Litcius/Paper detail

Superferromagnetic Nanoparticles Enable Order‐of‐Magnitude Resolution & Sensitivity Gain in Magnetic Particle Imaging

Zhi Wei Tay, Shehaab Savliwala, Daniel Hensley, K. L. Barry Fung, Caylin Colson, Benjamin Fellows, Xinyi Y. Zhou, Quincy Huynh, Yao Lu, Bo Zheng, Prashant Chandrasekharan, Sindia Rivera-Jiménez, Carlos Rinaldi, Steven Conolly

2021Small Methods111 citationsDOIOpen Access PDF

Abstract

Abstract Magnetic nanoparticles have many advantages in medicine such as their use in non‐invasive imaging as a Magnetic Particle Imaging (MPI) tracer or Magnetic Resonance Imaging contrast agent, the ability to be externally shifted or actuated and externally excited to generate heat or release drugs for therapy. Existing nanoparticles have a gentle sigmoidal magnetization response that limits resolution and sensitivity. Here it is shown that superferromagnetic iron oxide nanoparticle chains (SFMIOs) achieve an ideal step‐like magnetization response to improve both image resolution & SNR by more than tenfold over conventional MPI. The underlying mechanism relies on dynamic magnetization with square‐like hysteresis loops in response to 20 kHz, 15 kAm −1 MPI excitation, with nanoparticles assembling into a chain under an applied magnetic field. Experimental data shows a “1D avalanche” dipole reversal of every nanoparticle in the chain when the applied field overcomes the dynamic coercive threshold of dipole‐dipole fields from adjacent nanoparticles in the chain. Intense inductive signal is produced from this event resulting in a sharp signal peak. Novel MPI imaging strategies are demonstrated to harness this behavior towards order‐of‐magnitude medical image improvements. SFMIOs can provide a breakthrough in noninvasive imaging of cancer, pulmonary embolism, gastrointestinal bleeds, stroke, and inflammation imaging.

Topics & Concepts

Magnetic particle imagingMagnetizationMagnetic nanoparticlesMaterials scienceNanoparticleNuclear magnetic resonanceMagnetic resonance imagingDipoleMagnetic particle inspectionMagnetic fieldRelaxation (psychology)Particle (ecology)NanotechnologyPhysicsRadiologyMedicineOceanographyInternal medicineGeologyQuantum mechanicsCharacterization and Applications of Magnetic NanoparticlesMagnetic properties of thin filmsGeomagnetism and Paleomagnetism Studies