An aerosol delivery device is provided that includes at least one housing structured to retain an aerosol precursor composition. The device includes an atomizer, and a microprocessor configured to operate in an active mode in which the control body is configured to control the atomizer to activate and produce an aerosol from the aerosol precursor composition. And the device includes a heart rate monitor including a plurality of biopotential electrodes affixed to the housing and configured to obtain biopotential measurements from a user, and including signal conditioning circuitry configured to produce an electrocardiogram signal from the biopotential measurements. The microprocessor is coupled to the signal conditioning circuitry and further configured to control operation of at least one functional element of the aerosol delivery device based on the electrocardiogram signal or a heart rate of the user calculated therefrom.

Provided is a wearable, self-contained drug infusion or medical device capable of communicating with a host controller or other external devices via a personal area network (PAN). The medical device utilizes a PAN transceiver for communication with other devices in contact with a user's body, such as a physiological sensor or host controller, by propagating a current across the user's body via capacitive coupling. The wearable nature of the medical device and the low power requirements of the PAN communication system enable the medical device to utilize alternative energy harvesting techniques for powering the device. The medical device preferably utilizes thermal, kinetic and other energy harvesting techniques for capturing energy from the user and the environment during normal use of the medical device. A system power distribution unit is provided for managing the harvested energy and selectively supplying power to the medical device during system operation.

A portable respiratory device for supplying respiratory gas to a living being, including: a housing; a respiratory gas conveying apparatus which is designed to convey inspiratory respiratory gas to a respiratory gas housing outlet of the housing; an input/output apparatus for the input of control commands and for the output of information; a control apparatus which is connected to the input/output apparatus and to the respiratory gas conveying apparatus for transferring signals; a first, grid-based power supply which is designed to be connected to a grid voltage source that is external in respect of the respirator device in order to transfer electricity and which is designed and arranged in order to supply electricity to the control apparatus, the input/output apparatus and the respiratory gas conveying apparatus; wherein the respiratory gas conveying apparatus, the input/output apparatus, the control apparatus and the first power supply are received in the housing; the respiratory device has a second, storage-based power supply which has an electricity storage device for storing electrical energy and which is designed at least to supply the respiratory gas conveying apparatus with electricity.

Disclosed herein are facially fitting devices, such as nasal cannulas and oxygen masks, including illuminating placement marker(s), which facilitate correct placement of the facially fitting devices on a face of a subject in dark conditions. The placement marker is powered by a thermo-electric generator, which generates electrical power via thermal coupling thereof to skin on the face of a subject when the facially fitting device is fitted, or partially fitted, on the face of the subject.

A hand stimulation device that includes a housing defining an interior plenum and having a top portion and a bottom portion; a pair of drive electrodes structured and arranged in a first region of the top portion; a pair of sense electrodes structured and arranged in a second region of the top portion; a processing device disposed within the interior plenum and in communication with each of the pair of drive electrodes and the pair of sense electrodes; at least one sensing device adapted to measure and collect biometric data about the user; and at least one motor that is adapted to generate at least one of tactile feedback and a haptic pattern to a user.

A holding device for holding and fixing at least one electronic terminal device, in particular of the entertainment electronics type, during a medical treatment, more particularly dialysis treatment. The terminal device is or can be attached to a medical treatment apparatus, such as a dialysis machine, or to a patient bed. The holding device includes an integrated charging unit to supply the held and/or fixed electronic terminal device with power, more particularly from the medical treatment apparatus, with a protection circuit being integrated in the holding device to detect a defect of a terminal device that has just been connected. A charging unit includes an integral power supply unit on a dialysis machine or patient bed having a holding device.

Ambulatory infusion pumps, pump assemblies, and disposable assemblies, including cartridges, baseplates, cannulas, inserters, and related components therefor, as well as component combinations and related methods.

An aerosol delivery device includes at least one housing structured to retain an aerosol precursor composition, and an atomizer. A microprocessor is configured to operate in an active mode in which the control body is configured to control the atomizer to activate and produce an aerosol from the aerosol precursor composition. A heart rate monitor is configured to obtain biopotential measurements from a user, the biopotential measurements forming an identifier of the user. The microprocessor is operably coupled with the heart rate monitor and is configured to perform a biometric authentication of the user based on the identifier, and to control operation of at least one functional element of the aerosol delivery device based on the biopotential measurements, with the controlling operation of at least one functional element including altering a locked state of the aerosol delivery device based on the biometric authentication.

A charging and data transfer method for use in a pressure support system adapted to provide a regimen of respiratory therapy to a patient includes establishing a near-field wireless coupling interface between a pressure generating device base unit of the pressure support system and a wireless peripheral device (32) of the pressure support system, transferring energy from the pressure generating device base unit to the wireless peripheral device over the near-field wireless coupling interface and using the transferred energy in the wireless peripheral device to charge an energy storage device (72) of the wireless peripheral device, and transferring pairing information between the pressure generating device base unit and the wireless peripheral device over the near-field wireless coupling interface.

A pharmaceutical composition containing isomyosmine or a pharmaceutically acceptable salt thereof is administered to an individual in need thereof for treating a substance addiction, inclusive of affecting smoking substitution, eliminating cravings for tobacco and nicotine, or transitioning individuals away from smoking or the use of other tobacco products. In some examples, the therapeutic agent(s) are administered in a capsule, tablet, or lozenge. In other examples, the therapeutic agent(s) are administered via a chewing gum, inhalation spray, e-cigarette, nasal spray, or transdermal patch.