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US20010000798A1 - Intravascular flow modifier and reinforcement device - Google Patents

Intravascular flow modifier and reinforcement device
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Publication number
US20010000798A1
US20010000798A1US09/747,456US74745600AUS2001000798A1US 20010000798 A1US20010000798 A1US 20010000798A1US 74745600 AUS74745600 AUS 74745600AUS 2001000798 A1US2001000798 A1US 2001000798A1
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United States
Prior art keywords
loops
shape memory
wire
longitudinal sections
longitudinal
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US09/747,456
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US6416541B2 (en
Inventor
Andrew Denardo
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Individual
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Priority to US09/747,456priorityCriticalpatent/US6416541B2/en
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Priority to US10/122,257prioritypatent/US20020173839A1/en
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Abstract

An intravascular flow modifier and vascular reinforcement for treatment of aneurysms is formed of a single loop of wire formed into a series of transverse loops and longitudinal connecting sections to configure an essentially cylindrical reinforcement device that still allows, if desired, access to the neck of an aneurysm for insertion of embolic coils and the like.

Description

Claims (73)

I claim:
1. An intravascular flow modifier and vascular reinforcement device to be used in the intravascular treatment of blood vessels, comprising:
an elongate section of resilient material formed into a generally cylindrical device in which the two free ends are parallel to one another and extend distally from a proximal end of the device, thereafter transitioning at a first predetermined point to a first essentially circumferential loop for a distance less than half of the circumference of the device, thereafter transitioning to a longitudinal section of said wire for a predetermined length to a second predetermined point, thereafter transitioning to a second essentially circumferential loop and proceeding similarly to the distal end of the device.
2. The device of
claim 1
wherein said wire is made of a superelastic material.
3. The device of
claim 1
wherein said device is made of a shape memory material.
4. The device of
claim 2
, wherein the superelastic material is a nickel-titanium alloy.
5. The device of
claim 3
, wherein said shape memory material is a nickel titanium alloy.
6. The device of
claim 3
, wherein said shape memory material is a shape memory polymer.
7. The device of
claim 1
, wherein the free ends of the device are attached to deployment means at the distal end of a pusher for deploying said device in the vasculature of a patient.
8. The device of
claim 1
wherein the longitudinal sections of the wire from which the device is formed are parallel to one another and to the longitudinal axis of the device and are spaced apart by a predetermined distance.
9. The device of
claim 1
, wherein said circumferential loops are spaced apart distally along the device by a predetermined distance sufficient to allow passage of an embolic coil between said loops.
10. The device of
claim 1
, wherein said longitudinal sections are angled to one another to thereby provide an essentially trapezoidal opening in said device.
11. The device of
claim 1
wherein the lengths of said longitudinal sections are varied to vary the number of loops contained within a given length of the device.
12. The device of
claim 1
wherein the diameter of said loops is varied to allow said device to modify the blood flow characteristics in the vessel in which the device is placed.
13. The device of
claim 1
, wherein said loops are of different radii from one another.
14. The device of
claim 1
, wherein said device is formed of a length of material having a non-circular cross section.
15. The device of
claim 1
, wherein said circumferential loops are formed into an arcuate curve, the radius of said curve varying over the length of the loop.
16. The device of
claim 1
, wherein the transition to the circumferential loop to the longitudinal sections has a predetermined radius.
17. The device of
claim 1
, wherein the distal end of the device is a loop comprising a continuous loop extending from the most distal longitudinal sections.
18. The device of
claim 2
, wherein said wire is a stranded cable.
19. An intravascular flow modifier and vascular reinforcement device to be used in the treatment of vascular malformations, comprising;
a plurality of semi-circular loops formed from a long slender piece of resilient material, said resilient material being formed into a series of essentially longitudinal sections between said loops, said longitudinal section connecting said semi-circular loops, said longitudinal sections including radii at the transitions between said longitudinal sections and said semi-circular loops, said longitudinal sections and said semi-circular loops proceeding distally from a proximal point to the distal end of said device, whereby said semi-circular loops and said longitudinal elements combine to form an essentially cylindrical reinforcement for use in a damaged portion of the vasculature.
20. The device of
claim 18
wherein said wire is made of a superelastic material.
21. The device of
claim 18
wherein said device is made of a shape memory material.
22. The device of
claim 18
, wherein the superelastic material is a nickel-titanium alloy.
23. The device of
claim 18
, wherein said shape memory material is a nickel titanium alloy.
24. The device of
claim 18
, wherein said shape memory material is a shape memory polymer.
25. The device of
claim 19
, wherein said long slender piece of resilient material is a stranded cable.
26. The device of
claim 25
, wherein said stranded cable comprises at least one strand of superelastic material.
27. The device of
claim 19
, wherein the free ends of the device are attached to deployment means at the distal end of a pusher for deploying said device in the vasculature of a patient.
28. The device of
claim 19
wherein the longitudinal sections of the wire from which the device is formed are parallel to one another and to the longitudinal axis of the device and are spaced apart by a predetermined distance.
29. The device of
claim 19
, wherein said circumferential loops are spaced apart distally along the device by a predetermined distance sufficient to allow passage of an embolic coil between said loops.
30. The device of
claim 19
, wherein said longitudinal sections are angled to one another to thereby provide an essentially trapezoidal opening in said device.
31. The device of
claim 19
wherein the lengths of said longitudinal sections are varied to vary the number of loops contained within a given length of the device.
32. The device of
claim 19
wherein the diameter of said loops is varied to allow said device to modify the blood flow characteristics in the vessel in which the device is placed.
33. The device of
claim 19
, wherein said loops are of different radii from one another.
