Richard E Halbach

Title: Richard E Halbach: Innovator in Blood Flow Measurement

Introduction

Richard E Halbach is a notable inventor based in Brookfield, WI (US), recognized for his contributions to the field of medical imaging and blood flow measurement. He holds 2 patents that showcase his innovative approaches to non-invasive blood flow measurement techniques.

Latest Patents

Halbach's latest patents include a method for blood flow imaging using a continuous wave nuclear magnetic resonance (CW NMR) technique. This invention involves an NMR blood flowmeter that applies a continuous transverse excitation signal and a constant, homogeneous polarizing magnetic field to blood flowing through an active region. The polarizing magnetic field is contoured at opposite boundaries of this active region. By switching these contours and collecting the resulting NMR signals, data is obtained from which the various components of blood flow may be calculated. Another significant patent is the nuclear magnetic resonance blood flowmeter, which measures blood flow in human limbs non-invasively. This device includes a pair of polarizing magnets whose fields are stabilized by electromagnets, energized according to the magnetic flux sensed by a Hall effect sensor. Blood molecules are either self-tagged by the polarizing field or tagged by a tag coil, allowing for precise measurement of blood flow.

Career Highlights

Throughout his career, Halbach has worked with several organizations, including Metriflow, Inc. and the Medical College of Wisconsin, Inc. His work has significantly advanced the understanding and measurement of blood flow, contributing to improved medical diagnostics.

Collaborations

Halbach has collaborated with notable individuals in his field, including Paul R Moran and Joseph H Battocletti. These collaborations have further enriched his research and innovations.

Conclusion

Richard E Halbach's contributions to blood flow measurement through innovative patents highlight his role as a significant inventor in the medical field. His work continues to influence advancements in non-invasive medical imaging techniques.