RU97116616A - METHOD FOR PRODUCING A STENT - Google Patents

Claims (63)

1. A method of manufacturing a stent, comprising a) cutting out a plurality of patterns of stent configurations in a flat metal blank, each of these configurations having a first long side and a second long side, wherein said first long side is provided with a plurality of pairs of contact recesses, said second long side provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions are substantially opposed to from each other, each of said plurality of pairs of said contact recesses comprises a first contact recess and a second contact recess, said contact recesses are so sized and arranged to receive and come into contact with said contact protrusions when said configuration is deformed and rolled, giving it a tubular shape, each pair of said contact recesses is provided with a jumper located between said first contact recess and said second contact m deepening; b) the formation in the specified metal sheet of multiple holes for alignment; C) giving the specified configuration a tubular shape by deformation so that said pairs of contact recesses come into contact with said pairs of contact protrusions; d) cutting said jumper; and e) attaching each of said contact recesses to a contact protrusion with which it comes into contact to form said expandable stent.  2. The method according to claim 1, further comprising providing said sheet with a plurality of alignment holes.  3. The method according to claim 1, in which operation g) is carried out using a laser.  4. The method according to claim 1, in which the operation e) is carried out using welding.  5. The method according to p. 4, in which operation e) is carried out using the passage when performing the main weld, which is offset from the point at which said contact recesses and said contact protrusions come into contact with each other.  6. The method according to p. 5, in which the specified passage when performing the main weld is offset by approximately 0.01 mm from the point at which said contact recesses and said contact protrusions come into contact with each other.  7. The method according to claim 4, in which said welding is spot welding.  8. The method of claim 7, wherein a plurality of weld points are used.  9. The method of claim 8, in which five weld points are used.  10. The method according to claim 1, in which the operation e) is carried out using an adhesive.  11. The method according to claim 1, in which the operation e) is carried out using an element similar to a nail. 12. A method of manufacturing a stent, comprising
a) cutting out many patterns of stent configurations in a flat metal blank, each of these patterns containing many flexible connected cells, with each of the flexible cells containing a) a first element having a longitudinal component that has a first end and a second end; b) a second element having a longitudinal component that has a first end and a second end; c) a third element having a longitudinal component that has a first end and a second end; d) a fourth element having a longitudinal component that has a first end and a second end; e) a first loop defining a first angle located between said first end of said first element and said first end of said first element; e) a second loop defining a second angle located between said second end of said third element and said second end of said fourth element and generally located opposite said first loop; g) a first flexible compensating element or flexible connection having a first end and a second end located between said first element and said third element, said first end of said first flexible compensating element or flexible connection being in communication with said second end of said first element, and said the second end of the specified first flexible compensating element or flexible communication is communicated with the specified first end of the specified third element, while the specified first and specified the second ends are located at a modifiable longitudinal distance from each other; h) a second flexible compensating element or flexible connection having a first end and a second end located between said second element and said fourth element, said first end of said second flexible compensating element or flexible connection being in communication with said second end of said second element, and said the second end of the specified second flexible compensating element or flexible communication is communicated with the specified first end of the specified fourth element, while the specified first and decree said second ends are arranged at a variable longitudinal distance from each other, said first and said second flexible compensating elements or flexible bonds are susceptible to different expansion or contraction when said stent is bent in a curved direction from the longitudinal axis of said hole; and i) said first, said second, said third and said fourth elements and said first and said second loops, and said first and said second flexible compensating elements or flexible connections are arranged so that when said stent is expanded, the distance between said first and said second flexible compensating elements or flexible bonds increased, and said longitudinal component of said first, second, third, and fourth elements decreased while said first and the aforementioned second loop, as a rule, remain opposite each other, while the ends of the specified first and specified second flexible compensating elements or flexible connections are opened so as to increase the specified, modifiable longitudinal distance between the specified first and specified second ends of the specified first flexible compensating element or flexible connection, and so as to increase said, modifiable, longitudinal distance between said first and said second ends of said second flexible compensating member or flexible link so as to compensate for the decrease of said longitudinal component of said first, second, third, and fourth members and substantially reduce said shortening of the stent during expansion; each of said plurality of stent configurations has a first long side and a second long side, wherein said first long side is provided with a plurality of pairs of contact recesses, said second long side is provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions located essentially opposite each other, each of the specified set of pairs of these contact recesses has a first contact recess and a second the contact groove, said contact grooves are so sized and arranged to receive and come into contact with said contact protrusions when said configuration is deformed and rolled into a tubular shape, each pair of said contact grooves is provided with a jumper located between said first contact groove and the specified second contact recess;
