Company Filing History:
Years Active: 2004
Title: Innovator Spotlight: Nandita M deSouza
Introduction
Nandita M deSouza, an inventive mind located in London, Great Britain, has made significant contributions to the field of medical imaging. Her innovative approach to MRI technology has led to the development of a novel endovaginal probe, aiming to enhance imaging quality while prioritizing patient comfort.
Latest Patents
Nandita holds a patent for the "Endovaginal MRI Receiver Coil." This invention involves an MRI apparatus that incorporates a local endovaginal probe designed to study the endopelvic fascia surrounding the female urethra. The probe consists of a shaft portion and an insert portion specifically made to fit into the vaginal cavity of female subjects. This innovative design achieves an optimal balance between image quality and the comfort of the patient. The imaging sequence utilizes a main magnet assembly to produce a magnetic field and a whole-body RF coil to manipulate magnetic resonance effectively. The probe captures the magnetic resonance, leading to the reconstruction of images that represent the tissue surrounding the vaginal cavity.
Career Highlights
Nandita M deSouza is associated with Koninklijke Philips Corporation N.V., a prominent figure in the technological and healthcare sectors. Through her role at Philips, she has been able to leverage cutting-edge technology and research to advance medical imaging techniques, focusing on women's health.
Collaborations
During her career, Nandita has collaborated with various professionals, including her coworker, David John Gilderdale. These collaborations have fostered an environment of innovation, leading to enhanced technological developments in medical imaging.
Conclusion
Nandita M deSouza's contributions to the field of MRI technology illustrate her commitment to innovation and improvement in healthcare. Her patent on the endovaginal MRI receiver coil is a testament to her inventive spirit and dedication to advancing women's health through superior imaging techniques.