Disclosed herein are systems, methods, and a targeted temperature management (TTM) pad to facilitate thermal energy transfer between TTM fluid and a patient. The TTM pad includes a pad portion for placement on the patient and a fluid delivery conduit. The fluid delivery conduit can include a delivery conduit connector at a proximal end thereof and a fluid return conduit extending away from the pad portion. The fluid return conduit can include a return conduit connector at a proximal end thereof, and a connector coupled to a distal end of each of the fluid delivery conduit and the fluid return conduit. The connector can include a membrane configured to cover openings of both of the fluid delivery conduit and the fluid return conduit or includes multiple membranes, wherein the one or more membranes can include a piercing corresponding to each of the fluid delivery conduit and the fluid return conduit.

Relatively non-invasive devices and methods for heating or cooling a patient's body are disclosed. Devices and methods for treating ischemic conditions by inducing therapeutic hypothermia are disclosed. Devices and methods for inducing therapeutic hypothermia through esophageal cooling are disclosed. Devices and methods for operative temperature management are disclosed.

Systems and methods described herein include a pressure delivery component that has a pressure applicator configured to selectively apply therapeutic pressure to a treatment portion of a user body, and also includes a thermal delivery component that has a thermal applicator that is a configured to apply thermal treatment to the treatment portion. The thermal applicator may be removably disposable in operative relationship with the pressure delivery component in a use configuration of the treatment delivery component such that the thermal applicator is disposable between the treatment portion and the pressure applicator when the treatment delivery component is disposed on the treatment portion in the use configuration. Moreover, the pressure applicator is operable to apply pressure to the thermal applicator to enhance apposition of the thermal applicator to the treatment portion.

A targeted temperature management (TTM) system is disclosed that includes a TTM module to provide a TTM fluid, a fluid delivery line (FDL) including a FDL hub, a fluid delivery lumen and a fluid return lumen, and a pad to facilitate thermal energy transfer between the TTM fluid and a patient, the pad including a fluid delivery conduit extending away from the pad portion and including a first leak prevention valve configured to enable the TTM fluid to flow in a distal direction while preventing flow in a proximal direction, and a fluid return conduit extending away from the pad portion, the fluid return conduit including (i) a return conduit connector at a proximal end thereof, and (ii) a second leak prevention valve configured to enable the TTM fluid to flow in the proximal direction while preventing flow in the distal direction.

A medical device and method used for patient temperature management, wherein the device is designed to cool the surface of the patient's head and blood flow to the head and neck of a patient after trauma in order to prevent inflammation and reduce swelling in the brain, is portable with a rapid cooling capability feature, does not require an ICU setting, eliminates certain complications that could affect the patient otherwise, and can be easily placed on the patient with little training or expertise.

A therapy wrap for treatment of at least a portion of an animate body having improved kink resistance. The therapy wrap may be selectively reinforced for improved kink resistance in only a portion of the wrap. The reinforcement may decrease the kink radius. The wrap may include a kink reducer in all or only a selected kink-prone region. The kink reducer may be selectively configured attachment points or spot welds. The therapy wrap may include a reinforcement layer of one or more discrete reinforcement members. The wrap may be formed by pre-tensioning the material layers while forming the fluid bladder and/or gas pressure bladder. The therapy wrap may be adapted to compensate for conditions that normally cause kinking of the wrap or buckling of the fluidic channels. Also disclosed are methods of manufacturing the wrap and methods of administering a temperature-controlled treatment to an anatomical body part.

A device for therapeutic neuromodulation in a nasal region can include, for example, a shaft and a therapeutic element at a distal portion of the shaft. The shaft can locate the distal portion intraluminally at a target site inferior to a patient's sphenopalatine foramen. The therapeutic element can include an energy delivery element configured to therapeutically modulate postganglionic parasympathetic nerves at microforamina of a palatine bone of the human patient for the treatment of rhinitis or other indications. In other embodiments, the therapeutic element can be configured to therapeutically modulate nerves that innervate the frontal, ethmoidal, sphenoidal, and maxillary sinuses for the treatment of chronic sinusitis.

A targeted temperature management (TTM) system includes a TTM module configured to provide a TTM fluid and a pad configured to facilitate thermal energy transfer between the TTM fluid and a patient. The system includes a fluid delivery line (FDL) with a hub at the distal end of the FDL. The pad includes a connector including a flapper valve configured to alternate between open and closed positions based on whether the connector is coupled with the FDL hub. The flapper valve in the closed position covers openings of each of the fluid delivery conduit and fluid return conduit when the connector is uncoupled from the FDL hub. The flapper valve is configured to deform into the open position upon coupling of the connector and the FDL hub thereby establishing fluid communication therebetween.

A device for indirect temperature regulation of the brain of a human via a nasal cavity thereof, the device comprising: a membrane having a membrane surface area, a length, a center point with respect to the length, a width, and a center point with respect to the width, said membrane adapted to be arranged in contact with a surface of the nasal cavity, said membrane defining a closed volume and having the shape of the nasal cavity such that when in use, it expands and conforms to the nasal cavity, a first catheter, a second catheter, and means for circulating said fluid into said volume via said first catheter and out of said volume via said second catheter.

Disclosed is a medical pad for exchanging thermal energy between a targeted temperature management (TTM) fluid and a patient. The pad includes a fluid channel extending between a fluid inlet and a fluid outlet, and a bottom channel wall that is disposed between the fluid and the patient during use of the pad. The wall is formed of a material having a thermal conductivity, and the wall includes elements embedded within the wall. The elements are formed of a material having a greater thermal conductivity than the wall material so that a composite thermal conductivity of the wall that is greater than the thermal conductivity of the wall material alone. The thermal energy exchange between the fluid and the patient is defined in accordance with the composite thermal conductivity. The pad can include channel shapes and features that enhance the heat transfer convection coefficient of the fluid within the channel.