b) deformation of the indicated configuration into a tubular shape so that said pairs of contact recesses come into contact with said pairs of contact protrusions;
c) cutting said jumper; and
d) the attachment of each of these contact recesses to the contact ledge with which it comes into contact to form the specified, expandable stent.  13. The method according to item 12, further providing for the specified flat metal sheet with many holes for alignment.  14. The method of claim 12, wherein said first loop, said second loop, said first flexible compensating element, and said second flexible compensating element is wider than said first, second, third, and fourth elements.  15. The method of claim 14, wherein said first and said second flexible compensating elements are wider than said first, second, third and fourth elements, and said first and said second loops are wider than said first and said second flexible compensating elements.  16. The method of claim 15, wherein said first and said second loops have a width that is approximately 40% greater than the width of said first, second, third and fourth elements, and said first and said second flexible compensating elements have a width that is approximately 20% more than the width of the indicated first, second, third and fourth elements.  17. The method according to p. 12, in which operation c) is carried out using a laser.  18. The method according to p. 12, in which the operation g) is carried out using welding.  19. The method according to p. 18, in which operation g) is carried out using the passage when performing the main weld, which is offset from the point at which said contact recesses and said contact protrusions come into contact with each other.  20. The method according to p. 19, in which the specified passage when performing the main weld is offset by approximately 0.01 mm from the point at which said contact recesses and said contact protrusions come into contact with each other.  21. The method of claim 18, wherein said welding is spot welding.  22. The method of claim 21, wherein a plurality of weld points are used.  23. The method according to p. 22, in which five weld points are used.  24. The method according to p. 12, in which the operation g) is carried out using an adhesive.  25. The method according to p. 12, in which the operation g) is carried out using an element similar to a nail.  26. A sheet for manufacturing a stent having a longitudinal cavity containing a flat metal blank provided with a plurality of stent configurations, each of these configurations having a first long side and a second long side, said first long side provided with a plurality of pairs of contact recesses, said second long the side is provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions are arranged substantially opposite each other, each of said pairs of said recesses has a first contact recess and a second contact recess, said contact recesses are sized and arranged to receive and come into contact with said contact protrusions when said configuration is deformed and rolled into a tubular shape , each pair of said contact recesses is provided with a jumper located between said first contact recess and said second contact recess.  27. The sheet of claim 26, further comprising a plurality of alignment holes located on said sheet. 28. Sheet for the manufacture of a stent having a longitudinal cavity containing
a) a flat metal blank provided with a plurality of patterns of stent configurations, each of which has a plurality of flexible connected cells, each of the flexible cells containing a) a first element having a longitudinal component that has a first end and a second end; b) a second element having a longitudinal component that has a first end and a second end; c) a third element having a longitudinal component that has a first end and a second end; d) a fourth element having a longitudinal component that has a first end and a second end; e) a first loop defining a first angle located between said first end of said first element and said first end of said first element; e) a second loop defining a second angle located between said second end of said third element and said second end of said fourth element and generally located opposite said first loop; g) a first flexible compensating element or flexible connection having a first end and a second end located between said first element and said third element, said first end of said first flexible compensating element or flexible connection being in communication with said second end of said first element, and said the second end of the specified first flexible compensating element or flexible communication is communicated with the specified first end of the specified third element, while the specified first and specified the second ends are located at a modifiable longitudinal distance from each other; h) a second flexible compensating element or flexible connection having a first end and a second end located between said second element and said fourth element, said first end of said second flexible compensating element or flexible connection being in communication with said second end of said second element, and said the second end of the specified second flexible compensating element or flexible communication is communicated with the specified first end of the specified fourth element, while the specified first and decree said second ends are arranged at a variable longitudinal distance from each other, said first and said second flexible compensating elements or flexible bonds are susceptible to different expansion or contraction when said stent is bent in a curved direction from the longitudinal axis of said hole; and i) said first, said second, said third and said fourth elements and said first and said second loops, and said first and said second flexible compensating elements or flexible connections are arranged so that when said stent is expanded, the distance between said first and said second flexible