The invention concerns a gas mixer (1) that is adapted for providing a gas mixture to a mechanical ventilator, comprising a mixing vessel (53), a first line (10) for providing a first gas, a second line (20) for providing a second gas and a third line (30) for providing a third gas, said first, second and third lines (10, 20, 30) being in fluid communication with the mixing vessel (53) for proving said first, second and third gases to said mixing vessel (53) and obtaining a gas mixture in said mixing vessel (53), and a delivery line (60) in fluid communication with the mixing vessel (53) for recovering at least a part of the gas mixture contained in the mixing vessel (53).

A system, method, and device for preserving blood and its components is described. The system and method generally include a device having a body defining a chamber, the chamber being configured to receive at least one bag containing blood or its components, the at least one bag being permeable to gas, for example, xenon. A cover is hermetically sealable to the body. An inlet is in fluid communication with the chamber. A pressure indicator is configured to indicate pressure in the chamber, the pressure indicator including a conduit containing a liquid. A portion of the conduit is transparent such that the liquid is visible. A source of pressurized gas, such as xenon, is provided to provide the pressurized gas to the chamber.

This invention provides ventilators that provide superior air-oxygen mixing and gas delivery. The ventilators that supply a gas mixture to the lungs of a subject. The gas mixture comprises a first gas (e.g. oxygen) and a second gas (e.g. ambient air). The ventilators comprise a first gas inlet, a second gas inlet, flow modulator of the first gas, a flow modulator of the second gas, a junction configured to mix the first gas and the second gas, a patient interface configured to deliver the gas mixture to a subject, a pressure sensor, a plurality of flow sensors comprising at least a first flow sensor and a second flow sensor, and at least one controller configured for obtaining data from the pressure sensor and flow sensors and controlling the flow modulators to provide a gas mixture having a target pressure and a target oxygen content.

A system for controlling the delivery of medical gases includes a digital signal processor that receives at least one ventilation parameter value change, calculates a fresh oxygen flow rate, total fresh gas flow rate into the breathing circuit, and a reference oxygen flow rate representative of a predetermined oxygen concentration delivered to a patient. A graphical display presents the calculated fresh oxygen flow rate, total fresh gas flow rate, and reference oxygen flow rate. A method of controlling the delivery of medical gases to a patient includes calculating a total fresh gas flow rate into the breathing circuit, calculating a fresh oxygen flow rate into the breathing circuit, calculating a reference oxygen flow rate representative of a predetermined oxygen concentration delivered to the patient and presenting the total fresh gas flow rate, the fresh oxygen flow rate, and reference oxygen flow rate on a graphical display.

A conduit with a collapsible portion, and a nasal interface for providing a flow of gases to a user, is described. The interface comprises a manifold and at least one nasal prong or an outlet extending from the manifold to be received by a user's nare. A side member extends from each side of the manifold, each side member comprising a collapsible portion comprising a lumen. In an open configuration the lumen remains open and in a closed configuration the collapsible portion is pinched or flattened to occlude or substantially occlude the lumen. At least one of the side members is a conduit for a flow of gases from an inlet of the patient interface to the manifold.

A conduit with a collapsible portion, and a nasal interface for providing a flow of gases to a user, is described. The interface comprises a manifold and at least one nasal prong or an outlet extending from the manifold to be received by a user's nare. A side member extends from each side of the manifold, each side member comprising a collapsible portion comprising a lumen. In an open configuration the lumen remains open and in a closed configuration the collapsible portion is pinched or flattened to occlude or substantially occlude the lumen. At least one of the side members is a conduit for a flow of gases from an inlet of the patient interface to the manifold.

The invention relates to a medical device (1) for the closed-circuit administration of a gaseous mixture to be delivered to a spontaneously breathing patient, comprising a gas recycling system (4) disposed on a closed administration circuit (2). The recycling system (4) can comprise in particular an input for an exhaled gaseous mixture and an output for the gaseous mixture to be supplied to the patient, the orientation of which defines a direction of circulation (8) from the input to the output, as well as a zone (Z.sub.1) for treating the exhaled gaseous mixture (5) capable of retaining carbon dioxide, as well as at least one zone (Z.sub.3) for adjusting the composition of the gaseous mixture, in which zone the concentration of each gas forming the gaseous mixture is adjusted to a setpoint value.

Oxygen-charged (or oxygen-rich) implantable medical devices for and methods of local delivery of oxygen via outgassing is disclosed. The presently disclosed oxygen-charged implantable medical devices are, for example, polymeric implants that are functionalized to locally deliver oxygen from the implant surface for prolonged periods of time, thus increasing rates of healing and reducing rates of infection as compared with conventional medical implant devices.

Embodiments described herein generally relate to articles and methods for containing compositions comprising hydrogen gas. According to some embodiments, the article comprises a container that comprises metal, and an epoxy. The epoxy may at least partially coating a surface of the metal. The container may further contain a liquid or other material, which may comprise dissolved hydrogen gas. Such compositions may be useful, for example, for the treatment of animal and human diseases, for improvement in athletic performance, for the enhancement of the overall health of a subject, or the like.

Embodiments described herein generally relate to articles and methods for containing compositions comprising hydrogen gas. According to some embodiments, the article comprises a container that comprises metal, and an epoxy. The epoxy may at least partially coating a surface of the metal. The container may further contain a liquid or other material, which may comprise dissolved hydrogen gas. Such compositions may be useful, for example, for the treatment of animal and human diseases, for improvement in athletic performance, for the enhancement of the overall health of a subject, or the like.