Techniques for magnetic particle imaging

Assignee

• The Regents of the University of California · US

Inventors

• Patrick W. Goodwill · Oakland, US
• Steven M. Conolly · Walnut Creek, US

Key dates

Classification

• Technology area (CPC A)Human Necessities
• CPC primaryA61B5/7257
• WIPO fieldMeasurement
• WIPO sectorInstruments

Abstract

A magnetic particle imaging apparatus includes magnets [106,107] that produce a gradient magnetic field having a field free region (FFR), excitation field electromagnets [102,114] that produce a radiofrequency magnetic field within the field free region, high-Q receiving coils [112] that detect a response of magnetic particles in the field free region to the excitation field. Field translation electromagnets create a homogeneous magnetic field displacing the field-free region through the field of view (FOV) allowing the imaging region to be scaled to optimize scan time, scanning power, amplifier heating, SAR, dB/dt, and/or slew rate. Efficient multi-resolution scanning techniques are also provided. Intermodulated low and radio-frequency excitation signals are processed to produce an image of a distribution of the magnetic nanoparticles within the imaging region. A single composite image is computed using deconvolution of multiple signals at different harmonics.