A therapeutic vibrational system for treating such conditions as hypertension may have a plurality of vibrating patches; each including a vibrating motor with an adhesive for application to a person's skin permitting the plurality of vibrating patches to be placed in two or more locations on the person's skin, as well as a controller with a user interface and configured to provide control instructions to the plurality of vibrating patches.

An ECG signal processing system which removes the CPR-induced artifact from measured ECG signals obtained during the administration of CPR.

A cardiopulmonary resuscitation support device for assisting a rescuer with cardiopulmonary resuscitation using chest compressions, including: a pressure detecting device provided with a pressure sensor including a pressure sensing part which is configured to be overlapped on a chest, the pressure sensing part having a sheet form and being capable of flexural deformation in a flexible manner; and a displacement detecting device provided with a displacement sensor to detect a displacement of a hand of the rescuer compressing the chest, the displacement detecting device being configured to be retained by the hand of the rescuer at a part away from a chest compression surface.

Systems and methods are provided for controlling infrared radiation (IR) sources of a sauna including tuning IR wavelength-ranges and radiated power-levels of IR sources, and directing IR to locations on a user's body. In one illustrative embodiment, a sauna may be provided having adjustable heat sources to emit IR at any wavelength resulting in a desirable radiation treatment for the sauna user. In another illustrative embodiment, a method is provided for tuning IR sources in a sauna.

An apparatus may be configured for documenting a code blue scenario when adhered to the chest of a subject undergoing resuscitation by sensing and transmitting information associated with the code blue scenario. Such information may include one or more of vital signs of the subject during resuscitation, information associated with chest movements of the subject during resuscitation, and audio information from an environment of the subject during resuscitation. A computing platform that is separate and distinct from the apparatus may provide code blue documentation conveying information related to the vital signs of the subject and derived from the audio information from the environment of the subject during resuscitation.

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 system includes a sequential compression device (SCD) used by a patient as part of a sequential compression therapy (SCT) protocol. The system also includes a computer device that determines whether the SCD is in use in substantially real time in compliance with the protocol. The computer device initiates a notification to a caregiver if noncompliance with the SCT protocol is detected.

In accordance with one or more embodiments and corresponding disclosure, various non-limiting systems, devices, and methods are described in connection with an assistive support device that provides feedback to a user. In an aspect, disclosed is a system comprising, a first sensor component that generates a first set of sensor data based on a first set of force applied to an assistive support device. The system also comprises a data repository component that stores a first set of sensor data provided by the assistive support device. Furthermore, in an aspect, the system comprises a feedback component that employs a feedback mechanism based on an occurrence of a value of an applied force to the assistive support device of the first set of force applied being greater than or less than a threshold value of an applied force.

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.