[Summary] [Problem] The therapy method and the therapy apparatus for difficult cancer such as ductal cancer and other diseases. [Solution to problem] The therapy and the apparatus to beat cancer and other diseases by injecting the material which is energy receptive from outside and emissive heat to cancer cells in the body of a patient, and giving energy from outside.

A method of preserving tissue includes loading the tissue with a solution with a cryoprotective agent and susceptor particles; freezing the tissue; thawing the tissue; and after freezing and thawing, further processing the tissue. Further processing may include slicing the tissue or digesting the tissue and recovering isolated cells from the digested tissue. The tissue may include at least a portion of an organ. The tissue may include a whole organ. The loading of the solution may be done via the vasculature of the organ. The tissue may be thawed using inductive heating. The susceptor particles may include nanoparticles.

A micro-scale wireless heater includes: a support layer having first and second sides and a cavity formed on the second side; a first electrode plate and a first conduction line disposed on the second side; a second electrode plate and a coil both embedded into a slot on the first side, wherein the support layer is disposed between the first and second electrode plates forming a capacitor, the coil forms an inductor, and the slot communicates with the cavity; and a second conduction line disposed in the cavity. The first and second electrode plates are electrically connected together through the first and second conduction lines and the coil in order. Three exposed surfaces of the second electrode plate, the coil and the first side are flush with one another. The inductor and the capacitor convert an electromagnetic wave into heat. A fabrication method and applications thereof are also provided.

A method, apparatus and a system for thermally-assisted pulsed electromagnetic field stimulation for treatment of osteoarthritis in the knee are disclosed. A multi-coil applicator is adapted for positioning around the knee. A first coil is positioned on the top of the knee and provides electric field stimulation in the plane of the patella to stimulate the patella cartilage. Second and third coils are rectangular coils wrapped up below and above the knee respectively. The coils in the wrapped position generate a magnetic field along the knee axis and provide high amplitude of the electric field stimulation of the femoral and tibial cartilages in the plane of tibial plateau. Resistive heaters and free wheel diodes can be provided to the applicator to supply uniform thermal stimulation around the knee joint.

A system and method for inductive heating applications includes positioning one or more inductive heating elements in a location, delivering electromagnetic radiation, by a radiation source, to heat at least a portion of the one or more inductive heating elements, and detecting, by a detector, the heat generated by the one or more inductive heating elements. The system and method also include controlling, by a processing unit, a condition based on the detected heat.

[Summary]

[Problem]

The therapy method and the therapy apparatus for difficult cancer such as ductal cancer and other diseases.

[Solution to problem]

The therapy and the apparatus to beat cancer and other diseases by injecting the material which is energy receptive from outside and emissive heat to cancer cells in the body of a patient, and giving energy from outside.

[Selected drawing]FIG. 8

[Summary] [Problem] The therapy method and the therapy apparatus for difficult cancer such as ductal cancer and other diseases. [Solution to problem] The therapy and the apparatus to beat cancer and other diseases by injecting the material which is energy receptive from outside and emissive heat to cancer cells in the body of a patient, and giving energy from outside.

A system and method for hyperthermic ablation of cancerous tissue of a human patient is disclosed. A system and method include a vessel that is sized and adapted for receiving the human patient, and a circulation device outside of the vessel for circulating a thermally conductive liquid to and from the vessel, such that the portion of the human patient enclosed in the containment suit is at least partially submerged in the thermally conductive liquid when the human patient is in the vessel. The system and method further include a set of electromagnetic transmission coils at least partially around the vessel for inducing an alternating electromagnetic field around the human patient, the alternating electromagnetic field being directed, via the thermally conductive liquid, to the cancerous tissue that has been provided a conductive nanoparticle, to provide hyperthermic ablation of the cancerous tissue.

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.

A system and method for hyperthermic ablation of cancerous tissue of a human patient is disclosed. A system and method include a vessel that is sized and adapted for receiving the human patient, and a circulation device outside of the vessel for circulating a thermally conductive liquid to and from the vessel, such that the portion of the human patient enclosed in the containment suit is at least partially submerged in the thermally conductive liquid when the human patient is in the vessel. The system and method further include a set of electromagnetic transmission coils at least partially around the vessel for inducing an alternating electromagnetic field around the human patient, the alternating electromagnetic field being directed, via the thermally conductive liquid, to the cancerous tissue that has been provided a conductive nanoparticle, to provide hyperthermic ablation of the cancerous tissue.