Company Filing History:
Years Active: 1989
Title: E William Akins: Innovator in NMR Imaging Technology
Introduction
E William Akins is a notable inventor based in Gainesville, FL (US). He has made significant contributions to the field of nuclear magnetic resonance (NMR) imaging, particularly in the development of advanced receiver coil structures. His work has implications for medical imaging, enhancing the ability to visualize cardiac and thoraco-abdominal regions of the human body.
Latest Patents
Akins holds a patent for a "Cross-coupled double loop receiver coil for NMR imaging of cardiac and thoraco-abdominal regions." This innovative RF receiver coil structure is designed to improve NMR imaging capabilities. The coil features a solenoidal geometry with two turns separated by an inter-element gap, which is large enough to accommodate an average human torso at the chest level, approximately 25 cm. The design includes crossed diagonal elements that couple the turns, and it is constructed from a tubular conductor with a diameter of about 1/2 inch. Additionally, the coil has terminal ends in one of its diagonal elements and incorporates a component unit that includes a capacitor, forming a parallel resonant circuit. This geometry can also be adapted for a multi-turn structure, optimizing imaging by positioning half of the turns above and half below the patient.
Career Highlights
Akins is affiliated with the University of Florida Research Foundation, Incorporated, where he continues to advance research in medical imaging technologies. His work has been instrumental in enhancing the effectiveness of NMR imaging, contributing to better diagnostic capabilities in healthcare.
Collaborations
Akins has collaborated with Jeffrey R Fitzsimmons, working together to push the boundaries of NMR imaging technology and improve its applications in medical settings.
Conclusion
E William Akins is a pioneering inventor whose contributions to NMR imaging technology have the potential to significantly impact medical diagnostics. His innovative designs and collaborative efforts continue to advance the field, making strides toward improved patient care.