Location History:
- Goettingen, DE (2013)
- Albany, CA (US) (2016)
Company Filing History:
Years Active: 2013-2016
Title: Martin Uecker: Innovator in Magnetic Resonance Imaging
Introduction
Martin Uecker is a prominent inventor based in Albany, CA, known for his significant contributions to the field of magnetic resonance imaging (MRI). With a total of 2 patents, Uecker has developed innovative methods that enhance the capabilities of MRI technology, making it more efficient and effective for medical imaging.
Latest Patents
Uecker's latest patents include a method for spatially encoded phase-contrast MRI. This method involves collecting magnetic resonance data for imaging an object with a predetermined spin density arranged in a static magnetic field. The process includes subjecting the object to at least one radiofrequency pulse and magnetic field gradients to create spatially encoded magnetic resonance signals. The method allows for the determination of at least one mean spin density position of the object along a spatial dimension by calculating the phase difference between acquired signals.
Another notable patent is a method and device for reconstructing a sequence of magnetic resonance images. This method provides a series of sets of image raw data collected using a radiofrequency receiver coil of an MRI device. The reconstruction process involves a regularized nonlinear inverse reconstruction to create a sequence of MR images, enhancing the quality and accuracy of the imaging results.
Career Highlights
Martin Uecker is affiliated with the Max Planck Society for the Advancement of Science, where he continues to push the boundaries of MRI technology. His work has significantly impacted the medical imaging field, providing new tools and techniques that improve diagnostic capabilities.
Collaborations
Uecker has collaborated with notable colleagues such as Jens Frahm and Shuo Zhang, contributing to advancements in MRI technology through teamwork and shared expertise.
Conclusion
Martin Uecker's innovative work in magnetic resonance imaging has led to the development of advanced methods that enhance imaging techniques. His contributions continue to shape the future of medical diagnostics, making a lasting impact on the field.