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Years Active: 2023
Title: The Innovative Contributions of Louise Møller Jørgensen
Introduction
Louise Møller Jørgensen is a notable inventor based in Gentofte, Denmark. He has made significant contributions to the field of medical technology, particularly in the area of magnetic resonance imaging (MRI). His innovative work has led to the development of a unique system that enhances the functionality of MRI procedures.
Latest Patents
Jørgensen holds 1 patent for his invention titled "System for electrical stimulation during functional MRI." This patent describes a system designed to generate a predefined electrical signal within an MR scanner. The system is intended for use in electrical stimulation of a subject during MRI or functional MRI. It includes a control unit located outside the MRI room, which generates the electrical signal, and an electrical to optical converter that converts this signal into an optical signal. The optical signal is then transmitted into the MRI room using an optical transmitting element, such as an optical fiber. An optical to electrical converter, situated inside the MRI room, converts the optical signal back into the predefined electrical signal for stimulation during imaging.
Career Highlights
Throughout his career, Jørgensen has worked with esteemed institutions such as Roskilde/Køge Hospital and Rigshospitalet. His experience in these hospitals has allowed him to apply his innovative ideas in practical settings, contributing to advancements in medical imaging technology.
Collaborations
Jørgensen has collaborated with notable professionals in his field, including Anders Ohlhues Baandrup and Carsten Thomsen. These collaborations have further enriched his work and have led to the development of impactful technologies in MRI.
Conclusion
Louise Møller Jørgensen's contributions to the field of MRI technology exemplify the importance of innovation in medical science. His patented system for electrical stimulation during functional MRI represents a significant advancement that enhances the capabilities of MRI procedures.