An athletic player seating system; the athletic player seating system may include a seating unit having a first-seat, a center console, and a second-seat hosted on a frame. The first-seat and the second-seat each include a backrest, a seat portion, and a footrest having padded sections hosting heating elements and massagers positioned on all user-contacting surface points. The first-seat and the second-seat each further include a cooling system and a series of air vents positioned to direct air moved by the cooling system towards the first-seat and the second-seat. The seating unit also includes a first-liquid-container and a second-liquid-container for water and sports beverages. Additionally, the seating unit includes means for oxygen delivery to a user.

The present invention relates to a device for applying energy to a human body. The device comprises a contact surface which defines an application region in which a human body can be placed in the effective range of the energy. The device further comprises at least one means for outputting the energy directed substantially onto the application region, and at least one means for generating a vapour mixture comprising at least one cannabinoid. The device according to the invention also comprises at least one means for guiding the vapour mixture, which has an effective dose of at least one cannabinoid, into the surroundings of the breathing orifices of a human body. The present invention further relates to a method for operating such a device, and to the use of vapour mixtures comprising at least one cannabinoid in designated devices.

The inventive concepts disclosed and claimed herein are generally directed to an improved assisted walking device, such as a cane, walker or wheelchair, that includes an integrated oxygen concentrator housed within the assisted walking device. In some embodiments, for example, the improved assisted walking device includes a handle, a control pad, an elongated housing having an interior chamber, an oxygen concentrator, a leg member and a foot member. The oxygen concentrator detachably positioned within the interior chamber of the elongated housing and including an adsorption system configured to generate a flow of oxygen enriched gas, a compressor that includes a motor, a battery, a plurality of sieve beds configured to extract oxygen-enriched gas from ambient air, and a controller in communication with the control pad.

A system for monitoring performance of a resuscitation activity on a patient by an acute care provider is provided. The system includes: a first wearable sensor configured to sense movement of a first portion of an acute care provider's hand; a second wearable sensor configured to sense movement of a second portion of the acute care provider's hand; and a controller. The controller is configured to: receive and process signals representative of performance of a resuscitation activity from the first sensor and the second sensor; identify from the processed signals information indicative of at least one of a relative distance, a relative orientation, a change in relative distance and a change in relative orientation between the first sensor and the second sensor during performance of the resuscitation activity; and determine at least one resuscitation activity parameter based, at least in part, on the identified information.

The present invention is directed to a massage chair having a massage chair frame, a massage and stretching system, and a noise-reducing, enclosure device. The frame includes a first end, a second end, a seat body area portion, and a back body area portion. The massage system includes at least one air massage element, an air pump, and at least one air valve device for regulating air flow into and out of the air massage element. The enclosure device includes an enclosure housing and noise-reducing material positioned inside the housing. The housing encloses the air pump and air valve device(s) during operation such that noise generated from or made by the air pump and air valve device(s) during operation is reduced, contained or eliminated. The present invention may include additional features: manual or automated armrest sliding, manual or automated shoulder massager with sliding mechanism, remote software update, media player holder, virtual reality player, wireless charger, hammering devices, heating acupuncture devices, and oxygen generator.

A defibrillation system may include a cardiac arrest detector detecting whether cardiac arrest of a passenger has occurred in a state of taking a seat of a self-driving vehicle and fastening a seatbelt of the vehicle; a passenger posture detection device detecting a posture of the passenger; a seat driving device changing the posture of the passenger into another posture in which the passenger lies down based on a detection signal of the passenger posture detection device when the cardiac arrest of the passenger occurs; a heart position detector configured to search for a position of a heart of the passenger; a defibrillation robot to perform a CPR method or a method using an AED on the heart of the passenger; and a controller controlling operation of the seat driving device, the heart position detector, and the defibrillation robot based on detection signals of the cardiac arrest detector and the passenger posture detection device.

The subject matter of the invention is a therapeutic device in the form of a cylindrical chamber which comprises a hyperbaric chamber, LED matrices (5) and inductive coil rings (10, 11, 12, 13), constructed in one inseparable set in the form of a chamber of 200-280 cm in length and diameter of the round cylinder (70-130 cm).

The present invention relates to a resuscitation chamber apparatus for administering hyperbaric oxygen to a patient. More particularly, the present invention relates to a hyperbaric oxygen compatible critical care chamber apparatus preferably for use in emergency departments and/or prehospital ambulance management of patients. In a preferred embodiment of the present invention, the apparatus is a resuscitation monoplace hyperbaric chamber preferably used in critical care management of acutely ill or injured patients in prehospital emergency medical services (EMS) settings or in hospital emergency departments. The apparatus preferably allows a critical care shock or arrested patient to be pressurized preferably without compromise for application of best medical equipment, medications and human resuscitating intervention.

The present invention relates to the art of automatic regulation of pulmonary devices for imitating, assisting and/or enforcing the breathing process by converting Bag-Valve-Mask (BVM) or a similar device to enhance both phases of breathing: inhalation and exhalation while applying a variable pressure during the breathing process. It also replaces a mechanical chest compression to the sternum area for automatic pneumatic compression, and it could be complimented with the use of a Tens unit, can be used for extended period of time with a high level of reliability, simplicity, efficacy and low cost. The unique filtration system's goal in this invention is safety of the treating patient as well as assisting personnel. This portable and light device is recommended to be used as a resuscitator for the patients with mild to extremely suppressed or without respiratory drive. The source of power can be electrical, battery operated, manual or a combination thereof.

An automated mechanical ventilator may include a positive pressure source that periodically delivers periodic positive pressure ventilations to a patient when a pressure within the patient's airway is greater than a predetermined threshold. The ventilator may include an inspiratory lumen coupled with the positive pressure source. The ventilator may include an inlet valve interfaced with the inspiratory lumen. The inlet valve may open with each positive pressure ventilation. The ventilator may include an expiratory lumen. The ventilator may include a pressure sensor in fluid communication with the expiratory lumen that senses the pressure within the patient's airway. The ventilator may include an outlet valve interfaced with the expiratory lumen. The ventilator may include a controller that opens the first valve without delivering a positive pressure ventilation when the pressure measured by the pressure sensor is less than the predetermined threshold.