Janet B Wilking

Title: Innovations in Medical Imaging by Janet B Wilking

Introduction

Janet B Wilking is a prominent inventor based in Ferguson, MO (US), known for her significant contributions to the field of medical diagnostic imaging. With a total of 6 patents, her work focuses on enhancing imaging techniques that are crucial for accurate medical diagnoses.

Latest Patents

Among her latest innovations are treated apatite particles designed for various medical imaging applications. These particles enhance magnetic resonance imaging (MRI), magnetic resonance spectroscopy (MRS), magnetic resonance spectroscopy imaging (MRSI), X-ray diagnostic imaging, and ultrasound imaging. Wilking's novel coating and manufacturing techniques allow for precise control over particle size and aggregation, resulting in compositions tailored for organ-specific imaging of the liver, spleen, gastrointestinal tract, and tissue disease states. Depending on the imaging technique employed, the apatite particles can be treated to exhibit paramagnetic, radiopaque, or echogenic properties. Additionally, these particles may be fluorinated to create stable fluoroapatite compositions useful for ¹⁹F imaging. The diagnostic compositions and methods she developed involve administering a diagnostically effective amount of these apatite particles to warm-blooded animals prior to conducting medical diagnostic procedures.

Career Highlights

Throughout her career, Janet has worked with notable companies, including Mallinckrodt Medical, Inc. Her expertise in medical imaging has positioned her as a key figure in the development of innovative diagnostic solutions.

Collaborations

Janet has collaborated with esteemed colleagues such as Edward A Deutsch and Karen F Deutsch, contributing to the advancement of medical imaging technologies.

Conclusion

Janet B Wilking's innovative work in medical diagnostic imaging has made a significant impact on the field, enhancing the accuracy and effectiveness of various imaging techniques. Her contributions continue to shape the future of medical diagnostics.