Collapse-resistant swellable catheter

What is claimed is: 1. A collapse-resistant catheter comprising: an inner element including one or more indents; and a flexible outer sleeve covering an outer wall of the inner element up to a distal end of the inner element, the flexible outer sleeve being non-slidable on the outer wall of the inner element; wherein the inner element comprises a swellable material; wherein the flexible outer sleeve comprises a non-swellable material; and wherein after the collapse-resistant catheter is inserted at an infusion site and a liquid is administered via the collapse-resistant catheter, the inner element absorbs a portion of the liquid, the inner element swells in volume within the flexible outer sleeve, and the one or more indents control a direction of the swelling by causing the inner element to fold inwardly. 2. The collapse-resistant catheter as claimed in claim 1 , wherein outward swelling of the inner element is externally restrained by the flexible outer sleeve. 3. The collapse-resistant catheter as claimed in claim 1 , wherein the swelling of the inner element is directed inward toward its centerline. 4. The collapse-resistant catheter as claimed in claim 1 , wherein an orifice of the collapse-resistant catheter is sized to receive an introducer needle. 5. The collapse-resistant catheter as claimed in claim 1 , wherein the swellable material of the inner element comprises a swellable polymer. 6. The collapse-resistant catheter as claimed in claim 5 , wherein swelling of the inner element is controlled by a composition of the swellable polymer. 7. The collapse-resistant catheter as claimed in claim 5 , wherein the swellable polymer comprises a biomaterial including polyurethane. 8. The collapse-resistant catheter as claimed in claim 7 , wherein swelling of the inner element is controlled by a composition of the biomaterial. 9. The collapse-resistant catheter as claimed in claim 8 , wherein the non-swellable material of the flexible outer sleeve comprises a non-swellable polymer. 10. The collapse-resistant catheter as claimed in claim 9 , wherein the non-swellable polymer comprises a fluorinated polymer material. 11. The collapse-resistant catheter as claimed in claim 8 , wherein the inner element comprises an inner tube having one or more thick segments and one or more thin segments. 12. The collapse-resistant catheter as claimed in claim 11 , wherein the one or more thick segments and the one or more thin segments are alternately connected. 13. The collapse-resistant catheter as claimed in claim 11 , wherein each of the one or more thin segments is configured to collapse toward the centerline of the collapse-resistant catheter, as liquid is absorbed. 14. The collapse-resistant catheter as claimed in claim 13 , wherein the one or more collapsed thin segments forms a support leg. 15. The collapse-resistant catheter as claimed in claim 8 , wherein the inner element comprises one or more swellable segments attached to an inner surface of the flexible outer sleeve. 16. The collapse-resistant catheter as claimed in claim 15 , wherein the flexible outer sleeve comprises one or more retention tabs on which the one or more swellable segments are attached. 17. A method of transferring liquid via a collapse-resistant catheter, comprising the steps of: providing a collapse-resistant catheter comprising a swellable inner element including one or more indents and a non-swellable outer sleeve externally covering an outer wall of the swellable inner element up to a distal end of the swellable inner element; inserting the collapse-resistant catheter into a patient using an introducer needle; removing the introducer needle from the collapse-resistant catheter; transferring liquid via the collapse-resistant catheter; absorbing liquid by the swellable inner element to cause swelling of the swellable inner element whereby the one or more indents control a direction of the swelling by causing the swellable inner element to fold inwardly; and restraining outward expansion of the swellable inner element by the externally covering non-swellable outer sleeve. 18. A method of making a collapse-resistant catheter, comprising the steps of: forming an inner element including one or more indents by extruding a swellable material; forming a flexible outer sleeve by extruding a non-swellable polymeric material, the flexible outer sleeve being non-slidable on the inner element; inserting the inner element into the flexible outer sleeve; and shrinking the flexible outer sleeve over the inner element up to a distal end of the inner element to form the collapse-resistant catheter, wherein when the inner element absorbs liquid, the inner element swells and the one or more indents control a direction of the swelling by causing the inner element to fold inwardly. 19. The method as claimed in claim 18 , further comprising a step of bonding the flexible outer sleeve to the inner element. 20. The method as claimed in claim 19 , wherein the bonding step comprises RF tipping.