a contact tip that projects into the opening, allowing for hydrodynamic low pressure to be exerted on the cell membrane. This innovative method enhances the ability to interact with biological cells in a liquid medium.
Another significant patent is the "Retina implant assembly and methods for manufacturing the same." This invention involves a chip that can be implanted into the eye, designed to stimulate retina cells. The chip contains pixel elements for receiving images and electrodes for stimulation. Additionally, it includes a receiver coil for inductively coupling electromagnetic energy, which is essential for powering the chip.
Career Highlights
Hämmerle has worked with esteemed institutions such as Eberhard Karls University of Tübingen and Universitätsklinikum Tübingen. His experience in these organizations has contributed to his expertise in the field of biomedical research and innovation.
Collaborations
Hämmerle has collaborated with notable individuals in his field, including Wilfried Nisch and Alfred Stett. These collaborations have likely enriched his research and development efforts.
Conclusion
Hugo Hämmerle's contributions to the field of biomedical engineering through his innovative patents demonstrate his commitment to advancing medical technology. His work has the potential to significantly impact the treatment of various medical conditions.