The method of treating tumors and causing full regrowth and regeneration of tissue provides for the treatment and removal of tumors through application of a static magnetic field to flesh containing a tumor, as well as quickly and effectively healing, regenerating and regrowing the tissue following treatment of the tumor. At least two magnets are positioned within a treatment region adjacent to the tumor. Flesh containing a tumor is clamped between a first annular magnet and a second annular magnet, such that the flesh is sandwiched therebetween, with each of the first and second annular magnets surrounding the tumor. Treatment of the tumor causes the tumor to become necrotic and separate from the flesh. The application of the static magnetic field is further found to effect enhanced healing, regeneration and regrowth of the tumor-free tissue.

Systems and methods for destroying or inhibiting cancer cells and other rapidly-dividing cells include coupling an alternating polarity (AP) magnetic field generator to a target body area and applying an AP magnetic field having a frequency of 0.5-500 kHz and a field strength of 0.5-5 mT to the target body area to achieve a desired inhibiting effect on cancer cells or other rapidly-dividing cells. Treatments provided by the system may be co-administered with an anti-cancer drug such as a chemotherapy drug, a hormone therapy drug, targeted therapy drugs, immunotherapy drugs, or an angiogenesis inhibitor drug.

Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for providing treatment to the brain. Described are methods and devices to provide treatment to the brain that involves no medication. Methods and devices described herein use alternating magnetic fields to provide treatment to the brain.

Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for providing treatment to the brain. Described are methods and devices to provide treatment to the brain that involves no medication. Methods and devices described herein use alternating magnetic fields to provide treatment to the brain.

Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for providing treatment to the brain. Described are methods and devices to provide treatment to the brain that involves no medication. Methods and devices described herein use alternating magnetic fields to provide treatment to the brain.

Described are methods, devices, and systems for a novel, inexpensive, easy to use therapy for providing treatment to the brain. Described are methods and devices to provide treatment to the brain that involves no medication. Methods and devices described herein use alternating magnetic fields to provide treatment to the brain.

A pulsed electromagnetic field (PEMF) device includes at least one electromagnetic (EM) field emitter. During post-birth recovery, a patient applies the EM field emitter to herself. The PEMF device performs a recovery cycle. In the recovery cycle, the EM field emitter emits EM fields having frequency combinations with a response frequency and a target frequency for a frequency combination period.

It has been discovered that iron-platinum ferromagnetic particles can be dispersed in a polymer and coated into or onto, or directly linked to or embedded on to, medical devices and magnetized. The magnetized devices are used to attract, capture, and/or retain magnetically labeled cells on the surface of the device in vivo. The magnetic particles have an iron/platinum core. Annealing the Fe/Pt particle is very important for introducing a L10 interior crystalline phase. The Fe:Pt molar ratio for creation of the crystal phase is important and a molar range of 1.2-3.0 Fe to Pt (molar precursors, i.e. starting compounds) is desired for magnetization. The magnetic force as a whole can be measured with a “Super Conducting Quantum Interference Device”, which is a sensitive magnetometer. The overall magnetic force is in the range from 0.1 to 2.0 Tesla.

It has been discovered that iron-platinum ferromagnetic particles can be dispersed in a polymer and coated into or onto, or directly linked to or embedded on to, medical devices and magnetized. The magnetized devices are used to attract, capture, and/or retain magnetically labeled cells on the surface of the device in vivo. The magnetic particles have an iron/platinum core. Annealing the Fe/Pt particle is very important for introducing a L10 interior crystalline phase. The Fe:Pt molar ratio for creation of the crystal phase is important and a molar range of 1.2-3.0 Fe to Pt (molar precursors, i.e. starting compounds) is desired for magnetization. The magnetic force as a whole can be measured with a “Super Conducting Quantum Interference Device”, which is a sensitive magnetometer. The overall magnetic force is in the range from 0.1 to 2.0 Tesla.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to a patient, the apparatus including a head mount for disposition on the head of a patient; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies includes a magnet for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of a patient so as to modify the natural electrical activity of the brain of the patient; wherein the number of magnet assemblies mounted on the head mount, their individual positioning on the head mount, and their selective provision of a rapidly changing magnetic field is selected so as to allow the spatial, strength and temporal characteristics of the magnetic field to be custom tailored for each patient, whereby to provide patient-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.