Respirator negative pressure fit check devices and methods

What is claimed is: 1. A respiratory mask, comprising: a mask body defining a breathable air zone for a wearer and having two or more inlet ports configured to receive two or more breathing air source components; and a shut-off valve operable between a closed position and an open position the shut-off valve comprising an actuator being engageable by the wearer to move the shut-off valve into the closed position; wherein, in the closed position, the shut-off valve is configured to prevent fluid communication between the two or more inlet ports and the breathable air zone, and wherein the shut-off valve in the closed position is configured to achieve a negative pressure within the breathable air zone upon inhalation by the wearer to provide an indication of an adequate seal without leaks around a periphery of the mask body. 2. The respiratory mask of claim 1 , wherein the indication is greater difficulty inhaling. 3. The respiratory mask of claim 1 , wherein the mask body further comprises a compliant face contacting portion and the indication is an inward deflection of the compliant face contacting portion. 4. The respiratory mask of claim 1 , wherein the shut-off valve is in the closed position when the actuator is depressed. 5. The respiratory mask of claim 4 , wherein the actuator comprises a button including a flexible web. 6. The respirator mask of claim 5 , wherein the flexible web biases the actuator to an open position corresponding to the shut-off valve in the open position. 7. The respirator mask of claim 5 , wherein the flexible web is attached to the mask body to seal the actuator and the mask body. 8. The respiratory mask of claim 1 , wherein the actuator that moves linearly between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 9. The respiratory mask of claim 1 , wherein the actuator that rotates between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 10. The respiratory mask of claim 1 , wherein the shut-off valve returns to the open position without further input to the actuator of the shut-off valve when the pressure in the breathable air zone is increased. 11. The respiratory mask of claim 1 , wherein the shut-off valve returns to the open position without further input to the actuator of the shut-off valve when the wearer exhales. 12. The respiratory mask of claim 1 , further comprising first and second filter cartridges attached to the mask body at two of the inlet ports. 13. The respiratory mask of claim 1 , wherein the inlet ports are in fluid communication with a single fluid intake communication component comprising an inhalation port to allow fluid communication between the inlet ports and the breathable air zone. 14. The respiratory mask of claim 13 , wherein the shut-off valve further comprises a sealing pad that contacts a sealing surface surrounding the inhalation port to prevent fluid communication between the breathing air source components and the inhalation port. 15. The respiratory mask of claim 14 , wherein the sealing pad and actuator are integrally formed. 16. The respiratory mask of claim 14 , wherein the sealing pad moves linearly between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 17. The respiratory mask of claim 14 , wherein the sealing pad pivots between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 18. The respiratory mask of claim 14 , wherein the fluid intake communication component comprises a first sealing surface and the shut-off valve comprises the sealing pad that contacts the first sealing surface when the shut-off valve is in the closed positi on. 19. The respirator mask of claim 13 , wherein the fluid intake communication component further comprises a diaphragm and a second sealing surface, and the diaphragm contacts the second sealing surface to close the inhalation port in the absence of negative pressure within the breathable air zone. 20. The respiratory mask of claim 1 , wherein the mask body further comprises a first chamber in fluid communication with each of the two or more inlet ports and a second chamber defining the breathable air zone, and a fluid intake communication component that allows fluid communication between the first chamber and the breathable air zone. 21. The respiratory mask of claim 1 , wherein a first inlet port of the two or more inlet ports is in fluid communication with a first fluid intake communication component and a second inlet port of the two or more inlet ports is in fluid communication with a second fluid intake communication component. 22. The respiratory mask of claim 21 , wherein the first fluid intake communication component comprises a first inhalation port and the second fluid intake communication component comprises a second inhalation port and the shut-off valve comprises first and second sealing pads, and wherein when the actuator is in the closed position the first and second sealing pads block the first and second inhalation ports to prevent fluid communication between the two or more breathing air sources and the breathable air zone. 23. The respiratory mask of claim 22 , wherein the first and second sealing pads pivot between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 24. The respirator mask of claim 22 , wherein the first and second sealing pads move linearly between an open position and a closed position corresponding to the shut-off valve moving between the open position and the closed position. 25. The respirator mask of claim 1 , wherein the shut-off valve comprises a biasing member biasing the shut-off valve to the open position from the closed position in the absence of an applied force by the wearer. 26. The respirator mask of claim 1 , wherein the shut-off valve returns to the open position upon further input by the wearer. 27. A respiratory mask, comprising: a mask body defining a breathable air zone for a wearer and having one or more inlet ports configured to receive one or more breathing air source components; and a shut-off valve operable between a closed position and an open position, the shut-off valve comprising an actuator and a biasing member, the actuator being attached to the mask body such that a seal is formed between the actuator and the mask body in both open and closed positions and being engageable by the wearer to move the shut-off valve into the closed position, the biasing member biasing the shut-off valve to the open position from the closed position in the absence of an applied force by the wearer; wherein, in the closed position, the shut-off valve is configured to prevent fluid communication between the one or more inlet ports and the breathable air zone, wherein the shut-off valve in the closed position is configured to achieve a negative pressure within the breathable air zone upon inhalation by the wearer. 28. The respiratory mask of claim 27 , wherein the mask body comprises two or more inlet ports configured to receive two or more breathing air source components, and wherein, in the closed positi