Disclosed are devices and methods for mitigating insulin resistance in a human subject by contacting one or more regions of the neck, the supraclavicular, and the interscapular regions of the human subject with a part of a cooling device, wherein the part of the cooling device has a temperature at about 15 or less Celsius degrees; cooling the one or more regions of the neck, the supraclavicular, and the interscapular regions of the human subject for a cooling period of at least 15 minutes; and performing previous two steps daily for about 14 or more days. The devices and methods may also be used to preventing, delaying or treating type 2 diabetes in a human subject or activating brown fat without incurring a sympathetic nerve-mediated cold feeling in a human subject.

A device for massaging skin, including, a RF generator adapted to generate a radio frequency AC current to heat fat tissue in the adipose layer of the skin, an electrical pulse generator adapted to generate pulses of DC current to provide electrical muscle stimulation for the muscles below the adipose layer, an applicator including one or more heads adapted to be placed in contact with the user's skin; and wherein the heads serve as massage contacts to massage the outer layer of a user's skin above the adipose layer or as electrodes to deliver the AC current and DC current, or as both.

A patient support apparatus includes a frame having a patient support deck. A footboard is removably coupled to the frame. A compression therapy module is located inside the footboard or is mounted to a foot section of the frame. A sleeve port is pneumatically coupled to the compression therapy module and is located on the foot section. The sleeve port is configured for attachment to at least one tube extending from a compression sleeve worn on a limb of a patient. Control circuitry is coupled to the frame and is operable to control functions of the patient support apparatus and to control the compression therapy module. A graphical display screen is coupled to the control circuitry and displays user inputs that are selected to control functions of the patient support apparatus and the compression therapy module.

A device for first responders and medical professionals to assist during the administration of cardiopulmonary resuscitation (CPR) on a patient in need thereof. The device may also be used to train individuals on how to properly perform cardiopulmonary resuscitation by providing initial instructions about the process as well as real-time monitoring of the student's technique and providing real-time instructive feedback to the student so that the student may improve their skills. The invention also includes a method of using the device to coach first responders and medical professionals as they perform cardiopulmonary resuscitation (CPR) on a patient in need thereof as well as a method of using the device to teach students about cardiopulmonary resuscitation (CPR).

Systems and methods for applying enhanced guided active compression decompression cardiopulmonary resuscitation are provided. Exemplary systems include a load cell, a handle, an adhesive pad. The handle and the adhesive pad are configured for magnetic coupling.

A method and system for noninvasive face lifts and deep tissue tightening are disclosed. An exemplary method and treatment system are configured for the imaging, monitoring, and thermal injury to treat the SMAS region. In accordance with an exemplary embodiment, the exemplary method and system are configured for treating the SMAS region by first, imaging of the region of interest for localization of the treatment area and surrounding structures, second, delivery of ultrasound energy at a depth, distribution, timing, and energy level to achieve the desired therapeutic effect, and third to monitor the treatment area before, during, and after therapy to plan and assess the results and/or provide feedback.

A walking assist device has a frame, a plurality of wheels, drive units, a battery, and a drive control unit that controls the drive units. The walking assist device also has: a pair of right and left movable handles that are grasped by a user and movable back and forth with respect to the frame in accordance with arm swing performed during walk of the user; handle guide units provided on the frame to guide the movable handles in a movable range that matches the arm swing performed during walk of the user; and a grasp portion state detection unit that detects the state of the movable handles. The drive control unit controls the travel speed of the walking assist device by controlling the drive units on the basis of the state of the movable handles which is detected using the grasp portion state detection unit.

Devices and systems are described including a walking aid including a linear rod, a hand grip disposed in proximity to a first end of the linear rod, two or more extendable and retractable load-bearing feet at a second end of the linear rod, at least one first sensor configured to detect a parameter of a walking surface, at least one second sensor configured to detect a parameter of the walking aid, a controller including input circuitry configured to receive information regarding the detected parameter of the walking surface from the at least one first sensor and actuation circuitry configured to actuate at least one of the two or more extendable and retractable load-bearing feet in response to the information regarding the detected parameter of the walking surface, and a transmission unit including circuitry configured to transmit the second sensor output to a computing device.

Systems and methods related to the field of cardiac resuscitation, and in particular to devices for assisting rescuers in performing cardio-pulmonary resuscitation (CPR) are described herein. The system includes a camera to capture one or more images at a scene where the person in need of medical assistance is being treated and one or more processors. The processors receive and process the images, by using a rescuer profile, to provide a real-time feedback to the rescuer to improve the CPR treatment.

A massage apparatus includes a sheet member attachable to a skin of a body, and a pressure unit that presses the skin from the sheet member. The sheet member is elastic and thermoplastic such that the sheet member is hardened at a temperature of the skin and is softened at a predetermined temperate different from the temperature of the skin. The sheet member has one or more indications indicating an area of the skin to which the sheet member is to be attached. The pressure unit applies a pressure to the skin so as to provide a predetermined pressure distribution in which positions of the pressure distribution are defined with reference to one or more positions on the body in a situation in which the sheet member is attached to the area.