Medical device with energy harvesting system

What is claimed is: 1. An oscillating positive expiratory pressure device comprising: a mouthpiece and a housing, wherein at least one of the mouthpiece and housing define separated first and second chambers having differential flow, pressure and/or temperature properties; an energy harvesting component disposed between the first and second chambers and operable to generate electrical energy in response to the differential flow, pressure and/or temperature properties of the first and second chambers, wherein the first and second chambers define inhalation and exhalation pathways respectively; a power storage device connected to the energy harvesting component and operable to store the electrical energy received from the energy harvesting component; and an output operably connected to the power storage device. 2. The oscillating positive expiratory pressure device of claim 1 wherein the output comprises one or more of a controller, sensor and/or communication protocol. 3. The oscillating positive expiratory pressure device of claim 1 wherein the energy harvesting component comprises one or more of a piezo element, pressure differential harvester and/or peltier element disposed between the first and second chambers. 4. The oscillating positive expiratory pressure device of claim 3 wherein the power storage device comprises a battery. 5. The oscillating positive expiratory pressure device of claim 3 wherein the energy harvesting component comprises a flexible membrane separating the first and second chambers, wherein the piezo element is attached to the flexible membrane. 6. The oscillating positive expiratory pressure device of claim 3 wherein the piezo element comprises first and second piezo elements, and wherein the pressure differential harvester comprises a mass disposed between the first and second piezo elements. 7. An oscillating positive expiratory pressure device comprising: a mouthpiece and a housing, wherein at least one of the mouthpiece and housing define separated first and second chambers having differential flow, pressure and/or temperature properties; a linear generator comprising a magnet disposed inside a conductive coil disposed between the first and second chambers and operable to generate electrical energy in response to the differential flow and/or, pressure properties of the first and second chambers; a power storage device connected to the coil and operable to store the electrical energy received from the coil; and an output operably connected to the power storage device. 8. The oscillating positive expiratory pressure device of claim 7 further comprising first and second caps having portions disposed in the coil and engageable with opposite sides of the magnet, wherein the first and second caps are exposed to the pressure and/or flow of the first and second chambers respectively. 9. A method of using an oscillating positive expiratory pressure device comprising: inhaling and/or exhaling into a mouthpiece coupled to a housing, wherein at least one of the mouthpiece and housing define separated first and second chamber, wherein the first and second chambers define inhalation and exhalation pathways respectively, wherein one or both of the inhaling and exhaling creates differential flow, pressure and/or temperature properties in the first and second chambers; harvesting energy with an energy harvesting component disposed between the first and second chambers and generating electrical energy in response to the user inhaling and/or exhaling into the mouthpiece; storing the electrical energy in a power storage device connected to the energy harvesting component; and providing electrical energy from the power storage device to an output. 10. The method of claim 9 wherein the output comprises one or more of a controller, sensor and/or communication protocol. 11. The method of claim 9 wherein the energy harvesting component comprises one or more of a piezo element, pressure differential harvester and/or peltier element disposed between the first and second chambers. 12. The method of claim 11 wherein the energy harvesting component comprises a flexible membrane separating the first and second chambers, wherein the piezo element is attached to the flexible membrane. 13. The method of claim 11 wherein the piezo element comprises first and second piezo elements, and wherein the pressure differential harvester comprises a mass disposed between the first and second piezo elements. 14. The method of claim 9 wherein the power storage device comprises a battery. 15. A method of using an oscillating positive expiratory pressure device comprising: inhaling and/or exhaling into a mouthpiece coupled to a housing, wherein at least one of the mouthpiece and housing define separated first and second chamber, and wherein one or both of the inhaling and exhaling creates differential flow and/or, pressure properties in the first and second chambers; harvesting energy with a linear generator comprising a magnet disposed inside a conductive coil disposed between the first and second chambers and generating electrical energy in response to the user inhaling and/or exhaling into the mouthpiece by moving the magnet inside the coil; storing the electrical energy in a power storage device connected to the coil; and providing electrical energy from the power storage device to an output. 16. The method of claim 15 wherein moving the magnet inside the coil comprises engaging the magnet with first and second caps having portions disposed in the coil.