Abstract: An apparatus for mechanically ventilating a patient is provided to have two separate components movably arranged with respect to one another within a flexible, air-tight covering fit about the torso of a patient. When the components move away from one another within the air-tight covering, negative pressure is generated which causes the patient to draw air into the lungs. Conversely, when the components stop moving away from one another within the air-tight covering, the patient's natural exhalation recoil takes over to allow the patient to expel the air from within the patient's lungs. A ventilator for helping a patient such as a premature infant breathe when placed in a chamber, is also provided.

Abstract: An apparatus for mechanically ventilating a patient is provided to have two separate components movably arranged with respect to one another within a flexible, air-tight covering fit about the torso of a patient. When the components move away from one another within the air-tight covering, negative pressure is generated which causes the patient to draw air into the lungs. Conversely, when the components stop moving away from one another within the air-tight covering, the patient's natural exhalation recoil takes over to allow the patient to expel the air from within the patient's lungs.

Abstract: The present invention is directed to a model for teaching or illustrating surgical and/or medical technique, and having a base component representing tissue or an organ and several components structured and arranged to be couplable to and detachable from the base component and/or to each other, to illustrate different positions of the components with respect to one another representing different phases in surgical and/or medical techniques.