Company Filing History:
Years Active: 2018
Title: The Innovative Contributions of Serafin Y Samson
Introduction
Serafin Y Samson is a notable inventor based in Maple Grove, MN (US). He has made significant strides in the field of medical technology, particularly through his innovative patent that addresses neural tissue treatment.
Latest Patents
Samson holds a patent for "Systems, devices and methods that affect neural tissue through the delivery of a pulsed radio frequency signal generated by an implantable medical device." This invention involves the transmission of radio frequency (RF) energy through an external RF energy interface. The RF signal oscillates at a frequency within an energy transmission band, which is then received by an implanted medical device. The device stores energy derived from the received RF energy in a direct current (DC) energy storage component. A therapeutic output signal is generated from this stored energy and delivered to a patient via one or more electrodes. The therapeutic output signal can be configured to provide either RF stimulation therapy or RF ablation therapy, comprising pulses of an RF signal oscillating at a frequency in a therapy band that exceeds the energy transmission band.
Career Highlights
Samson's career is marked by his dedication to advancing medical technology. His work at Synerfuse, Inc. has positioned him as a key player in the development of innovative medical devices. His contributions have the potential to significantly improve patient outcomes in the treatment of neural conditions.
Collaborations
Throughout his career, Samson has collaborated with notable colleagues, including Harry A Puryear and Timothy J Cox. These partnerships have fostered an environment of innovation and have contributed to the success of his projects.
Conclusion
Serafin Y Samson's work exemplifies the impact of innovation in medical technology. His patent for RF energy delivery systems showcases his commitment to improving healthcare solutions. Through his efforts, he continues to pave the way for advancements in the treatment of neural tissue.