Company Filing History:
Years Active: 2025
Title: The Innovations of Stephen Mark Gee
Introduction
Stephen Mark Gee is an accomplished inventor based in Eindhoven, Netherlands. He has made significant contributions to the field of bioelectronics, particularly in the development of methods for operating electrical stimulation devices. His innovative approach addresses both regulatory and safety concerns associated with electrical stimulation in biological tissues.
Latest Patents
Stephen Mark Gee holds a patent for a "Method of operating an electrical stimulation device with two or more stimulation energy supplies, and a stimulating device." This patent outlines a method for controlling electrical energy provided by a stimulation device to one or more stimulation electrodes. The device includes a first stimulation electrode and a pulse energy controller that transfers electrical energy as one or more electrical stimulation pulses. The pulse energy controller features two or more stimulation energy supplies that can supply electrical energy concurrently or separately to the first stimulation electrode. This innovation aims to provide a simpler, more accurate, and cost-effective control of stimulation.
Career Highlights
Stephen is currently associated with Salvia Bioelectronics B.V., where he continues to advance the field of bioelectronics through his research and inventions. His work focuses on enhancing the efficacy and safety of electrical stimulation devices, which are crucial in various medical applications.
Collaborations
Stephen has collaborated with notable colleagues, including Daniël Schobben and Hubert Martens. These partnerships have fostered a collaborative environment that encourages innovation and the sharing of ideas in the field of bioelectronics.
Conclusion
Stephen Mark Gee's contributions to the field of electrical stimulation devices exemplify the importance of innovation in medical technology. His patent and ongoing work at Salvia Bioelectronics B.V. highlight his commitment to improving the safety and effectiveness of bioelectronic devices.