Location History:
- Copenhagen, DK (2016 - 2017)
- Denmark, DK (2017)
- Vaerlose, DK (2016 - 2020)
Company Filing History:
Years Active: 2016-2020
Title: Pernille Rose Jensen: Innovator in Magnetic Resonance Technology
Introduction
Pernille Rose Jensen is a notable inventor based in Vaerlose, Denmark. She has made significant contributions to the field of Magnetic Resonance (MR) technology, particularly in the development of innovative diagnostic methods. With a total of seven patents to her name, Jensen's work is at the forefront of medical imaging advancements.
Latest Patents
Among her latest patents is the invention titled "Hyperpolarized 1-13C-1,1-bis(acetoxy(methyl))-2,2'-cyclopropane as metabolic marker for MR." This compound can be hyperpolarized and utilized as a contrast agent in C Magnetic Resonance diagnostic techniques for tumor diagnosis. Another significant patent is "Hyperpolarized esters as metabolic markers in MR," which relates to a method of MR detection using a diagnostic medium comprising a hyperpolarized ester, specifically ethyl acetoacetate. This method involves detecting the MR signal of a hyperpolarized carboxylic ester and its respective hyperpolarized metabolite.
Career Highlights
Jensen's career is marked by her dedication to advancing MR technology. Her innovative approaches have led to the development of new diagnostic tools that enhance the accuracy of tumor detection. Her work is recognized for its potential to improve patient outcomes through more effective imaging techniques.
Collaborations
Throughout her career, Jensen has collaborated with esteemed colleagues, including Magnus Karlsson and Mathilde H Lerche. These partnerships have fostered a collaborative environment that encourages the exchange of ideas and expertise in the field of medical imaging.
Conclusion
Pernille Rose Jensen's contributions to Magnetic Resonance technology exemplify her commitment to innovation in medical diagnostics. Her patents reflect a deep understanding of the complexities of MR techniques and their applications in healthcare. Jensen's work continues to pave the way for advancements in the field, ultimately benefiting patients and medical professionals alike.