Hyperscanning, the simultaneous measurement of brain activity among dyads or groups, has shown synchrony measured by fMRI, EEG, MEG, and fNIRS. This synchrony is evident during cooperative decision-making, but the underlying mechanism has not been elucidated. At minimum, in order for synchrony to occur, systems must oscillate and share information. Through the skin effect, changing magnetic fields permeate the human central nervous system, can share information from dyads and groups, and can synchronize oscillating oxygen reduction reactions (ORR) in the mitochondria. In vitro evidence has shown that ORR can be influenced μ-m tesla, extremely low frequency magnetic fields without producing thermal or ionization effects. Ascertaining the unique characteristics of such magnetic fields that can produce interbrain synchrony is a daunting task; however, this discovery could benefit impasse conflict negotiations.

Apparatus for applying Transcranial Magnetic Stimulation (TMS) to an individual, wherein the apparatus comprises: a head mount for disposition on the head of an individual; and a plurality of magnet assemblies for releasable mounting on the head mount, wherein each of the magnet assemblies comprises a permanent magnet, and at least one of (i) a movement mechanism for moving the permanent magnet and/or (ii) a magnetic shield shutter mechanism, for selectively providing a rapidly changing magnetic field capable of inducing weak electric currents in the brain of an individual so as to modify the natural electrical activity of the brain of the individual; 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 individual, whereby to provide individual-specific TMS therapy, to assist in diagnosis or to map out brain function in neuroscience research.

Provided are systems and methods for decalcifying aortic valves and/or other valves, blood vessels, and/or cardiac tissues in a mammalian (e.g., a human) patient (e.g., a patient having or suspected of having calcific aortic valve disease (CAVD)). A transcatheter (aortic) valve decalcification system/method can include applying one or more pulsed magnetic fields to the calcium deposit(s) within a valve or other vessel or tissue within the patient. The system can include a catheter having pulsed magnetic field ribbons disposed therein, and the catheter can be provided to the patient.

Methods of making and using a magnetic ECM are disclosed. The ECM comprises positively and negatively charged nanoparticles, wherein one of said nanoparticles contains a magnetically responsive element. When the magnetic ECM is seeded with cells, the cells will be magnetized and can be levitated for 3-D cell culture.

Methods of making and using a magnetic ECM are disclosed. The ECM comprises positively and negatively charged nanoparticles, wherein one of said nanoparticles contains a magnetically responsive element. When the magnetic ECM is seeded with cells, the cells will be magnetized and can be levitated for 3-D cell culture.

A method for treating conditions associated with thalamocortical dysrhythmia. The method includes applying transcranial low voltage electrical stimulation (TLVES) therapy or transcranial magnetic stimulation (TMS) therapy to a patient in need thereof, and administering to the patient a dissociative anesthetic during the TLVES therapy or the TMS therapy. A number of conditions including tinnitus, depression and pain can be treated with TLVES or TMS in combination with the dissociative anesthetic, such as an NMADR inhibitor, including ketamine.

A device is provided for the stimulation of neurons that includes a non-invasive stimulation unit to generate stimuli in multiple stimulation channels, where the stimulation unit stimulates a neuron population in the brain and/or spinal cord of a patient in different locations for each of the stimulation channels. Moreover, the device includes a control unit that controls the stimulation unit to generate repetitive bursts in each of the stimulation channels, where each of the bursts includes multiple stimuli and is designed so that they do not reset the phase of the neuronal activity of the respective stimulated neurons.

Systems, methods, and computer-readable media for enabling ultraviolet radiation treatments are provided.

Embodiments of the present disclosure include a system for applying therapeutic pressure to a skin surface including a tip arranged at a first end of a therapeutic wand. The system also includes a head arranged opposite the tip at a second end of the therapeutic wand. The system includes a body arranged between the tip and the head, the body housing a control system for controlling operation of the therapeutic wand. The control system includes a printed circuit board, a timer electrically connected to the printed circuit board, the timer being programmable to determine an elapsed time of use of the therapeutic wand, and an indicator. The system also includes a grip arranged between the body and the head, the grip having an outer surface that is softer than the body to provide an ergonomic and comfortable location to hold the therapeutic wand.

The invention pertains to advances in real-time methods in nuclear magnetic resonance by offering a new dual-frequency dynamic nuclear polarization (DNP) method that uses a microwave beam to polarize the spins of electrons and concomitantly act as a NMR transmitter.