Respiratory assistance apparatus

The invention claimed is: 1. A respiratory assistance apparatus comprising a conduit connected to a flow generator, the conduit comprising a venturi formation positioned downstream of the flow generator and an outlet, the apparatus further comprising: a first oxygen inlet in fluid communication or selective fluid communication with an oxygen supply, the first oxygen inlet directed into the conduit and directed toward a mouth of the venturi formation; and a second oxygen inlet configured to direct oxygen into the conduit; wherein the flow generator is configured to operate in a first mode and a second mode, wherein, in the first mode, the flow generator is operational and pumps air through a flow path through the flow generator to the conduit and, wherein, in the second mode, the flow generator is deactivated and offers the flow path for air to enter the conduit when drawn in from a pressure drop caused by oxygen flowing into the venturi formation. 2. The respiratory assistance apparatus of claim 1 , wherein the first oxygen inlet directs a jet of oxygen toward the center of the mouth of the venturi formation when in use. 3. The respiratory assistance apparatus of claim 1 , wherein the second oxygen inlet is directed into the conduit at a throat of the venturi formation. 4. The respiratory assistance apparatus of claim 1 , further comprising an adjustable flow controller disposed between the oxygen supply and the first oxygen inlet. 5. The respiratory assistance apparatus of claim 1 , further comprising a controller in communication with one or more sensors. 6. The respiratory assistance apparatus of claim 1 , further comprising a display unit adapted to show measurements from one or more sensors. 7. The respiratory assistance apparatus of claim 1 , further comprising one or more sensors, wherein measurements from the one or more sensors are communicated to a remote monitoring station. 8. The respiratory assistance apparatus of claim 1 , further comprising a portable power source and a controller in communication with one or more sensors, wherein the portable power source provides power to the one or more sensors. 9. The respiratory assistance apparatus of claim 1 , further comprising a portable power source and a display unit adapted to show measurements from one or more sensors, wherein the portable power source provides power to the one or more sensors and the display unit. 10. The respiratory assistance apparatus of claim 1 , further comprising a portable power source and one or more sensors, wherein measurements from the one or more sensors are communicated to a remote monitoring station and the portable power source provides power to the one or more sensors. 11. The respiratory assistance apparatus of claim 1 , further comprising a portable power source, wherein the portable power source provides power to the humidifier. 12. The respiratory assistance apparatus of claim 1 , wherein the venturi formation includes an outlet and the second oxygen inlet is provided between the first oxygen inlet and the outlet of the venturi formation. 13. The respiratory assistance apparatus of claim 1 , wherein the apparatus further comprises a humidifier, the humidifier comprises a chamber, the chamber comprises an inlet and an outlet, and the inlet of the humidifier is connected to the outlet of the conduit. 14. The respiratory assistance apparatus of claim 13 , further comprising a controller in communication with the humidifier. 15. The respiratory assistance apparatus of claim 1 , wherein the second oxygen inlet is provided upstream of the venturi formation but is not oriented to direct flow directly towards the mouth of the venturi formation. 16. The respiratory assistance apparatus of claim 15 , wherein the second oxygen inlet is directed orthogonally to the direction of air flow in an immediate vicinity of the second oxygen inlet. 17. The respiratory assistance apparatus of claim 15 , wherein the second oxygen inlet is in fluid communication or selective fluid communication with the oxygen supply. 18. A respiratory assistance apparatus comprising an intake conduit, the intake conduit being configured for connection to a gas flow generator positioned upstream of the intake conduit, the intake conduit comprising a venturi formation positioned downstream of the flow generator, a first oxygen inlet being in fluid communication with the intake conduit at a location upstream of an entrance into the venturi formation, the venturi formation comprising a flow axis along which flow through a throat of the venturi formation takes place, the first oxygen inlet being directed in a direction parallel with the flow axis, a second oxygen inlet configured to direct oxygen into the intake conduit and in fluid communication with the intake conduit at a location downstream of the first oxygen inlet, and the second oxygen inlet being directed in a direction that is not parallel with the flow axis through the throat of the venturi formation; wherein the flow generator is configured to operate in a first mode and second mode, wherein, in the first mode, the flow generator is operational and pumps air through a flow path through the flow generator to to the intake conduit and, wherein, in the second mode, the flow generator is deactivated and offers the flow path for air to enter the intake conduit when drawn in from a pressure drop caused by oxygen flowing into the venturi formation. 19. The respiratory assistance apparatus of claim 18 , wherein the second oxygen inlet is configured to direct oxygen into the venturi formation of the intake conduit. 20. The respiratory assistance apparatus of claim 18 , wherein the second oxygen inlet opens into the throat of the venturi formation. 21. The respiratory assistance apparatus of claim 20 , wherein a single oxygen supply is in fluid communication with both the first oxygen inlet and the second oxygen inlet.