An attachment for a device for generating an air flow or dispensing a fluid, which attachment is designed to be at least partially introduced into an external auditory canal of a human or animal ear, the attachment including a connection piece for connecting the attachment to the device for generating an air flow, and a tongue-type guide vane for conducting air that flows out of the device for generating an air flow via the connection piece, the guide vane having a bottom.

An apparatus and method for providing heat exchange in the lungs of the mammal during partial liquid ventilation are provided. The apparatus and method can control delivery and removal of partial liquid ventilation to the lungs of a mammal by responding to pressure change in the lungs to minimize danger of causing barotrauma to the patient.

A catheter system for infusing a chilled fluid into a subject can include an input lumen, a return lumen, and a transition lumen that provides sufficient flow resistance to urge a first portion of fluid flowing out of the input lumen in the forward direction to flow into the return lumen in the reverse direction toward a cooling device, while a second portion of the fluid flowing out of the input lumen in the forward direction flows out of the distal end of the catheter and into the subject's blood vessel.

An attachment for a device for generating an airflow or for dispensing a fluid, which attachment is adapted to be inserted at least in sections into an external ear canal of a human or animal ear. The attachment has a connecting piece for connecting the attachment to the device for generating an airflow, and has a guide vane of tongue-like design with a guide vane base for guiding air flowing out of the device for generating an airflow via the connecting piece.

Methods, devices, and systems employ cryolysis of oropharyngeal adipose tissues to selectively remove fat cells from the tissues causing obstructive sleep apnea. In various embodiments, a chilled liquid—e.g., a liquid or air—is applied to the target tissue at a temperature and for a duration sufficient to cause cryolysis.

An attachment for a device for generating an air flow or dispensing a fluid, which attachment is designed to be at least partially introduced into an external auditory canal of a human or animal ear, the attachment including a connection piece for connecting the attachment to the device for generating an air flow, and a tongue-type guide vane for conducting air that flows out of the device for generating an air flow via the connection piece, the guide vane having a bottom.

An extracorporeal blood cooling or heating circuit includes an intravenous catheter for withdrawing a patient's blood coupled to a combined pump/heat exchanger device. One or more sensors are provided upstream and/or downstream of the pump/heat exchanger device for measuring pressure, temperature, fluid flow, blood oxygenation, and other parameters, A controller is operative!}′ coupled to the pump/heat exchanger device and the one or more sensors to control the speed of the pump inside the pump/heat exchanger device and regulate the blood temperature by controlling the operation of the heat exchanger. The combined pump/heat exchanger device includes a housing having at least one inlet and at least one outlet, a pump portion defining a blood circuit inside the housing, and a heat exchanger portion contained within the housing for selectively heating or cooling the blood.

The present invention is directed to a body temperature controlling system comprising at least one member receiving a flow of gas from at least one blower in communication with said at least one member, said at least one member directing said flow of gas onto a wearer thereof.

An extracorporeal blood cooling or heating circuit includes an intravenous catheter for withdrawing a patient's blood coupled to a combined pump/heat exchanger device. One or more sensors are provided upstream and/or downstream of the pump/heat exchanger device for measuring pressure, temperature, fluid flow, blood oxygenation, and other parameters. A controller is operatively coupled to the pump/heat exchanger device and the one or more sensors to control the speed of the pump inside the pump/heat exchanger device and regulate the blood temperature by controlling the operation of the heat exchanger. The combined pump/heat exchanger device includes a housing having at least one inlet and at least one outlet, a pump portion defining a blood circuit inside the housing, and a heat exchanger portion contained within the housing for selectively heating or cooling the blood.

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.