Tuning Excitation Field Frequency for Magnetic Particle Sensing using Superparamagnetic Quantifier

Nonlinear handheld detection of magnetic nanoparticles is used to assess the lymph node status of cancer patients. Joint sensitivity and resolving power of nonlinear handheld detection can be maximized by optimizing the frequency of the excitation field, which is strongly influenced by Brownian and Neel relaxation. The characteristic frequency of magnetic nanoparticles that defines sensitivity and resolving power is usually assessed by AC susceptometry. In this study, we used SPaQ data to predict handheld detection performance for magnetic nanoparticles with various particle sizes. SPaQ assesses dynamics by measuring the derivative of the magnetization originating from magnetic nanoparticles activated by an alternating excitation field. The ratio between the maximum signal difference and full-width-at-half-maximum is used to estimate the optimal excitation frequency. Thereupon, it was shown that a particle with a combination of Brownian and Neel relaxation is superior in nonlinear handheld detection compared to Brownian or Neel only particles. Moreover, the optimal excitation frequency is generally established at a slightly higher frequency compared to the characteristic IP 8.46.247 10 On: Wed 04 Jan 2023 06 10 54 frequency assessed by AC susceptometry. Consequently, this insight into the consequences of the dynamic behavior of Copyright: American Scientific Publ shers magnetic nanoparticles under an alternating magnetic field enables the optimization of nonlinear handheld detection for Delivered by Ingenta specific clinical applications.