34. The device of
claim 19
, wherein said device is formed of a length of material having a non-circular cross section.
35. The device of
claim 19
, wherein said circumferential loops are formed into an arcuate curve, the radius of said curve varying over the length of the loop.
36. The device of
claim 19
, wherein the transition to the circumferential loop to the longitudinal sections has a predetermined radius.
37. The device of
claim 19
, wherein the distal end of the device is a loop comprising a continuous loop extending from the most distal longitudinal sections.
38. An intravascular flow modifier and vascular reinforcement to be used in the treatment of aneurysms, comprising:
a plurality of pairs of longitudinal elements connecting semi-circular loops, the loops and longitudinal sections being formed of a single wire, progressing from a pair of longitudinal elements proximal to the device and extending distally to define an essentially cylindrical reinforcement;
said longitudinal elements spaced apart and said cylindrical elements spaced apart to provide openings through which a vasoocclusive device or material can be introduced from an area inside said device to an area outside this said device and within an aneurysm to be treated, said device being capable of being formed into an essentially linear configuration for insertion into a guiding catheter, and:
a release means at the proximal end of said device attaching said device to a pusher within the catheter and which may be used to push the device out of the catheter when the catheter has reached a predetermined position within the vasculature.
39. The device of
claim 38
wherein said wire is made of a superelastic material.
40. The device of
claim 38
wherein said device is made of a shape memory material.
41. The device of
claim 38
, wherein the superelastic material is a nickel-titanium alloy.
42. The device of
claim 38
, wherein said shape memory material is a nickel titanium alloy.
43. The device of
claim 38
, wherein said shape memory material is a shape memory polymer.
44. The device of
claim 38
, wherein the free ends of the device are attached to deployment means at the distal end of a pusher for deploying said device in the vasculature of a patient.
45. The device of
claim 38
wherein the longitudinal sections of the wire from which the device is formed are parallel to one another and to the longitudinal axis of the device and are spaced apart by a predetermined distance.
46. The device of
claim 38
, wherein said circumferential loops are spaced apart distally along the device by a predetermined distance sufficient to allow passage of an embolic coil between said loops.
47. The device of
claim 38
, wherein said longitudinal sections are angled to one another to thereby provide an essentially trapezoidal opening in said device.
48. The device of
claim 38
wherein the lengths of said longitudinal sections are varied to vary the number of loops contained within a given length of the device.
49. The device of
claim 38
wherein the diameter of said loops is varied to allow said device to modify the blood flow characteristics in the vessel in which the device is placed.
50. The device of
claim 38
, wherein said loops are of different radii from one another.
51. The device of
claim 38
, wherein said device is formed of a length of material having a non-circular cross section.
52. The device of
claim 38
, wherein said device is formed from a multistranded cable.
53. The device of
claim 52
, wherein said multistranded cable includes at least one strand made of a nickel-titanium alloy.
54. The device of
claim 38
, wherein said circumferential loops are formed into an arcuate curve, the radius of said curve varying over the length of the loop.
55. The device of
claim 38
, wherein the transition to the circumferential loop to the longitudinal sections has a predetermined radius.
56. The device of
claim 38
, wherein the distal end of the device is a loop comprising a continuous loop extending from the most distal longitudinal sections.
57. A method of manufacturing an intravascular flow modifier and reinforcement device for use in the treatment of aneurysms, comprising:
forming a mandrel of heat resistant material into an essentially cylindrical shape representing the interior diameter of the device to be formed;
inserting into said mandrel a series of pegs projecting from the surface of the mandrel and representing the transition points between semi-circular loop portions of the device and longitudinal portions of the device;
winding a wire about said pegs from a proximal position to a distal position and back to a proximal position to thereby form a device containing semi-circular loops and longitudinal portions and to form an essentially cylindrical device; and
heat treating said device to a predetermined temperature to provide desired material characteristics.
58. The device of
claim 57
wherein said wire is made of a superelastic material.
59. The device of
claim 57
wherein said device is made of a shape memory material.
60. The device of
claim 57
, wherein the superelastic material is a nickel-titanium alloy.
61. The device of
claim 57
, wherein said shape memory material is a nickel titanium alloy.
62. The device of
claim 57
, wherein said shape memory material is a shape memory polymer.
63. The device of
claim 57
, wherein said wire is a stranded cable.
64. The device of
claim 63
, wherein said stranded cable includes at least one strand of a nickel-titanium alloy.
65. The device of
claim 57
, wherein the free ends of the device are attached to deployment means at the distal end of a pusher for deploying said device in the vasculature of a patient.
66. A method of manufacture for a device to use as an intravascular flow modifier and aneurysm treatment comprising:
forming an essentially cylindrical mandrel, the outside diameter of which represents the outside diameter of the device;
forming grooves in the mandrel that are approximately the depth of the wire to be used in fabricating the device and which represent the pattern of semi-circular loops and longitudinal elements of the device;
winding a wire element into the grooves to form the pattern of semicircular loops and longitudinal elements comprising the configuration of the device; and
heat treating the wire to obtain a desired combination of resilience and flexibility.
67. The device of
claim 66
wherein said wire is made of a multistranded cable.
68. The device of
claim 66
wherein said wire is a superelastic material.
69. The device of
claim 59
wherein said device is made of a shape memory material.
70. The device of
claim 66
, wherein the superelastic material is a nickel-titanium alloy.
71. The device of
claim 66
, wherein said shape memory material is a nickel titanium alloy.
72. The device of
claim 66
, wherein said shape memory material is a shape memory polymer.
73. The device of
claim 66
, wherein the free ends of the device are attached to deployment means at the distal end of a pusher for deploying said device in the vasculature of a patient.
US09/747,4561998-07-242000-12-22Intravascular flow modifier and reinforcement deviceExpired - LifetimeUS6416541B2 (en)

