The present invention relates to a novel cryogenic composition intended to be used in thermal treatment devices, and also to its process of preparation. The invention also relates to a thermal treatment device and more particularly to a medical device used to cool a part of the human or animal body, in particular after trauma, inflammation or a surgical act. The invention has application in the therapeutic and/or medical field but also in other fields, such as, for example, for the cooling or the maintenance at low temperature of foodstuffs.

A treatment system delivers a breathing gas and frozen ice or other particles (FSP) to a bronchus of a lung of a patient in order to induce hypothermia. The breathing gas and the FSP are usually delivered through separate lumens. Clogging of an FSP lumen can be inhibited by heating and/or cooling of the lumen. The temperature of exhaled gases or a body temperature may be measured, and a controller can adjust the duration or rate at which the ice particles are delivered in order to control the patient's core temperature based on the measured temperature.

A treatment system delivers a breathing gas and frozen ice or other particles (FSP) to a bronchus of a lung of a patient in order to induce hypothermia. The breathing gas and the FSP are usually delivered through separate lumens. Clogging of an FSP lumen can be inhibited by heating and/or cooling of the lumen. The temperature of exhaled gases or a body temperature may be measured, and a controller can adjust the duration or rate at which the ice particles are delivered in order to control the patient's core temperature based on the measured temperature.

An interactive enthalpy exchange system for infant care includes a pouch for receiving an infant, and a heat source arranged in the pouch. The heat source includes a first heat source and a second heat source different from the first heat source. Control circuitry is operatively coupled to the heat source, the control circuitry configured to control interactive enthalpy between the first heat source and the second heat source to maintain a temperature within the pouch at a prescribed temperature.

Methods and systems are presented for configuring oxygen barriers for controlled access to chemical warming agents such as wood fiber, vermiculite, activated charcoal, iron, and salt. In this way a smart phone, syringe, or other cold-sensitive device may be warmed by such agents to restore or maintain functionality in a frigid environment.

A dual modality system includes a chassis having a receptacle and means to couple the chassis to a desired treatment area of a user's body; a durable energy subsystem coupled to the chassis, arranged and configured to deliver energy to the desired treatment area of a user's body; and a replaceable thermal subsystem arranged and configured for removable placement in the receptacle of the chassis, arranged and configured to deliver thermal energy.

A dual modality system includes a flexible chassis including a durable energy subsystem and a replaceable thermal subsystem. The durable energy subsystem has a plurality of energy emitters disposed in an emission region of the chassis having a length and a width, wherein the emission region length and emission region width are both substantially greater than an emission region depth. The replaceable thermal subsystem has a thermal source affixed to flexible web having an adhesive surface and at least one structure arranged and configured to couple the thermal subsystem to a chassis comprising a durable energy subsystem in a configuration wherein the thermal source is substantially superposed over the emission region of the chassis.

A robust, and inexpensive infant warmer comprises a predetermined temperature range indicator based on a phase change material (PCM) indicating suitable temperature for a given application

The present disclosure relates to a mask, a device and a method for whitening skin. In an embodiment, the mask includes a contact layer having a lower portion configured to contact a face surface of a user, and at least one thermoelectric module including a first major surface disposed in contact with an upper portion of the contact layer and a second major surface positioned opposite to the first major surface. The mask also includes a heat dissipation layer being disposed in contact with the second major surface of the thermoelectric module. The mask further includes a controller configured to control the thermoelectric module to: cool the first major surface at a cooling temperature such that the skin of the user reaches a target temperature at which a pigmentation by melanocytes on the user's skin is suppressed, and maintain the cooling of the first major surface for a cooling interval.

Exemplary embodiments of the present disclosure provide method and apparatus for effecting (e.g., lightening) an appearance of skin by cooling or freezing small separated surface regions of the skin to produce regions of local hypopigmentation. The width of the regions can be, for example, smaller than about 1 mm or 0.5 mm, and a distance between these frozen regions can be greater than about 3 times the width of the regions. An exemplary apparatus can be provided that includes a plurality of spatially-separated thermally conductive arrangements that can be affixed or otherwise coupled to a base. For example, the conductive arrangements can be regions of conductive material provided in or proximal to a thermal insulator, or thermally conductive protrusions affixed to the base. The conductive arrangements can be cooled and then contacted with the skin surface to produce the small regions of hypopigmentation.