Shaping and Focusing Magnetic Field in the Human Body: State-of-the Art and Promising Technologies.
Sabrina RotundoDanilo BriziAlessandra FloriGiulio GiovannettiLuca MenichettiAgostino MonorchioPublished in: Sensors (Basel, Switzerland) (2022)
In recent years, the usage of radio frequency magnetic fields for biomedical applications has increased exponentially. Several diagnostic and therapeutic methodologies exploit this physical entity such as, for instance, magnetic resonance imaging, hyperthermia with magnetic nanoparticles and transcranial magnetic stimulation. Within this framework, the magnetic field focusing and shaping, at different depths inside the tissue, emerges as one of the most important challenges from a technological point of view, since it is highly desirable for improving the effectiveness of clinical methodologies. In this review paper, we will first report some of the biomedical practices employing radio frequency magnetic fields, that appear most promising in clinical settings, explaining the underneath physical principles and operative procedures. Specifically, we direct the interest toward hyperthermia with magnetic nanoparticles and transcranial magnetic stimulation, together with a brief mention of magnetic resonance imaging. Additionally, we deeply review the technological solutions that have appeared so far in the literature to shape and control the radio frequency magnetic field distribution within biological tissues, highlighting human applications. In particular, volume and surface coils, together with the recent raise of metamaterials and metasurfaces will be reported. The present review manuscript can be useful to fill the actual gap in the literature and to serve as a guide for the physicians and engineers working in these fields.
Keyphrases
- transcranial magnetic stimulation
- magnetic nanoparticles
- high frequency
- magnetic resonance imaging
- systematic review
- endothelial cells
- primary care
- mental health
- computed tomography
- randomized controlled trial
- induced pluripotent stem cells
- healthcare
- gene expression
- pluripotent stem cells
- molecularly imprinted
- contrast enhanced
- magnetic resonance
- mass spectrometry
- high resolution
- tandem mass spectrometry