Magnetic Medicine
Magnetic Medicine
Magnetic Medicine serves as an international platform for disseminating high-impact research and technological innovation at the intersection of magnetics and biomedical sciences, with a particular em...
Magnetic Medicine serves as an international platform for disseminating high-impact research and technological innovation at the intersection of magnetics and biomedical sciences, with a particular emphasis on clinical translation. The journal publishes original contributions that advance the development, evaluation, and clinical integration of magnetic technologies for diagnostic and therapeutic applications.
The journal accepts a variety of manuscript types, including original research articles, reviews, perspectives, commentaries, case reports, short communications, and mini-reviews. All submissions are subject to rigorous peer review to ensure scientific quality, clinical relevance, and alignment with the journal’s scope. Magnetic Medicine welcomes a broad range of topics, including but not limited to:
Clinical Applications of Magnetic Technology: Studies focused on the clinical use of magnetic technologies across surgical, diagnostic, and therapeutic domains are welcomed. Topics include, but are not limited to, magnetic compression anastomosis (MCA), transcranial magnetic stimulation (TMS), sphincter augmentation, anchoring and navigation systems (minimally invasive surgery), implant alignment and limb lengthening.
Biological Effects of Magnetic Fields: Investigation of physiological and cellular responses to magnetic fields, including mechanisms of action and therapeutic potential.
Biomedical Magnetic Materials: Design, synthesis, and biomedical applications of magnetic nanoparticles for drug delivery, imaging, tissue engineering, and minimally invasive therapeutic interventions. Particular emphasis is placed on magnetic hyperthermia, magnetically responsive nanocarriers, and theranostic nanoplatforms for disease treatment.
Magnetic Medical Devices: Advances in magnetically actuated surgical systems, magnetic-controlled instruments, and smart devices for diagnostic and therapeutic purposes. Particular emphasis is placed on the development and clinical translation of magnetic surgical robots and magnetically guided tools.
Magnetic Resonance Technologies: Including advanced MRI techniques for disease diagnosis, functional imaging, real-time intraoperative guidance, and image-guided therapies. Studies exploring innovations in MRI contrast agents, magnetic resonance-guided interventions, and MR-based therapeutic strategies are particularly welcome.
