The present application generally relates to vascular remodeling devices and to the manner of their positioning in vessels, including their positioning at the junction of neurovascular bifurcations having an aneurysm, and the use of such devices to treat an aneurysm.
Neurovascular or cerebral aneurysms affect about 5% of the population. Aneurysms may be located, for example, along arterial side walls (e.g., the aneurysm 10 illustrated in
In order to inhibit such herniation, tubular neck remodeling devices, for example Neuroform®, available from Boston Scientific, and Enterprise™, available from Cordis Neurovascular, may be used to keep coils or other materials within the fundus of the aneurysm and out of the vessels. Tubular remodeling devices generally consist of a braided wire or cut metallic stent or stents covering the neck of the aneurysm. As illustrated in
The present disclosure includes, without limitation, the following embodiments. Various embodiments of the subject technology are described as numbered clauses (1, 2, 3, etc.) for convenience. These are provided as examples, and do not limit the subject technology or the present disclosure. It is noted that any of the dependent clauses may be combined in any combination, and placed into a respective independent clause. The other clauses can be presented in a similar manner.
1. A vascular remodeling device, comprising:
an anchor portion radially expandable from a collapsed state to an expanded state in a blood vessel such that, when expanded, the anchor portion engages a wall of the vessel, the anchor portion having a longitudinal axis and a first waist comprising the radially largest region of the anchor portion in the expanded state;
a distal portion radially expandable from a collapsed state to an expanded state in a blood vessel and having a second waist comprising the radially largest region of the distal portion in its expanded state, the distal portion having a distal face located distal to the second waist; and
an intermediate portion that couples a distal end of the anchor portion and a proximal end of the distal portion at about the longitudinal axis, the intermediate portion comprising the radially narrowest region of the device between the first waist and the second waist, the distal portion being pivotable radially away from the longitudinal axis about the intermediate portion.
2. The device of clause 1, wherein the intermediate portion is confined within a radially central region of the device.
3. The device of clause 1, wherein the intermediate portion is radially narrower than the first waist and the second waist.
4. The device of clause 1, wherein the distal portion comprises a plurality of distal struts that extend longitudinally and radially outwardly toward the second waist.
5. The device of clause 4, wherein the distal struts extend longitudinally and radially outwardly from the intermediate portion toward the second waist, and further extend longitudinally and radially inwardly from the second waist toward a radially central region of the device.
6. The device of clause 4, wherein the distal struts each have a proximal end and a distal end, and the distal struts are not joined to each other along their lengths between their proximal and distal ends.
7. The device of clause 4, wherein the distal struts extend longitudinally and radially inwardly from the second waist to form the distal face of the distal portion.
8. The device of clause 7, wherein the distal struts forming the distal face of the distal portion have widened portions.
9. The device of clause 8, wherein the widened portions of the distal struts are wider than a width of distal struts forming a proximal face of the distal portion, the proximal face located proximal to the second waist.
10. The device of clause 8, wherein each of the widened portions of the distal struts further comprises a first and second ramp, wherein the first ramp extends from an edge of its respective strut to an edge of the widened portion, and the second ramp extends from the edge of the widened portion to the edge of the respective strut.
11. The device of clause 4, wherein the distal struts taper inwardly as they extend proximally from the second waist toward the intermediate portion.
12. The device of clause 4, wherein a proximal end of each distal strut is joined to the intermediate portion.
13. The device of clause 1, wherein the anchor portion comprises a plurality of anchor struts that extend longitudinally and radially outwardly toward the first waist and the distal portion comprises a plurality of distal struts that extend longitudinally and radially outward toward the second waist.
14. The device of clause 1, wherein the anchor portion and distal portion are able to pivot multiaxially relative to each other at or near the intermediate portion.
15. The device of clause 1, wherein the anchor portion, intermediate portion, and distal portion are formed from a single sheet or tube of material.
16. The device of clause 15, wherein the intermediate portion comprises an uncut portion of the single sheet or tube of material.
