System and method for reduced pressure charging

We claim: 1. A reduced-pressure source for operation by a foot to supply a reduced pressure to a tissue site, the reduced-pressure source comprising: a compressible bladder adapted to be positioned beneath the foot, the compressible bladder having a chamber substantially enclosed by a chamber wall and being movable between an expanded position and a compressed position; a biasing member operatively associated with the chamber wall to bias the compressible bladder toward the expanded position; and a pressure regulator fluidly connected to the chamber and adapted to regulate the reduced pressure delivered to the tissue site, the pressure regulator having a first variable volume cavity fluidly connected to the chamber of the compressible bladder. 2. The reduced-pressure source of claim 1 , wherein the compressible bladder is adapted to generate a reduced pressure within the chamber as the compressible bladder moves toward the expanded position. 3. The reduced-pressure source of claim 1 , wherein the biasing member is disposed within the chamber. 4. The reduced-pressure source of claim 1 , wherein the biasing member is an open-cell foam. 5. The reduced-pressure source of claim 1 , wherein the biasing member is bonded to the chamber wall. 6. The reduced-pressure source of claim 1 , wherein the biasing member is welded to the chamber wall. 7. The reduced-pressure source of claim 1 , wherein the compressible bladder is a first compressible bladder, the reduced-pressure source further comprising: a second compressible bladder adapted to be positioned beneath the foot, the second compressible bladder having a second chamber substantially enclosed by a second chamber wall and being movable between an expanded position and a compressed position; and a second biasing member operatively associated with the second chamber wall to bias the second compressible bladder toward the expanded position. 8. The reduced-pressure source of claim 7 , wherein the first compressible bladder is adapted to be positioned beneath a forefoot region of the foot and the second compressible bladder is adapted to be positioned beneath a heel region of the foot. 9. The reduced-pressure source of claim 1 , further comprising: an inlet valve in fluid communication with an inlet of the compressible bladder to prevent fluid within the chamber from exiting the inlet; and an outlet valve in fluid communication with an outlet of the compressible bladder to prevent fluid from entering the chamber through the outlet. 10. The reduced-pressure source of claim 1 , wherein the compressible bladder is a first compressible bladder, the reduced-pressure source further comprising: a second compressible bladder adapted to be positioned beneath the foot, the second compressible bladder having an inlet, an outlet, and a second chamber substantially enclosed by a second chamber wall, and being movable between an expanded position and a compressed position; a second biasing member operatively associated with the second amber wall to bias the second compressible bladder toward the expanded position; an inlet valve in fluid communication with the inlet of the second compressible bladder to prevent fluid within the second chamber from exiting the inlet; and an outlet valve in fluid communication with the outlet of the second compressible bladder to prevent fluid from entering the second chamber through the outlet. 11. The reduced-pressure source of claim 1 , wherein: the first variable-volume cavity is configured to expand as the first variable-volume cavity receives a positively pressured air from the chamber. 12. The reduced-pressure source of claim 1 , wherein: the pressure regulator has a second variable-volume cavity; and the second variable-volume cavity is configured to expand and generate a reduced pressure as the first variable-volume cavity expands. 13. The reduced-pressure source of claim 1 , wherein: the pressure regulator has a second variable-volume cavity; the first variable-volume cavity is configured to expand as the first variable-volume cavity receives a positively pressured air from the chamber; and the second variable-volume cavity is configured to expand and generate a reduced pressure as the first variable-volume cavity expands. 14. The reduced-pressure source of claim 1 , wherein: the pressure regulator has a second variable-volume cavity; and the pressure regulator includes a bellows device fluidly separating the first variable-volume cavity and the second variable-volume cavity. 15. The reduced-pressure source of claim 1 , further comprising a manifold adapted to be positioned at the tissue site and in fluid communication with the chamber of the compressible bladder. 16. The reduced-pressure source of claim 1 , further comprising a canister fluidly connected to the chamber. 17. The reduced-pressure source of claim 1 , further comprising: a manifold adapted to be positioned at the tissue site and in fluid communication with the chamber of the compressible bladder; and a canister fluidly connected between the chamber and the manifold. 18. The reduced-pressure source of claim 1 , wherein the pressure regulator comprises a vent adapted to regulate a flow rate of the reduced pressure that is delivered to the tissue site by allowing ambient air into the pressure regulator. 19. A reduced-pressure source for operation by a foot to supply a reduced pressure to a tissue site, the reduced-pressure source comprising: a first compressible bladder adapted to be positioned beneath a forefoot region of the foot, the first compressible bladder having a first chamber substantially enclosed by a first chamber wall and being movable between an expanded position and a compressed position; a first biasing member operatively associated with the first chamber wall to bias the first compressible bladder toward the expanded position; a second compressible bladder adapted to be positioned beneath a heel region of the foot, the second compressible bladder having a second chamber substantially enclosed by a second chamber wall and being movable between an expanded position and a compressed position; and a second biasing member operatively associated with the second chamber wall to bias the second compressible bladder toward the expanded position. 20. The reduced-pressure source of claim 19 , wherein the first compressible bladder and the second compressible bladder are adapted to generate a reduced pressure within the first chamber and the second chamber, respectively, as the first compressible bladder and the second compressible bladder move toward the expanded position. 21. The reduced-pressure source of claim 19 , wherein the first biasing member is disposed within the first chamber and the second biasing member is disposed within the second chamber. 22. The reduced-pressures source of claim 19 , wherein the first biasing member and the second biasing member are an open-cell foam. 23. The reduced-pressure source of claim 19 , further comprising: a first inlet valve in fluid communication with an inlet of the first compressible bladder to prevent fluid within the chamber from exiting the inlet; a first outlet valve in fluid communication with an outlet of the first compressible bladder to prevent fluid from entering the chamber through the outlet; a second inlet valve in fluid communication with an inlet of the second compressible bladder to prevent fluid within the second chamber