To disrupt mitochondrial function in certain cells, controlling hardware causes a magnet to oscillate so as to generate an oscillating magnetic field. The oscillating magnetic field is applied to a volume of tissue including cells with degraded mitochondria to trigger apoptosis in the cells with degraded mitochondria.

The disclosure provides methods of cancer treatment and apparatus and, more particularly, to non-invasive cancer treatments utilizing oscillating magnetic fields to disrupt mitochondrial function or induce apoptosis or another mechanism of cell death in cancer cells. The disclosure also provides a device for providing an OMF treatment to a subject.

The disclosure provides methods of cancer treatment and apparatus and, more particularly, to non-invasive cancer treatments utilizing oscillating magnetic fields to disrupt mitochondrial function or induce apoptosis or another mechanism of cell death in cancer cells. The disclosure also provides a device for providing an OMF treatment to a subject.

Methodologies and mechanisms are provided for introducing one or more magnetizable particles introduced non-invasively into one or more body structures containing nervous tissue in a subject, directing, guiding, transporting, focusing and/or concentrating the one or more particles using at least one image-guidance component in proximity to the one or more body structures which can direct the one or more particles within the one or more body structures, and modulating, using at least one activation component, the one or more particles to modulate neuronal function in the one or more body structures of the subject.

Methodologies and mechanisms are provided for introducing one or more magnetizable particles introduced non-invasively into one or more body structures containing nervous tissue in a subject, directing, guiding, transporting, focusing and/or concentrating the one or more particles using at least one image-guidance component in proximity to the one or more body structures which can direct the one or more particles within the one or more body structures, and modulating, using at least one activation component, the one or more particles to modulate neuronal function in the one or more body structures of the subject.

The present disclosure refers to machines and methods of magnetic stimulation of tissues that are not invasive and particularly the magnetic field moves relative to said tissue.

A magnetic stimulation machine, comprising: a coil that generates a magnetic field; and a first displacement mechanism connected to the coil and to a bearing surface; where the first displacement mechanism moves the coil around the tissue to stimulate it.

A method of the magnetic stimulation of tissues of a body, comprising the following steps: steps: a) placing a coil operatively on a tissue of a body; b) generating a magnetic field by means of the coil; and c) moving the coil according to a determined movement pattern around the tissue to stimulate it.

The present disclosure refers to machines and methods of magnetic stimulation of tissues that are not invasive and particularly the magnetic field moves relative to said tissue.

A magnetic stimulation machine, comprising: a coil that generates a magnetic field; and a first displacement mechanism connected to the coil and to a bearing surface; where the first displacement mechanism moves the coil around the tissue to stimulate it.

A method of the magnetic stimulation of tissues of a body, comprising the following steps: steps: a) placing a coil operatively on a tissue of a body; b) generating a magnetic field by means of the coil; and c) moving the coil according to a determined movement pattern around the tissue to stimulate it.

To generate operational parameters for Transcranial Magnetic Stimulation (TMS), training data that includes indications of previously conducted TMS sessions is generated. A machine learning model is trained using the training data. The trained machine learning model is applied to one or more parameters related to an individual to generate operational parameters for a TMS session. A device for applying TMS to conduct a TMS session with the individual is operated in accordance with the generate operational parameters.

To generate operational parameters for Transcranial Magnetic Stimulation (TMS), training data that includes indications of previously conducted TMS sessions is generated. A machine learning model is trained using the training data. The trained machine learning model is applied to one or more parameters related to an individual to generate operational parameters for a TMS session. A device for applying TMS to conduct a TMS session with the individual is operated in accordance with the generate operational parameters.

To disrupt mitochondrial function in certain cells, controlling hardware causes a magnet to oscillate so as to generate an oscillating magnetic field. The oscillating magnetic field is applied to a volume of tissue including cells with degraded mitochondria to trigger apoptosis in the cells with degraded mitochondria.