Low-force pumping segment

What is claimed is: 1. A pumping segment with a low shut-off force, the pumping segment comprising: a medical-grade tube for delivering medical fluid, the tube comprising an interior surface comprising a first notch and a second notch on opposite sides of the interior surface such that the first and second notches divide a wall of the tube into a first wall region and a second wall region and divide the interior surface into a first interior surface and a second interior surface respectively forming interior surfaces of the first wall region and the second wall region; a first spring element coupled to an exterior surface of the first wall region of the tube, the exterior surface of the first wall region separated from the first interior surface by a thickness of the first wall region, and the first spring element configured to elastically deform as the first wall region of the tube is displaced toward the second wall region by a compressive force provided by an external compressive member and to rebound without assistance from the external compressive member to separate the first wall region of the tube from the second wall region as the first spring element returns to an undeformed shape when the external compressive force is removed; and a second spring element coupled to the second wall region of the tube, the second spring element configured to elastically deform as the second wall region of the tube is displaced toward the first wall region and to separate the second wall region of the tube from the first wall region as the second spring element returns to an undeformed shape. 2. The pumping segment of claim 1 , wherein: each notch of the first and second notches comprises a respective tip; and the first interior surface and the second interior surface asymptotically approach each other at each notch and sealingly meet at the tip of each notch. 3. The pumping segment of claim 2 , wherein the first and second interior surfaces have equal widths. 4. The pumping segment of claim 2 , wherein the notches are configured such that the first and second interior surfaces are in continuous gapless contact from the tips at least a portion of a distance towards a center of the tube when the first wall region of the tube is displaced toward the second wall region. 5. The pumping segment of claim 4 , wherein: the first and second wall regions of the tube have constant respective wall thicknesses between the tips of the notches; and the first and second interior surfaces are in continuous gapless contact between the tips when the tube is compressed to a total thickness approximately equal to a sum of the respective thicknesses of the first and second wall regions. 6. The pumping segment of claim 1 , wherein the tube is configured to elastically deform as the first wall region of the tube is displaced toward the second wall region and to separate the first wall region of the tube from the second wall region of the tube as the tube returns to an undeformed shape. 7. The pumping segment of claim 1 , wherein the tube comprises a thermoplastic elastomer. 8. The pumping segment of claim 1 , wherein the tube comprises a polyurethane. 9. The pumping segment of claim 1 , wherein the tube comprises an ultra-high-weight polyvinyl chloride. 10. The pumping segment of claim 1 , wherein the tube comprises a polyester. 11. The pumping segment of claim 1 , wherein the tube comprises a silicone. 12. An intravenous (IV) set with a low shut-off force, the IV set comprising: a medical-grade tube for delivering medical fluid, the tube having a tube wall comprising an interior surface comprising a first notch and a second notch on opposite sides of the interior surface, each notch comprising a tip, the first and second notches dividing the tube wall into first and second portions; a first spring element attached directly to an exterior surface of the first portion of the tube wall, the first spring element configured to elastically deform as the first portion of the tube is displaced toward the second portion by a compressive force provided by an external compressive member and to rebound without assistance from the external compressive member to separate the first portion of the tube from the second portion as the first spring element returns to an undeformed shape when the external compressive force is removed; and a second spring element attached directly to an exterior surface of the second portion of the tube wall, the second spring element configured to elastically deform as the second portion of the tube is displaced toward the first portion and to separate the second portion of the tube from the first portion as the second spring element returns to an undeformed shape. 13. The IV set of claim 12 , wherein a first interior surface portion and a second interior surface portion corresponding to the first and second portions of the tube wall asymptotically approach each other at each notch and sealingly meet at the tip of each notch. 14. The IV set of claim 13 , wherein the notches are configured such that the first and second interior surface portions are in continuous gapless contact from the tips at least a portion of a distance towards a center of the tube when the first portion of the tube is displaced toward the second portion. 15. The IV set of claim 14 , wherein: the first and second portions of the tube wall each have a constant respective thickness between the tips of the notches; and the first and second interior surface portions are in continuous gapless contact between the tips when the tube is compressed to a thickness approximately equal to the sum of the thicknesses of the first and second portions.