Peristaltic pump tube with non-uniform lumen profile

What is claimed is: 1. A tube comprising a sidewall defining a lumen profile, the sidewall comprising a plurality of alternating thin regions and thick regions, wherein the thin regions comprise elastic instabilities, wherein the elastic instabilities comprise enlargements and reductions, wherein the enlargements are diametrically opposite to the reductions, wherein the thin regions have a sidewall thickness T 1 and the thick regions have a sidewall thickness T 2 , wherein thickness T 1 is no greater than 50% of the thickness T 2 , wherein the tube exhibits a closure stress, measured according to the Finite Element Analysis method, that is no greater than 0.94 times the Elastic Modulus E of the material forming the tube defined in ASTM D 412 in 2016, wherein the tube comprises an outer diameter having a circular shape, and wherein the tube exhibits a contact stress of at least 0.5 times and is no greater than 0.91 times the Elastic Modulus E of the material forming the tube. 2. The tube of claim 1 , wherein a lumen profile has a central axis A, wherein the lumen profile has a non-uniform radius such that when in a fully closed state, a large radius region abuts a small radius region. 3. The tube of claim 1 , wherein the tube has a length extending from a first end to a second end, and the lumen profile is essentially constant throughout the length of the tube. 4. The tube of claim 1 , wherein the inner profile is coaxial with the outer profile. 5. The tube of claim 1 , wherein the lumen profile is incongruous with the outer profile. 6. The tube of claim 1 , wherein the outer diameter has a diameter in a range of 0.2 to 1 cm. 7. The tube of claim 1 , wherein the lumen profile includes has a non-uniform radius. 8. The tube of claim 7 , wherein the non-uniform radius comprises a plurality of large radius regions and a plurality of small regions. 9. The tube of claim 8 , wherein at least one large radius region is diametrically opposite at least one small radius region. 10. The tube of claim 8 , wherein the plurality of large radius regions, the plurality of small radius regions, or both, have a flat shape, a geometric shape, an arcuate shape, or an amorphous shape. 11. The tube of claim 8 , wherein the plurality of large radius regions have a concave shape having an apex extending away from the central axis. 12. The tube of claim 8 , wherein the plurality of small radius regions have a convex shape having an apex extending toward the central axis. 13. The tube of claim 8 , wherein the plurality of large radius regions have arcuate shape forming a rounded corner of a geometric shape of the lumen profile. 14. The tube of claim 8 , wherein the plurality of small radius regions have a flat shape forming a side of a geometric shape of the lumen profile. 15. The tube of claim 1 , wherein the lumen profile includes a plurality of large radius regions having a radius R 1 and a plurality of small radius regions having a radius R 2 that is no greater than 50% of the radius R 1 . 16. The tube of claim 1 , wherein the sidewall includes a plurality of thin regions having a thickness T 1 and a plurality of thick regions having a thickness T 2 , wherein the thickness T 1 is no greater than 50% of the thickness T 2 . 17. The tube of claim 1 , wherein the tube comprises a polymer including a polystyrene, a polyester, a silicone copolymer, silicone thermoplastic vulcanizate, a copolyester, a polyamide, a fluoropolymer, a polyethylene, a polypropylene, a polyether-ester copolymer, a thermoplastic urethane, a polyether amide block copolymer, a polyamide copolymer, a styrene block copolymer, a polycarbonate, a polyolefin elastomer, a thermoplastic vulcanizate, an ionomer, a polyoxymethylene (POM), an acrylonitrile butadiene styrene (ABS), an acetal, an acrylic, a polyvinyl chloride (PVC), or a combination thereof. 18. A tube comprising a sidewall defining a lumen profile, the lumen profile having a plurality of alternating increased radius regions and decreased radius regions, wherein the increased radius regions comprise elastic instabilities, wherein the elastic instabilities comprise enlargements and reductions, wherein the enlargements are diametrically opposite to the reductions, wherein the decreased radius regions have a sidewall thickness T 1 and the increased radius regions have a sidewall thickness T 2 , wherein thickness T 1 is no greater than 50% of the thickness T 2 , wherein the tube exhibits a closure stress, measured according to the Finite Element Analysis method, that is no greater than 0.94 times the Elastic Modulus E of the material forming the tube defined in ASTM D 412 in 2016, wherein the tube comprises an outer diameter having a circular shape, and wherein the tube exhibits a contact stress of at least 0.5 times and is no greater than 0.91 times the Elastic Modulus E of the material forming the tube. 19. The tube of claim 18 , wherein the sidewall has a non-uniform thickness such that, when in a fully closed state, a thick region of the sidewall abuts a thin region of the sidewall. 20. A tube comprising a sidewall defining a lumen profile having a central axis A, wherein the lumen profile has a non-uniform radius such that when in a fully closed state, a large radius region abuts a small radius region, wherein the sidewall comprises elastic instabilities, wherein the elastic instabilities comprise enlargements and reductions, wherein the enlargements are diametrically opposite to the reductions, wherein the small radius region have a sidewall thickness T 1 and the large radius region have a sidewall thickness T 2 , wherein thickness T 1 is no greater than 50% of the thickness T 2 , wherein the tube exhibits a closure stress of not greater than 0.94 times the Elastic Modulus E of the material forming the tube, wherein the closure stress is measured according to the Finite Element Analysis method and the Elastic Modulus E of the material forming the tube is defined ASTM D 412 in 2016, wherein the tube comprises an outer diameter having a circular shape, and wherein the tube exhibits a contact stress of at least 0.5 times and is no greater than 0.91 times the Elastic Modulus E of the material forming the tube.