compensating elements or flexible bonds increased, and said longitudinal component of said first, second, third, and fourth elements decreased while said first and the aforementioned second loop, as a rule, remain opposite each other, while the ends of the specified first and specified second flexible compensating elements or flexible connections are opened so as to increase the specified, modifiable longitudinal distance between the specified first and specified second ends of the specified first flexible compensating element or flexible connection, and so as to increase said, modifiable, longitudinal distance between said first and said second ends of said second flexible compensating member or flexible link so as to compensate for the decrease of said longitudinal component of said first, second, third, and fourth members and substantially reduce said shortening of the stent during expansion; each of said plurality of stent configurations has a first long side and a second long side, wherein said first long side is provided with a plurality of pairs of contact recesses, said second long side is provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions located essentially opposite each other, each of the specified set of pairs of these contact recesses has a first contact recess and a second the contact groove, said contact grooves are so sized and arranged to receive and come into contact with said contact protrusions when said configuration is deformed and rolled into a tubular shape, each pair of said contact grooves is provided with a jumper located between said first contact groove and the specified second contact recess.  29. The sheet of claim 28, further comprising a plurality of alignment holes located on said flat metal sheet.  30. The sheet of claim 28, wherein said first loop, said second loop, said first flexible compensating element, and said second flexible compensating element is wider than said first, second, third, and fourth elements.  31. The sheet according to claim 30, wherein said first and said second flexible compensating elements are wider than said first, second, third and fourth elements, and said first and said second loop are wider than said first and said second flexible compensating elements.  32. The sheet of claim 31, wherein said first and said second loops have a width that is approximately 40% greater than the width of said first, second, third and fourth elements, and said first and said second flexible compensating elements have a width that is approximately 20% more than the width of the indicated first, second, third and fourth elements.  33. An expandable stent having a longitudinal cavity comprising a) a first long side and a second long side, said first long side is provided with a plurality of pairs of contact recesses, said second long side is provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions are substantially opposite each other, said plurality of contact recesses are of such dimensions and arranged to receive inputs contacting said contact protrusions, said contact recesses are attached to said contact protrusions.  34. A stent according to claim 33, wherein said contact recesses are joined by welding.  35. The stent according to claim 34, wherein said welding is offset from a point at which said contact recesses and said contact protrusions come into contact with each other.  36. The stent of claim 35, wherein said welding is offset approximately 0.01 mm from a point at which said contact recesses and said contact protrusions come into contact with each other.  37. The stent according to claim 34, wherein said welding is spot welding.  38. A stent according to claim 37, wherein a plurality of weld points are used.  39. The stent according to claim 38, in which five weld points are used.  40. The stent according to claim 33, wherein said contact recesses are attached to said contact protrusions by means of an adhesive.  41. A stent according to claim 33, wherein said contact recesses are attached to said contact protrusions by means of a nail-like element.  42. An expandable stent having a longitudinal cavity, comprising a) a stent configuration having a plurality of flexible connected cells, each of the flexible cells having a) a first element having a longitudinal component that has a first end and a second end; b) a second element having a longitudinal component that has a first end and a second end; c) a third element having a longitudinal component that has a first end and a second end; d) a fourth element having a longitudinal component that has a first end and a second end; e) a first loop defining a first angle located between said first end of said first element and said first end of said first element; e) a second loop defining a second angle located between said second end of said third element and said second end of said fourth element and generally located opposite said first loop; g) a first flexible compensating element or flexible connection having a first end and a second end located between said first element and said third element, said first end of said first flexible compensating element or flexible connection being in communication with said second end of said first element, and said the second end of the specified first flexible compensating element or flexible communication is communicated with the specified first end of the specified third element, while the specified first and specified the second ends are located at a modifiable longitudinal distance from each other; h) a second flexible compensating element or flexible connection having a first end and a second end located between said second element and said fourth element, said first end of said second flexible compensating element or flexible connection being in communication with said second end of said second element, and said the second end of the specified second flexible compensating element or flexible communication is communicated with the specified first end of the specified fourth element, while the specified first and decree said second ends are arranged at a variable longitudinal distance from each other, said first and said second flexible compensating elements or flexible bonds are susceptible to different expansion or contraction when said stent is bent in a curved direction from the longitudinal axis of said hole; and i) said first, said second, said third and said fourth elements