Pressure resistant conductive fluid containment

The embodiments of the invention in which an exclusive property or privilege is claimed are defined as follows: 1. A system for use with a wearable defibrillator worn by a patient, the system comprising: an electrode; a source of pressurized fluid; a conductive fluid reservoir containing a conductive fluid, the conductive fluid reservoir comprising one or more outlets and an inflatable pouch; and a controller configured to control selective delivery of a pressurized fluid from the source of pressurized fluid to the inflatable pouch, wherein the inflatable pouch is configured to be inflated from a deflated state to an inflated state in response to the pressurized fluid being delivered from the source of pressurized fluid; wherein, in the deflated state, a free end of the inflatable pouch covers the one or more outlets and seals the one or more outlets from the conductive fluid in the conductive fluid reservoir, and wherein, in the inflated state, the free end of the inflatable pouch is removed from the one or more outlets such that the conductive fluid is allowed to flow from the conductive fluid reservoir through the one or more outlets to increase electrical connectivity between the electrode and the patient. 2. The system of claim 1 , wherein the conductive fluid reservoir is one of a plurality of conductive fluid reservoirs. 3. The system of claim 2 , wherein the source of pressurized fluid is coupled to each of the plurality of conductive fluid reservoirs via fluid channels. 4. The system of claim 1 , further comprising: a monitor configured to monitor a heart rhythm of the patient. 5. The system of claim 4 , wherein the controller is configured to cause the pressurized fluid to be delivered from the source of pressurized fluid to the inflatable pouch in response to the monitor detecting an arrhythmia while monitoring the heart rhythm of the patient. 6. The system of claim 1 , further comprising: a defibrillator configured to deliver an electrical discharge to the patient via the electrode and the conductive fluid. 7. The system of claim 1 , wherein the source of pressurized fluid comprises a gas generator. 8. The system of claim 1 , further comprising: a second electrode; a second source of pressurized fluid; and a second conductive fluid reservoir comprising an inflatable pouch; wherein the controller is configured to control selective delivery of a pressurized fluid from the second source of pressurized fluid to the inflatable pouch of the second conductive fluid reservoir such that conductive fluid is allowed to flow from the second conductive fluid reservoir to increase electrical connectivity between the second electrode and the patient. 9. A conductive fluid reservoir comprising: a container configured to contain a conductive fluid; one or more outlets on the container; and an inflatable pouch located at least partially within the container, wherein the inflatable pouch is capable of being inflated from a deflated state to an inflated state; wherein, in the deflated state, a free end of the inflatable pouch covers the one or more outlets, and wherein, in the inflated state, the free end of the inflatable pouch is removed from the one or more outlets such that the conductive fluid is allowed to flow out of the container via the one or more outlets. 10. The conductive fluid reservoir of claim 9 , further comprising a seal between the inflatable pouch and the one or more outlets when the inflatable pouch is in the deflated state. 11. The conductive fluid reservoir of claim 10 , wherein the seal between the inflatable pouch and the one or more outlets is broken when the inflatable pouch is inflated from the deflated state to the inflated state. 12. The conductive fluid reservoir of claim 9 , wherein the inflatable pouch has a U-shape comprising a first side and a second side. 13. The conductive fluid reservoir of claim 12 , wherein the free end of the inflatable pouch covers one or more outlets on the first side of the U-shape. 14. The conductive fluid reservoir of claim 9 , wherein the inflatable pouch has a ring shape. 15. The conductive fluid reservoir of claim 14 , wherein the container includes a central attachment portion having one or more holes. 16. The conductive fluid reservoir of claim 9 , wherein the inflatable pouch comprises an inlet that protrudes outside of the container, and wherein the inlet is configured to receive a pressurized fluid from a source of pressurized fluid. 17. The conductive fluid reservoir of claim 9 , wherein the free end of the inflatable pouch has a saw-tooth shape, wherein the saw-tooth shape comprises peaks and valleys, and wherein at least one of the valleys is located near the one or more outlets. 18. A method of preparing a patient for defibrillation treatment, comprising: monitoring, by a monitor, a heart rhythm of a patient; detecting, by the monitor, an arrhythmia while monitoring the heart rhythm of the patient; and dispensing conductive fluid from a reservoir to increase electrical connectivity between a first electrode and the patient in response to the monitor detecting the arrhythmia, wherein dispensing the conductive fluid comprises causing a pressurized fluid to inflate an inflatable pouch in the reservoir from a deflated state to an inflated state, and wherein inflation of the inflatable pouch from the deflated state to the inflated state causes a free end of the inflatable pouch to be removed from one or more outlets in the reservoir to permit the conductive fluid to flow out of the reservoir via the one or more outlets. 19. The method of claim 18 , further comprising: delivering, by a defibrillator, an electrical discharge to the patient via the first electrode and the dispensed conductive fluid. 20. The method of claim 18 , wherein the monitoring comprises monitoring the heart rhythm of the patient using a second electrode that is different than the first electrode. 21. The method of claim 18 , wherein causing the pressurized fluid to inflate the inflatable pouch comprises one or more of causing a gas generator to generate the pressurized fluid or opening a valve between a source of pressurized fluid and the inflatable pouch.