Company Filing History:
Years Active: 2020-2021
Title: Julia Slopsema: Innovator in Bioelectrical Modulation Technologies
Introduction
Julia Slopsema is a pioneering inventor based in Minneapolis, Minnesota, whose work focuses on neuromodulation technologies. With a total of two patents to her name, she has made significant contributions to the field, particularly in the development of systems that interface with neuronal responses.
Latest Patents
Julia's latest patents include groundbreaking innovations aimed at enhancing neuromodulation techniques. The first patent, titled "System and method for feedback-driven neuromodulation," outlines a closed-loop control system that modulates multiple parameters during neuronal stimulation. This innovative approach allows for real-time adjustments based on the received signals, making it especially relevant for deep brain stimulation (DBS) applications.
Her second patent, "Bioelectrical modulation using rotating or spatially-selective electromagnetic fields," presents new methods for generating electromagnetic fields that can stimulate cells effectively, regardless of their orientation. This versatile modulation system is applicable not only in DBS but also in spinal cord and vagus nerve stimulation, as well as in the stimulation of heart tissue and muscles.
Career Highlights
Julia Slopsema is affiliated with the University of Minnesota, where she continues to drive innovation in biomedical engineering. Her research focuses on developing advanced technologies that harness the power of bioelectrical modulation to improve medical outcomes for patients.
Collaborations
Throughout her career, Julia has collaborated with esteemed colleagues such as Shalom Michaeli and Silvia Mangia. These partnerships have enhanced her research capabilities and have resulted in a robust exchange of ideas in the field of neuromodulation and bioelectrical engineering.
Conclusion
Julia Slopsema stands out as an influential inventor who is pushing the boundaries of how neuromodulation can be integrated into therapeutic practices. Her contributions have the potential to revolutionize treatment methods and improve the quality of life for countless individuals dealing with neurological conditions.