Priority Applications (2)

Application NumberPriority DateFiling DateTitle
US09/747,456US6416541B2 (en)1998-07-242000-12-22Intravascular flow modifier and reinforcement device
US10/122,257US20020173839A1 (en)1998-07-242002-04-12Intravascular flow modifier and reinforcement device with connected segments

Applications Claiming Priority (2)

Application NumberPriority DateFiling DateTitle
US09/122,243US6165194A (en)1998-07-241998-07-24Intravascular flow modifier and reinforcement device
US09/747,456US6416541B2 (en)1998-07-242000-12-22Intravascular flow modifier and reinforcement device

Related Parent Applications (1)

Application NumberTitlePriority DateFiling Date
US09/122,243DivisionUS6165194A (en)1998-07-241998-07-24Intravascular flow modifier and reinforcement device

Related Child Applications (1)

Application NumberTitlePriority DateFiling Date
US10/122,257Continuation-In-PartUS20020173839A1 (en)1998-07-242002-04-12Intravascular flow modifier and reinforcement device with connected segments

Publications (2)

Publication NumberPublication Date
US20010000798A1true US20010000798A1 (en)2001-05-03
US6416541B2 US6416541B2 (en)2002-07-09

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US09/122,243Expired - LifetimeUS6165194A (en)1998-07-241998-07-24Intravascular flow modifier and reinforcement device
US09/747,456Expired - LifetimeUS6416541B2 (en)1998-07-242000-12-22Intravascular flow modifier and reinforcement device

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Application NumberTitlePriority DateFiling Date
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EP (1)EP1143878B1 (en)
JP (1)JP2002521088A (en)
AT (1)ATE324842T1 (en)
AU (1)AU5214799A (en)
DE (1)DE69931189D1 (en)
WO (1)WO2000004845A2 (en)

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EP1143878A2 (en)2001-10-17
EP1143878B1 (en)2006-05-03
US6416541B2 (en)2002-07-09
DE69931189D1 (en)2006-06-08
WO2000004845A3 (en)2001-10-25
WO2000004845A2 (en)2000-02-03
ATE324842T1 (en)2006-06-15
JP2002521088A (en)2002-07-16

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