17. The device of clause 15, wherein the anchor portion and distal portion are able to pivot multiaxially relative to each other without plastic deformation of the intermediate portion.
18. The device of clause 1, wherein the distal face, when positioned adjacent an aneurysm, at least one of (a) supports a therapeutically effective amount and/or density of at least one filling material and/or device in the aneurysm, (b) promotes thrombogenesis, and (c) diverts flow from the aneurysm.
19. A vascular remodeling device, comprising:
an anchor portion sized for deployment in a blood vessel, the anchor portion radially expandable from a collapsed state to an expanded state such that, when expanded in a blood vessel, the anchor portion engages a wall of the vessel, the anchor portion having a longitudinal axis and a first waist comprising the radially largest region of the anchor portion when in the expanded state;
a distal portion sized and configured for deployment in a junction of two or more human blood vessels, the distal portion radially expandable from a collapsed state to an expanded state and having a second waist comprising the radially largest region of the distal portion when in the expanded state, the distal portion having a distal face, located distal to the second waist, sized and configured to occlude an aneurysm adjacent the junction when the second waist is in the junction and the distal portion is in the expanded state; and
an intermediate portion that interconnects a distal end of the anchor portion and a proximal end of the distal portion, the intermediate portion being the radially narrowest region of the device between the first waist and the second waist, the anchor portion and distal portion being able to pivot relative to each other at or near the intermediate portion.
20. The device of clause 19, wherein the intermediate portion comprises a radially central region of the device.
21. The device of clause 19, wherein the intermediate portion is radially narrower than the first waist and the second waist.
22. The device of clause 19, wherein the distal portion comprises a plurality of distal struts that extend radially outward toward the second waist.
23. The device of clause 22, wherein the distal struts extend distally away and radially outwardly from the intermediate portion toward the second waist, and further extend distally away and radially inwardly from the second waist toward a radially central region of the device.
24. The device of clause 22, wherein the distal struts each have a proximal end and a distal end, and the struts are not joined to each other anywhere along their length between their proximal and distal ends.
25. The device of clause 22, wherein the distal struts extend distally and radially inwardly from the second waist to form the distal face of the distal portion.
26. The device of clause 25, wherein the distal struts forming the distal face of the distal portion have widened portions, the widened portions configured to increase an occlusiveness of the distal face.
27. The device of clause 22, wherein the struts taper inward as they extend proximally from the second waist toward the intermediate portion.
28. The device of clause 22, wherein a proximal end of each strut is joined to the intermediate portion.
29. The device of clause 19, wherein the anchor portion comprises a plurality of anchor struts that extend radially outward toward the first waist and the distal portion comprises a plurality of distal struts that extend radially outward toward the second waist.
30. The device of clause 29, wherein the distal struts are independent of the anchor struts.
31. The device of clause 19, wherein the anchor portion and distal portion are able to pivot multiaxially relative to each other.
32. The device of clause 19, wherein:
the anchor portion forms a distal face located distal to the first waist;
the distal portion forms a proximal face located proximal to the second waist;
the distal face of the anchor portion tapers radially inward as it extends distally from the first waist to join the intermediate portion; and
the proximal face of the distal portion tapers radially inward as it extends proximally from the second waist to join the intermediate portion.
33. The device of clause 32, wherein the intermediate portion is confined in a radially central region of the device.
34. The device of clause 32, wherein the intermediate portion is radially narrower than the first waist and the second waist.
35. The device of clause 32, wherein the proximal face of the distal portion comprises a plurality of radially expandable distal struts and the distal face of the anchor portion comprises a plurality of radially expandable anchor struts.
36. The device of clause 35, wherein the intermediate portion, the anchor struts, and the distal struts are all formed from a single sheet or tube of material.
37. The device of clause 36, wherein the intermediate portion comprises an uncut portion of the single sheet or tube of material.
38. The device of clause 37, wherein the anchor portion and distal portion are able to pivot multiaxially relative to each other without plastic deformation of the intermediate portion.
39. The device of clause 19, wherein the anchor portion, intermediate portion, and distal portion are all formed from a single sheet or tube of material.
