Jan Hendrik Wulbern

Title: Innovations by Jan Hendrik Wulbern

Introduction

Jan Hendrik Wulbern is a notable inventor based in Hamburg, Germany. He has made significant contributions to the field of medical imaging, particularly in magnetic resonance imaging (MRI). With a total of 2 patents, Wulbern's work focuses on enhancing the accuracy and efficiency of MRI technology.

Latest Patents

Wulbern's latest patents include groundbreaking inventions in the realm of MRI systems. One of his patents, titled "Self-navigation in three-dimensional magnetic resonance imaging," describes a medical imaging system that utilizes a memory for storing machine-executable instructions and a processor for controlling the imaging system. This invention allows for the reception of magnetic resonance imaging data, which is segmented into sequential data portions, and enables the reconstruction of navigator images according to a three-dimensional MRI protocol.

Another significant patent is related to "MR imaging using motion-dependent radial or spiral k-space sampling." This invention aims to reduce motion artifacts during MRI by detecting momentary motion-induced displacements of the object being imaged. The method involves determining angular coordinates of a radial or spiral k-space profile and reconstructing an MR image from the acquired k-space profiles.

Career Highlights

Jan Hendrik Wulbern is currently associated with Koninklijke Philips Corporation N.V., a leading company in healthcare technology. His work at Philips has allowed him to push the boundaries of MRI technology and improve patient outcomes through innovative imaging solutions.

Collaborations

Wulbern has collaborated with talented professionals in his field, including Tim Nielsen and Mariya Ivanova Doneva. These collaborations have contributed to the advancement of his research and the successful development of his patents.

Conclusion

Jan Hendrik Wulbern's contributions to medical imaging through his patents reflect his dedication to innovation in healthcare technology. His work continues to influence the field of MRI, paving the way for more accurate and efficient imaging techniques.