A non-inflating flexible warm air distribution manifold that attaches to the patient side of patient gown. This manifold is configured to receive warmed air the of the warm-air receiving orifice and to distribute the warm air over a wide area of the patient side of the gown. By one approach the manifold comprises a flexible baffle. This baffle can be disposed on the patient side of the gown office proximal (in fact, opposite) the warm-air receiving orifice. The baffle has two or more sides that are secured to the gown and two or more sides that are not secured to the gown. Warm air entering the gown through the warm-air receiving orifice can readily pass through the sides that are not secured to the gown while the warm air entering the gown is largely impeded from passing through the sides that are secured to the gown.

A wearable appliance or a set of wearable appliances, arranged for being worn by a person on the person's body comprises: one or more cold applicators, one or more biosignal sensors for measuring biosignals indicative of physiological stress experienced by the person and control circuitry connected to the one or more cold applicators and configured so as to activate them in response to detection, based upon the measured biosignals, that the person experiences elevated physiological stress. According to a further aspect, the invention proposes a communication system comprising a wearable appliance (24) or a set of wearable appliances (24, 26) and one or more mobile terminals (22) comprising each a human interface device with one or more output devices (40, 46, 50) for indicating the level of stress to a second person holding the mobile terminal and with one or more input devices (44, 50) for receiving input from that person. The system translates input received by the one or more mobile terminals into a control signal provided to the one or more cold applicators (18).

A garment, such as a vest, that may enable the selective warming or cooling of various portions of the wearer's body by, for example, using repositionable thermal packets removably affixed to the vest, and may enhance the wearer's posture by, for example, using of strategically placed straps or boning.

In one aspect, the disclosure relates to methods for on-demand ink deposition processes for printing conductive inks on textiles. The disclosed methods can be used to fabricate various disclosed wearable textile electronic devices comprising a textile product, such as a textile garment, and one or more electronic component such as a vertical interconnect access device, resistive printed heater, and a meshed-patch antenna. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present disclosure.

A thermal device comprising a garment (42A) that may be placed against at least a part of the body (10), the garment (42A) defining at least one enclosed compartment (48, 50) defined between an inner wall (65) and an outer wall (66), and an inlet (21) whereby liquid may be introduced into each such enclosed compartment (48, 50). Each enclosed compartment (48, 50) contains dry material (30) comprising water-soluble chemical compounds that dissolve endothermically or exothermically, and also a compressed sponge (62). There may also be an air bleed valve (64) to bleed any air out of the compartment (48, 50) when water is introduced. The device enables a patient's body to be cooled or heated in emergency, needing only addition of water, and incorporating no toxic or hazardous materials.

A cooling vest is provided which comprises: a vest having an interior volume, and a left and right pocket attached on the front of the vest; an elongated polyurethane tube having a first and a second end, wherein the tube is arranged in the interior volume in a U shape; a pump; an ice bag having an ice box received therein, wherein the ice box is full of ice, the first end of the tube is connected with an upper inlet of the ice bag, a low outlet of the ice bag is connected with the pump, the second end of the tube is connected with the pump; a switch for switching on/off of the pump, wherein the ice bag, the pump and the switch are received in one pocket together; and a portable power electrically connected with the switch, wherein the portable power is received in the other pocket.

A thermal control unit for controlling a patient's temperature includes a fluid outlet for delivering temperature-controlled fluid to a patient, a pump, a heat exchanger, and a controller that automatically implements a step change in the temperature of the fluid delivered to the patient. The step change is implemented prior to the patient reaching a target patient temperature. In the moments after (and in some cases the moments before) the step change, the controller monitors the rate of change of patient's temperature to evaluate whether the patient will reach the target patient temperature without reversing the step change, and/or how long it will likely take for the patient to reach the target patient temperature without reversing the step change. The controller then determines whether to reverse the step change or to switch to another algorithm for controlling the fluid temperature.

Thermal therapy systems, devices, and methods of using the same disclosed. A localized hypothermia of the pancreas with a delivery and placement procedure in the stomach of a patient comprising a cooling balloon system is disclosed that can be used for the treatment of pancreatitis in a patient. The cooling balloon system can have mechanisms for affecting the pancreas without impacting or inducing hypothermia in the patient in a systemic fashion. The localized hypothermia system can have a simplified delivery system and can be intended to reduce patient discomfort while reducing the metabolic activity of the inflamed pancreas of the patient.

Thermal therapy systems, devices, and methods of using the same disclosed. A localized hypothermia of the pancreas with a delivery and placement procedure in the stomach of a patient comprising a cooling balloon system is disclosed that can be used for the treatment of pancreatitis in a patient. The cooling balloon system can have mechanisms for affecting the pancreas without impacting or inducing hypothermia in the patient in a systemic fashion. The localized hypothermia system can have a simplified delivery system and can be intended to reduce patient discomfort while reducing the metabolic activity of the inflamed pancreas of the patient.

A system is disclosed for recommending a thermal pad set for use in providing a targeted temperature management (TTM) therapy to a patient, where the system includes a computer implemented method. The computer implemented method includes receiving a request for a thermal pad set recommendation from a clinician device, receiving a patient's identification from the clinician device, retrieving one or more patient parameter values from an electronic medical record for the patient, determining a pad set recommendation according to the patient parameter values in combination with a pad set correlation table, and displaying the pad set recommendation on the clinician device. Also disclosed herein is a system including a non-transitory computer-readable medium with instructions encoded thereon and one or more processors configured to, when executing the instructions, perform operations in accordance with processes of the computer implemented method.