40. The device of clause 19, wherein:
the anchor portion forms a distal face located distal to the first waist;
the distal portion forms a proximal face located proximal to the second waist; and
both the distal face of the anchor portion and the proximal face of the distal portion are less occlusive than the distal face of the distal portion.
41. The device of clause 40, wherein the anchor portion forms a proximal face located proximal to the first waist, and the proximal face of the anchor portion is less occlusive than the distal face of the distal portion.
42. The device of clause 40, wherein the distal face of the anchor portion and the proximal face of the distal portion are configured not to impede blood flow significantly.
43. The device of clause 40, wherein the distal face of the distal portion is sufficiently occlusive in the distal-to-proximal direction to perform a therapeutic blocking function at the aneurysm.
44. The device of clause 19, wherein the distal face, when positioned adjacent the aneurysm, at least one (a) supports a therapeutically effective amount or density of aneurysm-filling materials or devices in an aneurysm, (b) promotes thrombogenesis, and (c) diverts flow.
45. A vascular remodeling device, comprising:
an anchor portion comprising a plurality of anchor struts radially expandable from a collapsed state to an expanded state for engaging a wall of a blood vessel;
a distal portion comprising distal struts radially expandable from a collapsed state to an expanded state for a engaging wall of a blood vessel, the distal struts forming a distal face; and
an intermediate portion that connects a distal end of the anchor portion and a proximal end of the distal portion, the intermediate portion being radially narrower than the anchor portion and the distal portion;
wherein at least one of a distal strut and an anchor strut is configured to flex along its length, allowing the distal portion to pivot multiaxially about the intermediate portion and relative to the anchor portion.
46. The device of clause 45, wherein the intermediate portion is radially narrower than the anchor portion and the distal portion.
47. The device of clause 45, wherein the distal struts extend longitudinally and radially outwardly from the intermediate portion to form a waist of the distal portion and extend distally from the waist to converge toward each other.
48. The device of clause 47, wherein the distal struts each have a proximal end and a distal end, and the struts are not joined to each other along their length between their proximal and distal ends.
49. The device of clause 47, wherein the distal struts extend longitudinally and radially inwardly from the waist to form the distal face of the distal portion.
50. The device of clause 49, wherein the distal struts forming the distal face of the distal portion have widened portions, the widened portions configured to increase an occlusiveness of the distal face.
51. The device of clause 50, wherein the widened portions of the distal struts are wider than a width of distal struts forming a proximal face of the distal portion, the proximal face located proximal to the second waist.
52. The device of clause 50, wherein the widened portions of the distal struts further comprise a first and second ramp, wherein the first ramp extends from an edge of the distal strut to an edge of the widened portion, and the second ramp extends from the edge of the widened portion to the edge of the distal strut.
53. The device of clause 47, wherein the distal struts taper inwardly as they extend proximally from the second waist toward the intermediate portion.
54. The device of clause 45, wherein the anchor portion, intermediate portion, and distal portion are all formed from a single sheet or tube of material.
55. The device of clause 54, wherein the intermediate portion comprises an uncut portion of the single sheet or tube of material.
56. The device of clause 55, wherein the anchor portion and distal portion are able to pivot multiaxially relative to each other without plastic deformation of the intermediate portion.
57. A method of treating an aneurysm located near a vascular bifurcation formed at a junction of a parent vessel and multiple branch vessels, the method comprising:
providing a vascular remodeling device comprising an anchor portion, a distal portion, and an intermediate portion that couples the anchor portion to the distal portion;
expanding an engagement region of the distal portion into engagement with a wall of the junction;
orienting the distal portion relative to the aneurysm such that (a) the distal face extends distally from the engagement region, and tapers radially inwardly, toward the aneurysm, and (b) a proximal face of the distal portion extends proximally, and tapers radially inwardly, away from the aneurysm;
tilting, about the intermediate portion, the distal portion relative to the anchor portion;
and
expanding an engagement region of the anchor portion into engagement with the parent vessel to inhibit movement of the distal portion from the junction.
