Devices, systems and methods for controlling the temperature of all or part of the body of a human or animal subject.

A system includes a heat exchange catheter line assembly configured to convey working fluid circulating to and from at least one heat exchange element on an intravascular heat exchange catheter. The system also includes a heat exchange system that itself includes a processor and is configured for fluidly communicating with the heat exchange catheter line assembly to exchange heat with the working fluid. A near filed communication (NFC) member associated with the heat exchange system and an NFC element associated with the heat exchange catheter line assembly are also included. The NFC member is configured to provide the processor with a signal representative of whether the NFC member detects the NFC element.

A system includes a heat exchange catheter line assembly configured to convey working fluid circulating to and from at least one heat exchange element on an intravascular heat exchange catheter. The system also includes a heat exchange system that itself includes a processor and is configured for fluidly communicating with the heat exchange catheter line assembly to exchange heat with the working fluid. A near filed communication (NFC) member associated with the heat exchange system and an NFC element associated with the heat exchange catheter line assembly are also included. The NFC member is configured to provide the processor with a signal representative of whether the NFC member detects the NFC element.

A liquid ventilation system includes a reservoir holding a perfluorochemical (“PFC”) fluid, and a suction pump connected to the reservoir to reduce pressure within the reservoir. A sensor is configured to measure an intra-lung pressure. An appliance is configured to be disposed within a patient. The appliance carries an injector to supply the PFC fluid through the appliance. An extraction valve is disposed on an extraction line between the appliance and the reservoir. The extraction valve is arrangeable between a first position enabling fluid communication from the appliance to the reservoir and a second position disabling fluid communication from the appliance to the reservoir.

A medical, or fertility aid, or sensual device including: an outer cylindrical phallic shaped outer cover; a cylindrical phallic shaped liquid filled enclosed casing pocket; rechargeable vibrating/infrared/ultrasound core inserted into the outer cover, wherein the liquid filled pocket contains a ferrous metal disk which can be bent; and a sheath encasing the outer cover. One embodiment relates to a vibrating, and or infrared, and/or ultrasound, and heat emitting and self-hardening dildo fertility devise which offers a solution for women with endometrial or uterine caused infertility. It can also be used as an aid in re-habilitation for women recovering from trauma to the vagina due to radiation therapy in the treatment of cervical and uterine cancers.

A medical, or fertility aid, or sensual device including: an outer cylindrical phallic shaped outer cover; a cylindrical phallic shaped liquid filled enclosed casing pocket; rechargeable vibrating/infrared/ultrasound core inserted into the outer cover, wherein the liquid filled pocket contains a ferrous metal disk which can be bent; and a sheath encasing the outer cover. One embodiment relates to a vibrating, and or infrared, and/or ultrasound, and heat emitting and self-hardening dildo fertility devise which offers a solution for women with endometrial or uterine caused infertility. It can also be used as an aid in re-habilitation for women recovering from trauma to the vagina due to radiation therapy in the treatment of cervical and uterine cancers.

There is provided a method for controlling the movement of bile and/or gall stones in the biliary duct. The method comprises gently constricting (i.e., without substantially hampering the blood circulation in the tissue wall) at least one portion of the tissue wall to influence the movement of bile and/or gallstones in the biliary duct, and stimulating the constricted wall portion to cause contraction of the wall portion to further influence the movement of bile and/or gallstones in the biliary duct. The method can be used for restricting or stopping the movement of bile and/or gallstones in the biliary duct, or for actively moving the fluid in the biliary duct, with a low risk of injuring the biliary duct.

There is provided a method for controlling the movement of bile and/or gall stones in the biliary duct. The method comprises gently constricting (i.e., without substantially hampering the blood circulation in the tissue wall) at least one portion of the tissue wall to influence the movement of bile and/or gallstones in the biliary duct, and stimulating the constricted wall portion to cause contraction of the wall portion to further influence the movement of bile and/or gallstones in the biliary duct. The method can be used for restricting or stopping the movement of bile and/or gallstones in the biliary duct, or for actively moving the fluid in the biliary duct, with a low risk of injuring the biliary duct.

A balloon catheter includes a catheter (1) and a balloon body (2) sleeved on the catheter (1). The balloon body (2) includes an inner layer balloon (21) and an outer layer balloon (22). The inner layer balloon (21) and the outer layer balloon (22) are both directly wrapped and fixed on the catheter (1). The inner layer balloon (21) is located inside the outer layer balloon (22). A medium channel (23) is formed between the inner layer balloon (21) and the outer layer balloon (22). An outer layer medium inlet hole (11) and a medium backflow hole (12) both in communication with the medium channel (23) are provided in the catheter (1). In the balloon catheter, the double-layer balloon body (2) is provided, so that a medium can flow in the medium channel (23) between the inner layer balloon (21) and the outer layer balloon (22), the medium flows into the medium channel (23) through the outer layer medium inlet hole (11), and then the medium in the medium channel (23) flows out through the medium backflow hole (12) to implement circulation. In this way, more medium can exchange heat on the inner surface of the outer layer balloon (22) and the flow rate distribution is relatively uniform, to increase the flowing quality of the medium on the surface of the balloon body, thereby improving the heat exchange efficiency.

Disclosed are: a system comprising a gas circulation device capable of circulating hyperthermic gas in the peritoneal cavity and a temperature control device; and a system comprising a drug spray device for effectively spraying a drug in the peritoneal cavity together with gas. The systems of the present invention are used as systems for hyperthermic intraperitoneal chemotherapy and can maximize the anticancer therapy effect by more effectively delivering a small amount of an anticancer drug to cancer cells while maintaining the temperature of gas in the peritoneal cavity at a predetermined temperature.