An emergency management system having an ice water immersion bag capable of rapidly cooling an overheated individual's body through its combination of elements, apertures, and capacity. An overheated individual is placed within the ice immersion bag, yet the individual's body may still be accessed in the event of a medical emergency through the use of one of the many openings presented throughout the bag. The openings otherwise remain sealed and waterproof to prevent the ice water from escaping the bag, further effectuating ice water immersion to rapidly cool the overheated individual.

An emergency management system having an ice water immersion bag capable of rapidly cooling an overheated individual's body through its combination of elements, apertures, and capacity. An overheated individual is placed within the ice immersion bag, yet the individual's body may still be accessed in the event of a medical emergency through the use of one of the many openings presented throughout the bag. The openings otherwise remain sealed and waterproof to prevent the ice water from escaping the bag, further effectuating ice water immersion to rapidly cool the overheated individual.

A spine support device includes a support plate having front and rear faces, a central opening, and a pair of stabilizing stirrups formed on the rear face of the support plate in spaced parallel relationship to augment the support provided by the support plate when positioned at its front face in contact with a portion of a person's back surrounding a region of spinal vertebra visible through the central opening in the support plate. The support plate has opposing inner side edge portions at opposing sides of the central opening and opposite peripheral side edge portions spaced outwardly therefrom with the stabilizing stirrups therebetween. The opposing inner side edge portions and the opposite peripheral side edge portions of the support plate have respective alternating peak and valley shapes for accommodating interconnecting facets of the spinal vertebra region visible through the central opening in the support plate.

A spine support device includes a support plate having front and rear faces, a central opening, and a pair of stabilizing stirrups formed on the rear face of the support plate in spaced parallel relationship to augment the support provided by the support plate when positioned at its front face in contact with a portion of a person's back surrounding a region of spinal vertebra visible through the central opening in the support plate. The support plate has opposing inner side edge portions at opposing sides of the central opening and opposite peripheral side edge portions spaced outwardly therefrom with the stabilizing stirrups therebetween. The opposing inner side edge portions and the opposite peripheral side edge portions of the support plate have respective alternating peak and valley shapes for accommodating interconnecting facets of the spinal vertebra region visible through the central opening in the support plate.

A spine cooling device is configured to hold the evaporative cooling textile in contact with a wearer's skin, particularly in a location between the wearer's hips and extending toward the wearer's tailbone. The spine cooling device has a pocket to hold the evaporative cooling textile, which textile can be periodically re-wetted while the spine cooling device remains in place on the wearer. The spine cooling device facilitates direct contact between the evaporative cooling textile and the wearer's skin, and is worn beneath the wearer's clothes. However, the device includes a water resistant layer placed to prevent the evaporative cooling textile from wetting the wearer's clothes.

A spine cooling device is configured to hold the evaporative cooling textile in contact with a wearer's skin, particularly in a location between the wearer's hips and extending toward the wearer's tailbone. The spine cooling device has a pocket to hold the evaporative cooling textile, which textile can be periodically re-wetted while the spine cooling device remains in place on the wearer. The spine cooling device facilitates direct contact between the evaporative cooling textile and the wearer's skin, and is worn beneath the wearer's clothes. However, the device includes a water resistant layer placed to prevent the evaporative cooling textile from wetting the wearer's clothes.

Methods for cerebral cooling are described. Cooling assemblies include elongate tubular members, a reservoir containing a pressurized fluid, and a manifold connecting the reservoir and elongate tubular members. After insertion of the elongate tubular members into the patient's nostrils, a pressurized fluid is delivered onto a surface of the patient's nasal cavity through a plurality of ports in the elongate tubular members. The delivery of the fluid causes cooling by direct heat transfer through the nasopharynx and hematogenous cooling through the carotids and the Circle of Willis.

Methods for cerebral cooling are described. Cooling assemblies include elongate tubular members, a reservoir containing a pressurized fluid, and a manifold connecting the reservoir and elongate tubular members. After insertion of the elongate tubular members into the patient's nostrils, a pressurized fluid is delivered onto a surface of the patient's nasal cavity through a plurality of ports in the elongate tubular members. The delivery of the fluid causes cooling by direct heat transfer through the nasopharynx and hematogenous cooling through the carotids and the Circle of Willis.

A mold for producing a green compact using powder metallurgy processes has an upper punch and a lower punch which are movable along a common press axis and a die body with a charging chute for receiving powder material. The die body has an upper region in which the upper punch is movably guided along the press axis in the charging chute, and a lower region in which the lower punch is movably guided along the press axis in the charging chute. Two cross slides realize a forming region which determines the lateral outside contour of the green compact, and are arranged on the die body so as to be displaceable in a direction which deviates from the press axis. The two cross slides only move into contact with one another when the two cross slides are arranged in their respective end position.

Disclosed is a system which employs a cooling or heating pad which is preferably rechargeable with hot or cold temperatures at an intended area of the body. The pad includes a highly temperature-conductive or temperature-retentive material which can be cooled or heated using a portable source of heat or cold material delivered to the pad by a removable delivery conduit. Valves can be included to regulate flow of the cooling or heating material from the source to the pad. The system can also include a dual-chambered canister for containing two different media for heating, cooling or for alternating heating and cooling the pad.