58. The method of clause 57, further comprising leaving the distal portion in a tilted orientation relative to the anchor portion after expanding the engagement region of the distal portion.
59. The method of clause 57, further comprising inhibiting rotation of the distal portion with the expanded anchor portion.
60. The method of clause 57, further comprising allowing blood to flow from the parent vessel, through the anchor portion and the proximal face of the distal portion, and into the branch vessels.
61. The method of clause 60, wherein the anchor portion and the proximal face of the distal portion do not significantly inhibit blood flow.
62. The method of clause 57, further comprising supporting at least one filling material and/or device in the aneurysm with the distal face of the distal portion.
63. The method of clause 62, wherein the distal face of the distal portion comprises a plurality of struts, each strut having widened portions, the widened portions configured to increase an occlusiveness of the distal face.
64. The method of clause 57, further comprising maneuvering the device around a bend of a blood vessel, such that the distal portion and the anchor portion pivot relative to each other at or near the intermediate portion.
65. The method of clause 64, wherein the anchor portion comprises a group of anchor struts and the distal portion comprises a group of distal struts, the anchor struts and distal struts configured to flex at the bend.
66. The method of clause 64, wherein the intermediate portion allows the anchor portion and distal portion to pivot multiaxially relative to each other without substantial plastic deformation of the intermediate portion.
67. A vascular remodeling device, comprising:
an anchor portion radially expandable from a collapsed state to an expanded state such that, when expanded in a blood vessel, the anchor portion engages a wall of the vessel, the anchor portion having a first waist comprising the radially largest region of the anchor portion when in the expanded state;
a distal portion radially expandable from a collapsed state to an expanded state, the distal portion having a longitudinal axis and a second waist comprising the radially largest region of the distal portion when in the expanded state, the distal portion having a distal face located distal to the second waist; and
an intermediate portion that couples a distal end of the anchor portion and a proximal end of the distal portion, the intermediate portion comprising the radially narrowest region of the device between the waists of the anchor and distal portions;
wherein the distal portion comprises a plurality of interconnected distal struts that extend distally from the proximal end of the distal portion such that (a) proximal to the second waist, the struts each (i) diverge from the longitudinal axis and (ii) divide into at least two struts; and (b) distal to the second waist, the struts each (i) merge with an adjacent strut, and (ii) converge toward the longitudinal axis.
68. The device of clause 67, wherein the interconnected distal struts are configured to maintain a three dimensional shape of the anchor portion.
69. The device of clause 67, wherein the interconnected distal struts are configured to prevent the struts from aggregating toward a single side of the blood vessel.
70. The device of clause 67, wherein the interconnected struts are configured to structurally supported each other.
71. The device of clause 67, wherein each strut extends from an origination junction and is divided into a first and second branch, wherein the first branch is connected to a first adjacent strut and the second branch is connected to a second adjacent strut.
72. The device of clause 71, wherein a length of the first branch and a length of the second branch are different.
73. The device of clause 71, wherein a length of the first branch and a length of the second branch are the same.
74. The device of clause 67, wherein at least one strut extends proximally from the intermediate portion and is divided into a first and second branch at or near the waist of the anchor portion, the first branch connected to a first adjacent strut and the second branch connected to a second adjacent strut.
75. The device of clause 74, wherein a length of the first branch and a length of the second branch are different.
76. The device of clause 74, wherein a length of the first branch and a length of the second branch are the same.
77. The device of clause 74, wherein the first and second adjacent struts extend proximally from the waist of the anchor portion toward a radially central region of the device.
78. The device of clause 67, wherein the distal struts extend longitudinally and radially inward from the waist of the distal portion to form the distal face of the distal portion.
79. The device of clause 78, wherein the struts forming the distal face have widened portions with increased cross-sectional widths that increase the occlusiveness of the distal face.
80. The device of clause 79, wherein the widened portions of the struts are each wider than a width of at least one of plurality of struts forming a distal portion proximal face, proximal to the waist of the distal portion.
