A medical device providing a combination of thermal and DVT therapies to a patient. The components, arrangement of components, function of the device as a whole, and methods of use of the device are all devised to maximize therapeutic effectiveness. Effectiveness in this context is measured by the ability to provide a controlled application of the recommended thermal treatment including time, temperature, compression, and number of cycles with specified cycle duration.

A bed for therapeutic and recreational applications, comprises a frame structure, a mattress provided on the frame structure of the bed, a plurality of Light Emitting Diodes (LEDs) configured to emit electromagnetic radiation, an infrared heater assembly provided within the frame structure, the infrared heater assembly including a plurality of flexible heating elements connected with a power source, a plurality of temperature sensors provided at a plurality of locations on the frame structure and the mattress in order to generate signals in correlation with temperature values at the plurality of locations. Further, the frame structure includes a plurality of frame segments adapted to rotate to respective predetermined angles. Also, the mattress is made from at least partially transparent material and includes a fluid that is at least partially transparent.

A cold and hot compress pack includes a first sheet (110), a second sheet (120), a third sheet (130), a first weld seam (210), a second weld seam (220), a gas port (310) and at least two liquid ports (320). The first sheet (110), the second sheet (120) and the third sheet (130) are sequentially stacked one above another. The first weld seam (210) joins the first sheet (110), the second sheet (120) and the third sheet (130) at a same planimetric position. The second weld seam (220) surrounds the first sheet (110), the second sheet (120) and the third sheet (130) and joins them together at a same planimetric position. The second weld seam (220) is joined to one end of the first weld seam (210), thereby forming a first cavity (141) between the first sheet (110) and the second sheet (120) and a second cavity (142) between the second sheet (120) and the third sheet (130). The gas port (310) is arranged between any two of the liquid ports (320) so as to be spaced apart from both. The at least two liquid ports (320) are in communication with the second cavity (142), and the gas port (310) is in communication with the first cavity (141). An end of the first weld seam (210) joined to the second weld seam (220) extends between the gas port (310) and any one of the liquid ports (320) while being spaced apart from both. Also disclosed are a corresponding manufacturing method and a cold and hot compress circulation system.

Apparatuses and methods for treating neurological and/or neuropsychiatric disorders are by application of thermal energy to the patient's forehead region, for example, by maintaining a target temperature or temperature range to the forehead of a patient for a time period. In particular, described herein are regional brain cooling mechanisms to treat neuropsychiatric disorders such as depression, anxiety, and autism.

The present disclosure provides an equine therapy boot and methods of attaching the equine therapy boot to a lower extremity of a horse leg and hoof. The equine therapy boot includes an upper portion and a lower portion and an attachment means for securing the upper portion to the lower portion. The upper portion includes a fluid containment area for holding a thermal control fluid in proximity to a portion of the horse leg selected to receive treatment.

A treatment system for cooling subcutaneous lipid-rich cells in a human subject includes an applicator and a control unit. The treatment system has a cooling mode for cooling tissue and a heating mode for warming tissue. The control unit includes a circulation circuit in fluid communication with the applicator, a chiller apparatus configured to chill fluid from the applicator circulation circuit, and a heater apparatus to warmed fluid from the applicator circulation circuit. The control unit mixes the chilled fluid and/or the warmed with fluid in the applicator circulation circuit control the temperature of the fluid circulated in the applicator.

The present invention provides a device for diagnosing and treating ocular deviation, comprising: an eye mask which is worn by an examinee, and in which an eye movement capturing means for capturing the eye movement of the examinee is provided; a temperature-regulating pipe which is inserted into the ear of the examinee and which increases or decreases the temperature inside the ear of the examinee; a heat source supply part for supplying a heat source to the temperature-regulating pipe from the outside in order to increase and decrease the temperature of the temperature-regulating pipe; a fixing main body which is worn by the examinee, and which has a mounting hole, in which the temperature-regulating pipe is mounted, in order to fix the temperature-regulating pipe inserted into the ear of the examinee; and a control part, which is connected to the eye movement capturing means and the heat source supply part, receives an image of the eye captured by the eye movement capturing means, and extracts center coordinates from the transmitted image of the eye to compare same with the center coordinates of the eye inputted in advance, and then operates the heat source supply part to control the temperature of the temperature-regulating pipe in order to move the eye to the center coordinates of the eye inputted in advance.

Systems, methods and devices for utilizing heat transfer parameters or energy expenditure of devices providing controlled hypothermia, normothermia or hyperthermia to detect changes, or the absence of changes, a patient's endogenous set-point temperature; which is not available during exogenously induced targeted temperature management. A particular embodiment would allow detection of fever in patients undergoing targeted temperature managed.

A medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The medical pad includes a fluid containing layer configured for circulation of a TTM fluid therein. The pad may further include a bistable stiffening structure configured to transition between a first stable shape and a second stable shape. The pad may further include a thermally-conductive compressible foam layer disposed between the fluid containing layer and a patient contact side of the pad. a self-adhering stretchable band configured to secure the pad to the patient. The pad may further include a semi-permeable layer disposed between an underside of the fluid containing layer and a hydrogel layer so that the TTM fluid may migrate from the fluid containing layer to the hydrogel layer.

A system and method for providing Anal Perineal Prostate Vaginal Pelvic Floor contrast therapy are presented. The system may comprise a human interface device, fluid tubing, a pump, and a reservoir. The system may be operable to apply any combination of heat, cold, and pressurized compression to a therapy recipient and demonstrates particular utility for treating anal-prostate-perineal and vaginal areas. The system may be operable to impart a desired therapy temperature to the human interface device and to expand a membrane containing a therapy fluid. The expanded membrane may conform to the contours of a therapy site. Operation of the human interface device may be controlled using a remote-control device. The therapy recipient may be able to control the temperature of the fluid circulating through the membrane and may be able to control the pressure of the fluid within the membrane.