Company Filing History:
Years Active: 2006
Title: **Bradford C. Fowler: Innovator in Neuroscience**
Introduction
Bradford C. Fowler is an accomplished inventor located in Duvall, Washington. He holds a significant patent in the field of neuroscience, contributing to advancements in neuroelectric monitoring and stimulation.
Latest Patents
Fowler's notable patent is for an "Articulated Neural Electrode Assembly." This invention comprises apparatuses, devices, and systems intended for placement at various cortical and neuroanatomical sites. The device aims to provide precise electrical stimulation and monitor neuroelectric activity within a patient. The articulated electrode assembly encompasses an array of electrodes carried by a support member, designed for implantation or positioning relative to neuroanatomical sites. The innovation features several embodiments that include multiple portions, segments, paddles, and panels, allowing for spatially divergent placement capabilities and enhanced stimulation field distribution.
Career Highlights
Bradford C. Fowler's career is marked by his role at Northstar Neuroscience, Inc., where he continues to contribute his expertise in the field of neurotechnology. His innovative spirit and dedication to advancing medical technology through patent development have positioned him as a notable figure in neuroscience.
Collaborations
Throughout his career, Fowler has collaborated with several talented individuals, including Corrinne Stern and Amy Kinsella. These partnerships within Northstar Neuroscience reflect a dynamic team effort aimed at enhancing neurostimulation and monitoring technologies.
Conclusion
Bradford C. Fowler's contributions to the field of neuroscience through his inventions and patents exemplify the impact of innovation in medical technology. His work plays a vital role in improving patient care by enabling more effective neuroelectric monitoring and stimulation methods. As he continues his endeavors at Northstar Neuroscience, the potential for further advancements in this critical area of research remains promising.