81. The device of clause 79, wherein the widened portions of the struts further comprise a first and second ramp, wherein the first ramp extends from an edge of the strut to an edge of the widened portion, and the second ramp extends from the edge of the widened portion to the edge of the strut.
82. The device of clause 67, wherein the intermediate portion, the anchor portion, and the distal portion are all formed from a single sheet or tube of material.
83. The device of clause 67, wherein:
the anchor portion forms a distal face located distal to the waist of the anchor portion;
the distal portion forms a proximal face located proximal to the waist of the distal portion; and
both the distal face of the anchor portion and the proximal face of the distal portion are less occlusive than the distal face of the distal portion.
84. The device of clause 83, wherein the anchor portion forms a proximal face located proximal to the waist of the anchor portion, and the proximal face of the anchor portion is less occlusive than the distal face of the distal portion.
85. The device of clause 83, wherein the distal face of the anchor portion and the proximal face of the distal portion are configured such that they do not significantly impede blood flow.
86. The device of clause 67, wherein the distal face is configured to perform a therapeutic blocking function at an aneurysm, the function comprising at least one of (a) supporting maintenance of a therapeutically effective amount and/or density of at least one filling material and/or device in the aneurysm, (b) promoting thrombogenesis, and (c) diverting flow from the aneurysm.
87. A vascular remodeling device, comprising:
an anchor portion sized for deployment in a blood vessel, the anchor portion having a longitudinal axis and being radially expandable from a collapsed state to an expanded state, the anchor portion having a first waist comprising the radially largest region of the anchor portion when in the expanded state;
a distal portion sized and configured for deployment at a junction of two or more blood vessels;
the distal portion being radially expandable from a collapsed state to an expanded state, the distal portion comprising a second waist configured to engage a wall of the junction when the distal portion is in its expanded state, the second waist comprising the radially largest region of the distal portion when the distal portion is in its expanded state;
the distal portion comprising distal struts that form a distal face located distal to the second waist, the distal face configured to face an aneurysm adjacent the junction when the second waist engages the wall and the distal portion is in its expanded state; and
an intermediate portion that couples the anchor portion and the distal portion;
wherein the anchor portion comprises a plurality of interconnected distal struts that extend distally from the proximal end of the anchor portion such that (a) proximal to the first waist, the struts each (i) diverge from the longitudinal axis and (ii) divide into at least two struts; and (b) distal to the first waist, the struts each (i) merge with an adjacent strut, and (ii) converge toward the longitudinal axis.
88. The device of clause 87, wherein the distal face is configured to perform a therapeutic blocking function at the aneurysm, the function comprising at least one of (a) supporting maintenance of a therapeutically effective amount and/or density of at least one filling material and/or device in the aneurysm, (b) promoting thrombogenesis, and (c) diverting flow from the aneurysm.
89. The device of clause 87, wherein the interconnected struts are formed by a first plurality of struts extending from a proximal end of the anchor portion, and a second plurality of struts extending from the distal end of the anchor portion, the first and second plurality being interconnected at the first waist by a third plurality of sub-struts.
90. The device of clause 89, wherein the number of the first plurality of struts equals the number of the second plurality of struts.
91. The device of clause 89, wherein the number of the third plurality of sub-struts is double each of the number of the first plurality of struts and the number of the second plurality of struts.
92. The device of clause 87, wherein the interconnected struts are configured to maintain a three-dimensional shape of the anchor portion.
93. The device of clause 87, wherein the interconnected struts are configured to prevent the struts from moving substantially toward a side of the blood vessel.
94. The device of clause 87, wherein the interconnected struts are configured to support each other structurally.
95. The device of clause 87, wherein each strut has a proximal end, a distal end, and a center portion between the proximal and distal ends, each center portion being connected to adjacent struts.
96. The device of clause 87, wherein each strut extends from an origination junction and is divided into a first and second branch, wherein the first branch is connected to a first adjacent strut and the second branch is connected to a second adjacent strut.
