The present invention provides a body lift-assist walker device for gait training is provided by the invention. The patient wears a pressurized body suit over all or a portion of his lower body, and the suit is attached to the walker device. A positive pressure or vacuum condition is applied to the interior of the suit, so that the differential pressure condition across the suit offloads a portion of the patient's body weight to the ground through the supportive walker device to make it easier for him to walk or run. The walker device also includes a lift-assisted body weight support device operated by a constant force mechanism like a pneumatic air cylinder that can lift the patient from a sitting position to a standing position with minimal physical effort. The device provides a portable and convenient system for persons undergoing physical therapy for treatment of gait or balance problems following an injury, stroke, or neurological disorder, or for use by elderly or disabled persons who have encounter difficulties in the sit-to-stand movement or walking.

A therapy system is operable to deliver at least one respiratory therapy to a patient. For example, therapy system may be operable to deliver any one or more of the following therapies: a high frequency chest wall oscillation (HFCWO) therapy, a positive expiratory pressure (PEP) therapy, a nebulizer therapy, an intermittent positive pressure breathing (IPPB) therapy, a cough assist therapy, a suction therapy, a bronchial dilator therapy, and the like. The therapy system is contained in a housing supported by a mobile stand.

Compression garments may include mitts and tightening apparatus to don, or put on, such compression garments. The mitts may be configured to receive a user's hand such that the user can move one or more portions of the garments using the mitts. The tightening apparatus may allow a user to selectively tighten or loosen the garments about the user's body portions. Once donned, the compression garments may apply pressure to one or more regions of the user's body such as, e.g., arm regions, shoulder regions, torso regions, and neck regions.

A compression garment system and method that may include a head garment portion configured to be donned on a head of a body. The compression garment and method may further include a neck garment portion configured to be donned on a neck of the body. A controller may be configured to control pressure applied by each of one or more head pressure applying regions and/or each of one or more neck pressure applying regions to move lymph at least from the head towards the neck.

Compression systems and methods may include a garment configured to be donned on, for example, a head and a neck of a body. For example, the garment may include a static garment portion configurable to apply a static pressure to a portion of the head and a dynamic garment portion including one or more pressure applying regions controllable to apply pressure to the head and neck. Further, a controller may be configured to control pressure applied by the one or more pressure applying regions.

Compression garments and methods may include a head garment configured to be positioned around both sides of a head of a body from a posterior of the head to an anterior of the head (e.g., wherein the head garment may include a plurality of controllable head pressure applying regions positionable proximate at least cheeks and a posterior of the head) and a neck garment (e.g., coupled to the head garment). The compression garments and methods may also include a torso garment. Such garment portions may include one or more controllable pressure applying regions to move lymph from the head downward.

In some embodiments, a method may include clearing a biological airway. The method may include positioning an inner wearable harness on a torso of a subject. The method may include selectively positioning at least some of a plurality of engines on and/or adjacent at least one treatment area. At least one of the plurality of engines may be releasably couplable to the inner wearable harness. The method may include positioning an outer wearable harness on a torso of a subject. The method may include applying an oscillation force to at least one of the treatment areas using at least some of the plurality of engines. The method may include adjusting the applied oscillation force to the treatment area by activating the outer wearable harness. The method may include mobilizing at least some secretions in an airway within the subject substantially adjacent the at least one treatment area.

An air pulse generator provides a high frequency chest wall oscillation therapy to a patient wearing an inflatable garment. The air pulse generator includes a blower and a valve coupled to the blower and coupled to the inflatable garment. The valve is movable to apply an oscillating pressure to the inflatable garment. The valve may be a rotary valve or a solenoid valve.

A method for automated CPR includes controlling a position of a compression element during movement of the compression element from an initial starting position (P0) of a first compression cycle to a first compression position (P1) corresponding to a first compression depth and back to a rest position of the compression element. After, the rest position has been reached, the method includes controlling a force exerted on the compression element, to ensure that the compression element stays in contact or re-contacts with the chest while allowing the chest to move upward due to ventilation, prior to the start of a second compression cycle.

This application discloses a portable exercise device for flexibility and strengthening. In some embodiments, the device is comprised of one elastic band of surgical tubing or like material and one non-elastic band, with two pairs of looped handles tied to each end of the elastic band. These looped handles can attach to a user's limb without any need for grasping. The non-elastic end of the device can be affixed to an anchor point. The exercise device offers light but adjustable resistance via a resistance modulator, allowing the user to engage in a full range of standing and seated exercises with forces comparable to swimming. In addition, two instances of the device can be combined to engage both the user's hands and feet simultaneously.