The present invention provides a method and device for non-invasive anatomical and systemic cooling, fluid removal and/or energy removal. The method and device provide for removal of fluid and cooling of various bodily fluid-containing spaces or surfaces, such as mucus-containing spaces or surfaces via delivery of a dry fluid not including a coolant into or upon the mucus-containing space or surface. Exposure of such mucus to the dry fluid results in evaporation of body fluid, removal of energy, cooling of the anatomical feature, and systemic cooling. In this fashion, therapeutic hypothermia may be achieved to provide for neuroprotection of various organs after ischemic insult, such the brain after cardiac arrest. Similarly, excess fluid removal may be achieved for treatment of cardiogenic shock or other conditions that cause significant fluid build-up, especially in cases of compromised renal function. Additionally, the invention may be used to reduce fever, and other conditions where removal of heat, energy and/or water are beneficial.

Medical devices, systems, and methods for pain management and other applications may apply cooling with at least one probe inserted through an exposed skin surface of skin. The cooling may remodel one or more target tissues so as to effect a desired change in composition of the target tissue and/or a change in its behavior, often to interfere with transmission of pain signals along sensory nerves. Alternative embodiments may interfere with the function of motor nerves, the function of contractile muscles, and/or some other tissue included in the contractile function chain so as to inhibit muscle contraction and thereby alleviate associated pain. In some embodiments, other sources of pain such as components of the spine (optionally including herniated disks) may be treated.

Medical devices, systems, and methods for pain management and other applications may apply cooling with at least one probe inserted through an exposed skin surface of skin. The cooling may remodel one or more target tissues so as to effect a desired change in composition of the target tissue and/or a change in its behavior, often to interfere with transmission of pain signals along sensory nerves. Alternative embodiments may interfere with the function of motor nerves, the function of contractile muscles, and/or some other tissue included in the contractile function chain so as to inhibit muscle contraction and thereby alleviate associated pain. In some embodiments, other sources of pain such as components of the spine (optionally including herniated disks) may be treated.

Apparatus and methods for accomplishing fluid drainage and localized cooling of the central nervous system broadly encompassing an intrathecal catheter assembly accomplishing drainage and cooling, and a console apparatus that may contain control, cooling, and drainage subsystems, and use thereof.

Apparatus and methods for accomplishing fluid drainage and localized cooling of the central nervous system broadly encompassing an intrathecal catheter assembly accomplishing drainage and cooling, and a console apparatus that may contain control, cooling, and drainage subsystems, and use thereof.

Methods for treating polycystic kidney disease with therapeutic renal neuromodulation and associated systems and methods are disclosed herein. One aspect of the present technology is directed to methods that at least partially inhibit sympathetic neural activity in nerves proximate a renal artery of a kidney of a patient. One or more measurable physiological parameter corresponding to the polycystic kidney disease can thereby be reduced. Moreover, central sympathetic drive in the patient can be reduced in a manner that treats the patient for the polycystic kidney disease. Renal sympathetic nerve activity can be modulated along the afferent and/or efferent pathway. The modulation can be achieved, for example, using an intravascularly positioned catheter carrying a neuromodulation assembly, e.g., a neuromodulation assembly configured to cryotherapeutically cool the renal nerve or to deliver an energy field to the renal nerve.

Methods for treating polycystic kidney disease with therapeutic renal neuromodulation and associated systems and methods are disclosed herein. One aspect of the present technology is directed to methods that at least partially inhibit sympathetic neural activity in nerves proximate a renal artery of a kidney of a patient. One or more measurable physiological parameter corresponding to the polycystic kidney disease can thereby be reduced. Moreover, central sympathetic drive in the patient can be reduced in a manner that treats the patient for the polycystic kidney disease. Renal sympathetic nerve activity can be modulated along the afferent and/or efferent pathway. The modulation can be achieved, for example, using an intravascularly positioned catheter carrying a neuromodulation assembly, e.g., a neuromodulation assembly configured to cryotherapeutically cool the renal nerve or to deliver an energy field to the renal nerve.

Disclosed herein is a system, apparatus and method directed to patient temperature control. The system can include a control module configured to provide fluid that is heated or cooled, a heating and cooling system configured to couple with the control module and receive the fluid, and a temperature sensor coupled to the control module, the temperature sensor configured to measure a body temperature of a patient and provide signals to the control module that indicate the body temperature. The system can include a neurostimulation device coupled to the control module to provide neurostimulation to the patient. The control module can include logic, stored on non-transitory, computer-readable medium that, when executed by one or more processors, causes performance of operations including generation and transmission of first instructions to the neurostimulation device causing initiation of a first neurostimulation procedure.

[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.

[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.