and said first and said second loops, and said first and said second flexible compensating elements or flexible connections are arranged so that when said stent is expanded, the distance between said first and said second flexible compensating elements or flexible bonds increased, and said longitudinal component of said first, second, third, and fourth elements decreased while said first and the aforementioned second loop, as a rule, remain opposite each other, while the ends of the specified first and specified second flexible compensating elements or flexible connections are opened so as to increase the specified, modifiable, the longitudinal distance between the specified first and specified second ends of the specified first flexible compensating element or flexible connection, and so as to increase said, modifiable, longitudinal distance between said first and said second ends of said second flexible compensating member or flexible link so as to compensate for the decrease of said longitudinal component of said first, second, third, and fourth members and substantially reduce said shortening of the stent during expansion; said stent configuration has a first long side and a second long side, wherein said first long side is provided with a plurality of pairs of contact recesses, said second long side is provided with a plurality of pairs of contact protrusions, said plurality of pairs of contact recesses and said plurality of pairs of contact protrusions are arranged substantially opposite each other, each of said plurality of pairs of said contact recesses has a first contact recess and a second contact recess Mentioned contact recesses are attached to said engagement protrusions.  43. The stent according to claim 42, wherein said first loop, said second loop, said first flexible compensating element, and said second flexible compensating element is wider than said first, second, third, and fourth elements.  44. The stent according to claim 43, wherein said first and said second flexible compensating elements are wider than said first, second, third and fourth elements, and said first and said second loop are wider than said first and said second flexible compensating elements.  45. The stent according to claim 44, wherein said first and said second loops have a width that is approximately 40% greater than the width of said first, second, third, and fourth elements, and said first and said second flexible compensating elements have a width that is approximately 20% more than the width of the indicated first, second, third and fourth elements.  46. The stent according to claim 42, wherein said contact recesses are joined by welding.  47. The stent according to claim 46, wherein said welding is offset from a point at which said contact recesses and said contact protrusions come into contact with each other.  48. The stent according to claim 47, wherein said welding is offset approximately 0.01 mm from the point at which said contact recesses and said contact protrusions come into contact with each other.  49. The stent according to claim 46, wherein said welding is spot welding.  50. A stent according to claim 49, wherein a plurality of weld points are used.  51. A stent according to claim 50, in which five weld points are used.  52. The stent according to claim 42, wherein said contact recesses are attached to said contact protrusions by an adhesive.  53. The stent of claim 42, wherein said contact recesses are attached to said contact protrusions by means of a nail-like element.  54. The method according to p. 1 of the manufacture of a stent limiting a longitudinal cavity, which allows to obtain a stent in which there is essentially no protrusion of a part of the specified stent into the specified longitudinal cavity when the specified stent expands against the inner wall of the vessel.  55. The method according to p. 12 of the manufacture of a stent restricting a longitudinal cavity, which allows to obtain a stent in which there is essentially no protrusion of a portion of the specified stent into the specified longitudinal cavity when expanding the specified stent against the inner wall of the vessel.  56. The sheet according to p. 26 for the manufacture of a stent having a longitudinal cavity, in which the specified configuration of the stent is made so that when expanding the specified stent, there is essentially no protrusion of part of the specified stent into the specified longitudinal cavity when expanding the specified stent against the inner wall of the vessel.  57. The sheet according to p. 28 for the manufacture of a stent having a longitudinal cavity, in which the specified configuration of the stent is made so that when the specified stent is expanded, there is essentially no protrusion of the specified stent into the specified longitudinal cavity when the specified stent is expanded against the inner wall of the vessel.  58. The sheet according to p. 26 for the manufacture of a stent, in which the specified configuration of the stent is made so that when expanding the specified stent against the inner wall of the vessel there is essentially no protrusion of part of the specified stent in the specified longitudinal cavity of the specified stent.  59. The sheet according to p. 42 for the manufacture of a stent, in which the specified configuration of the stent is made so that when expanding the specified stent against the inner wall of the vessel there is essentially no protrusion of part of the specified stent into the specified longitudinal cavity of the specified stent.  60. An expandable stent having a longitudinal cavity comprising a plurality of parts joined by a plurality of flexible compensating elements, said flexible compensating elements protruding from the outer surface of said stent when said stent is not expanded, and substantially connected to the remaining parts of said stent, when the specified stent is expanded against the inner walls of the blood vessel.  61. The stent according to claim 60, formed essentially from a flat sheet.  62. An expandable stent having a longitudinal cavity, comprising a plurality of parts connected by a plurality of flexible compensating elements, in which there is essentially no protrusion of a part (said stent) into said cavity when said stent is expanded against the inner wall of a blood vessel.  63. The stent according to claim 62, formed essentially from a flat sheet.