Positive expiratory pressure device

What is claimed is: 1. A positive expiratory pressure device comprising: a mask comprising a body shaped to cover the user's mouth and nose and defining an interior space, wherein the mask is configured with a first port that communicates directly between an ambient environment surrounding an exterior of the body and the interior space, wherein the at least one first port is configured with an inhalation valve and wherein the first port defines an inhalation path communicating with the body, and a second exhalation port sized to produce an exhalation pressure between 1-15 cmH 2 O, wherein the second exhalation port has an unobstructed orifice with a non-variable and minimal cross-sectional area that communicates directly between the interior space and the ambient environment, wherein the positive expiratory pressure device is free of any exhalation valves; and a neck tube coupled to the mask and extending downwardly therefrom. 2. The positive expiratory pressure device of claim 1 wherein the neck tube is releasably coupled to the mask. 3. The positive expiratory pressure device of claim 2 wherein the neck tube is releasably coupled to the mask with a magnet. 4. The positive expiratory pressure device of claim 1 wherein the neck tube does not cover the first inhalation port or the second exhalation port. 5. The positive expiratory pressure device of claim 4 wherein the mask comprises fabric catches for aligning one or more openings in the neck tube with the first inhalation port and the second exhalation port on the mask. 6. The positive expiratory pressure device of claim 1 wherein the neck tube comprises an elastic member configured to engage the user. 7. The positive expiratory pressure device of claim 6 further comprising a drawstring mechanism for adjusting the elastic member. 8. The positive expiratory pressure device of claim 1 wherein the neck tube is the only feature for securing the mask to the user. 9. The positive expiratory pressure device of claim 1 wherein the body defines a dead space external to the user. 10. The positive expiratory pressure device of claim 1 wherein the unobstructed orifice is configured as a single orifice having an area of between 3.142 mm 2 and 78.540 mm 2 . 11. The positive expiratory pressure device of claim 1 comprising an electronic module coupled to the mask, the electronic module comprising at least one sensor capable of measuring one or more body functions and/or parameters, and a control unit operable to determine at least one threshold based on data collected from the at least one sensor. 12. The positive expiratory pressure device of claim 1 wherein the neck tube is open along a portion or an entirety of a length thereof. 13. The positive expiratory pressure device of claim 12 further comprising a fastener closing the open neck tube. 14. The positive expiratory pressure device of claim 1 wherein the neck tube has a continuous periphery defining a tubular structure with openings at each end of the tubular structure. 15. A method of using a positive expiratory pressure device comprising: positioning a body of a mask to cover a user's mouth and nose, wherein the mask is configured with a first port configured with an inhalation valve and communicating directly with an ambient environment surrounding an exterior of the body, and a second exhalation port comprising an unobstructed orifice with a non-variable and minimal cross-sectional area; positioning a neck tube around a neck of the user, wherein the neck tube is coupled to the mask and holds the mask on the user; inhaling only from an ambient environment through the first port and thereby opening the inhalation valve; exhaling through the unobstructed orifice of the second exhalation port directly to the ambient environment from an interior of the body and creating an exhalation pressure between 1-15 cmH 2 O; and wherein the positive expiratory pressure device is free of any exhalation valves. 16. The method of claim 15 further comprising decoupling the mask from the neck tube. 17. The method of claim 16 wherein said decoupling comprises releasing a magnetic force between the mask and neck tube. 18. The method of claim 15 further comprising positioning the neck tube on the user without the mask being positioned on the user. 19. The method of claim 15 wherein the neck tube does not cover the first inhalation port or the second exhalation port. 20. The method of claim 15 wherein the unobstructed orifice is configured as a single orifice having an area of between 3.142 mm 2 and 78.540 mm 2 . 21. The method of claim 15 wherein the neck tube has a continuous periphery defining a tubular structure with openings at each end of the tubular structure, and wherein positioning the neck tube around the neck of the user comprises passing the user's head through the tubular structure. 22. The method of claim 15 wherein the neck tube is open along a portion or an entirety of a length thereof, and wherein positioning the neck tube around the neck of the user comprises wrapping the open neck tube around the neck of the user. 23. The method of claim 22 further comprising securing the open neck tube around the neck of the user with a fastener.