Disposable suction valve for an endoscope

What is claimed is: 1. A method for manufacturing a disposable suction valve comprising: molding a stem having at least one opening and at least one recessed aperture; molding a spring stanchion having an outer ring having a cutout, a diaphragm, and an extension comprising a tab, the spring stanchion molded as a single monolithic piece; placing a bottom end of the stem through the center of a spring; placing the bottom end of the stem through a stem opening in the spring stanchion; and placing the tab of the spring stanchion into the at least one recessed aperture of the stem; wherein the stem and the spring stanchion comprise disposable thermoplastic material. 2. A method of claim 1 further comprising: over-molding a boot on the spring stanchion. 3. A method of claim 2 , wherein (i) the stem is color coded or (ii) a sealing ledge on the boot creates a seal against a button head of the stem. 4. A method of claim 1 , wherein (i) the stem provides an O-ring or an alternate sealing device to assure an air-tight seal within a suction port or (ii) the stem provides a sealing means to assure an air-tight seal within a suction port. 5. A method of claim 1 , wherein (i) the stem has a diameter that assures an air-tight seal within a suction port or (ii) a portion of the stem below the opening is removed such that a length of the stem is reduced. 6. A method of claim 1 , wherein the at least one recessed aperture extends along the length of the stem to define the bounds of movement for the stem when the tab engages the at least one recessed aperture and the disposable suction valve further comprises a stem insert disposed in the first opening of the stem, the stem insert configured to prevent air passage out of the first opening, and the stem insert being color coded and substantially flush with a top surface of the stem. 7. A suction valve assembly comprising: a stem comprising a first opening disposed along a longitudinal axis of the stem, and a second opening disposed transverse to the first opening, the first and second openings for allowing passage of air and/or fluid; a spring stanchion having an outer ring having a cutout, a diaphragm, and an extension comprising a tab, the spring stanchion molded as a single monolithic piece configured to attach to the stem, the stem comprising at least one recessed aperture to engage the tab, the recessed aperture configured to define the bounds of movement for the stem; the spring stanchion comprising an opening configured to receive the stem and allow movement of the stem in an upward and downward position relative to the spring stanchion; and a spring configured to contact the diaphragm of the spring stanchion, and the stem; wherein the suction valve assembly is disposable and the stem and the spring stanchion comprise thermoplastic material. 8. A suction valve assembly according to claim 7 , further comprising a boot configured to be attached to the spring stanchion and stem and configured to be contacted by the system when the stem is moved in a downward position. 9. A suction valve assembly according to claim 7 , further comprising a boot configured to be attached to the spring stanchion and to be contacted by the stem when the stem is moved in a downward position. 10. A suction valve assembly according to claim 9 , wherein the boot comprises a ledge configured to receive a button head portion of the stem to provide an air tight seal when the top portion of the stem contacts the ledge of the boot. 11. A suction valve assembly according to claim 9 , wherein the stem has a diameter that is concentric to the diameter of the boot to assure an airtight seal within a suction port of a medical device. 12. A suction valve assembly according to claim 11 , wherein the medical instrument comprises an endoscope. 13. A suction valve assembly according to claim 7 , wherein the spring stanchion further comprising a boot configured to be attached to the spring stanchion and to be contacted by the stem when the stem is moved in a downward position. 14. A suction valve assembly according to claim 7 , wherein the opening in the spring stanchion is disposed in a center of the spring stanchion and the spring stanchion comprises a ledge to receive a first end of the spring and the stem comprises a ledge to receive the second end of the spring. 15. A suction valve assembly according to claim 7 , wherein (i) the tab is configured to lock the stem to the spring stanchion; and (ii) the suction valve assembly comprises a stem insert disposed in the first opening of the stem, the stem insert configured to prevent air passage out of the first opening and the stem insert being color coded and substantially flush with a top surface of the stem. 16. A suction valve assembly according to claim 7 , wherein (i) the stem comprises a plurality of points at one end, and a top portion or a button head at an opposite end configured to be contacted by a finger; (ii) the stem comprises a projection comprising a sealing member to assure a proper seal within a suction port of a medical device; and (iii) the stem comprises an O-ring attached thereto to assure a proper seal within a suction port of a medical device. 17. A suction valve assembly according to claim 7 , wherein a passage from first opening intersects with a passage from the second opening, and when the stem is pressed in a downward direction, the second opening aligns with a suction channel of a medical instrument and allows passage of air and/or fluid to a suction connection. 18. A suction valve assembly according to claim 7 , wherein the suction valve assembly is used in an endoscopic procedure. 19. A method of claim 7 , wherein the spring stanchion comprises two extensions each having one tab, and the diaphragm is adjacent to each extension. 20. A method of claim 19 , wherein the stem comprises two oppositely positioned recessed apertures and the spring stanchion comprises two oppositely positioned tabs.