Vented dispensing device and method

What is claimed is: 1 . A fluid dispensing device for delivery of a therapeutic fluid to a user's body, the fluid dispensing device comprising: a disposable part housing comprising of at least one reservoir to hold the therapeutic fluid; at least one other unit requiring communication with ambient air, at least partly, to operate; a reusable part housing including at least a portion of a driving mechanism and electronic components having a processor; at least one vent port formed on one or more walls of at least one of the disposable part housing and the reusable part housing; and a semi-permeable membrane covering the at least one vent port, the membrane being impervious to at least one liquid but pervious to at least one gas, wherein the at least one vent port is configured for communicating air into at least one of the disposable part housing and the reusable part housing to at least one of: maintain pressure equilibrium between the air pressure therein and the ambient air pressure there out, provide communication with the ambient air to the at least one other unit requiring air to enable operation of the at least one other unit, and an audible notification module disposed in the reusable part housing, wherein the at least one vent port is further configured to direct sound and/or vibration generated by the audible notification module as a notification regarding a condition of the fluid dispensing device. 2 . The device of claim 1 , wherein the at least one other unit includes at least one energy source comprising at least one electrochemical cell to produce electrical energy upon exposure to air. 3 . The fluid dispensing device of claim 2 , wherein the at least one electrochemical cell comprises a Zinc-air battery. 4 . The fluid dispensing device of claim 1 , wherein as a result of the pressure equilibrium, controlled delivery of the therapeutic fluid from the at least one reservoir to the body of the user is enabled. 5 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane comprises a water repelling fabric. 6 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane comprises a polymer. 7 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane comprises GORE-TEX®. 8 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane comprises CELGARD®. 9 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane is configured to provide a rate of gas transfer greater than or equal to about 0.1 micro-liter per hour at a temperature of about 300° K and pressure conditions of about 1 atm. 10 . The fluid dispensing device of claim 1 , wherein the semi-permeable membrane is configured to provide a rate of gas transfer greater than or equal to about 2.5 micro liter per second at a temperature of about 300° K and pressure conditions of about 1 atm. 11 . The fluid dispensing device of claim 2 , wherein the reusable part housing includes the at least one vent port. 12 . The fluid dispensing device of claim 1 , wherein the disposable part housing and the reusable part housing are substantially sealed when operatively coupled to each other, and wherein at least one of the disposable part housing and the reusable part housing allow ingress of liquids when not operatively coupled to the other part. 13 . The fluid dispensing device of claim 1 , further comprising at least one seal to substantially close the at least one vent port to prevent entry of air into the disposable part housing and/or the reusable part housing through the at least one vent port when the device is not in operation. 14 . A fluid dispensing device for delivery of a therapeutic fluid to a user's body, the fluid dispensing device comprising: a disposable part housing comprising of at least one reservoir to hold the therapeutic fluid; at least one energy source comprising at least one Zinc-air battery which provides energy upon exposure to air; a reusable part housing including at least a portion of a driving mechanism and electronic components having a processor, wherein the disposable part housing and the reusable part housing are substantially sealed when operatively coupled to each other, and wherein at least one of the disposable part housing and the reusable part housing allows ingress of liquids when not operatively coupled to the other part; at least one vent port formed on one or more walls of at least one of the disposable part housing and the reusable part housing; a semi-permeable membrane comprising a water-repelling fabric which substantially covers and/or is provided at the at least one vent port, the membrane being impervious to at least one liquid but pervious to at least one gas, wherein the at least one vent port is configured for communicating air into at least one of the disposable part housing and the reusable part housing to at least one of: maintain pressure equilibrium between the air pressure therein and the ambient air pressure there out, and provide communication with the ambient air to the at least one Zinc-air battery to enable operation of the at least one Zinc-air battery, and wherein as a result of the pressure equilibrium, controlled delivery of the therapeutic fluid from the at least one reservoir to the body of the user is enabled; and an audible notification module disposed in the reusable part housing, wherein the at least one vent port is further configured to direct sound and/or vibration generated by the audible notification module as a notification regarding a condition of the fluid dispensing device. 15 . The fluid dispensing device of claim 14 , further comprising at least one other unit requiring communication with ambient air, at least partly, to operate. 16 . The fluid dispensing device of claim 14 , further comprising a sensor, and wherein the at least one vent port is configured for providing air to the sensor to enable its operation.