97. The device of clause 96, wherein a length of the first branch and a length of the second branch are different.
98. The device of clause 96, wherein a length of the first branch and a length of the second branch are the same.
99. The device of clause 87, wherein at least one strut extends proximally from the intermediate portion and is divided into a first and second branch at or near the first waist, the first branch connected to a first adjacent strut and the second branch connected to a second adjacent strut.
100. The device of clause 99, wherein a length of the first branch and a length of the second branch are different.
101. The device of clause 99, wherein a length of the first branch and a length of the second branch are the same.
102. The device of clause 99, wherein the first and second adjacent struts extend proximally from the first waist toward a radially central region of the device.
103. The device of clause 87, wherein the distal portion comprises a plurality of interconnected distal struts, wherein the distal struts extend longitudinally and radially inward from the second waist to form the distal face of the distal portion.
104. The device of clause 103, wherein the struts forming the distal face of the distal portion have widened portions, the widened portions configured to increase the occlusiveness of the distal face.
105. The device of clause 104, wherein the widened portions of the struts are wider than a width of struts forming a proximal face of the distal portion, the proximal face located proximal of the waist of the distal portion.
106. The device of clause 104, wherein the widened portions of the struts further comprise a first and second ramp, wherein the first ramp extends from an edge of the strut to an edge of the widened portion, and the second ramp extends from the edge of the widened portion to the edge of the strut.
107. The device of clause 87, wherein the intermediate portion, the anchor portion and the distal portion are all formed from a single sheet or tube of material.
108. The device of clause 103, wherein the interconnected distal struts extend distally, from the proximal end of the distal portion, substantially along a distal portion longitudinal axis; and wherein proximal to the second waist, the struts (i) diverge from the longitudinal axis and (ii) each divide into at least two struts; and wherein distal to the second waist, the struts (i) merge with an adjacent strut, and (ii) converge toward the longitudinal axis.
109. The device of clause 103, wherein the interconnected distal struts are configured to maintain a three dimensional shape of the distal portion.
110. The device of clause 108, wherein the interconnected distal struts are configured to prevent struts of the distal portion from moving substantially towards a side of the human blood vessel.
111. The device of clause 108, wherein the interconnected distal struts are configured to structurally support each other.
112. The device of clause 108, wherein each distal strut has a proximal end, a distal end, and a center portion between the proximal end and distal end, each center portion being connected to adjacent distal struts.
113. The device of clause 87, wherein each distal strut extends from an origination junction and is divided into a first and second branch, wherein the first branch is connected to a first adjacent distal strut and the second branch is connected to a second adjacent distal strut.
114. The device of clause 113, wherein a length of the first branch and a length of the second branch are different.
115. The device of clause 113, wherein a length of the first branch and a length of the second branch are substantially the same.
116. The device of clause 87, wherein at least one distal strut extends distally from the intermediate portion and is divided into a first and second branch at or near the second waist, the first branch connected to a first adjacent distal strut and the second branch connected to a second adjacent distal strut.
117. The device of clause 116, wherein a length of the first branch and a length of the second branch are different.
118. The device of clause 116, wherein a length of the first branch and a length of the second branch are the same.
119. The device of clause 116, wherein the first and second adjacent distal struts extend distally from the second waist toward a radially central region of the device.
120. The device of clause 87, wherein:
the anchor portion forms a distal face located distal to the first waist;
the distal portion forms a proximal face located proximal to the second waist; and
both the distal face of the anchor portion and the proximal face of the distal portion are less occlusive than is the distal face of the distal portion.
121. The device of clause 120, wherein the anchor portion forms a proximal face located proximal to the first waist, and the proximal face of the anchor portion is less occlusive than is the distal face of the distal portion.
122. The device of clause 120, wherein the distal face of the anchor portion and the proximal face of the distal portion are configured not to impede blood flow significantly.
123. The device of clause 120, wherein the distal face of the distal portion is sufficiently occlusive in the distal-to-proximal direction to perform a therapeutic blocking function at the aneurysm.
For purposes of summarizing the invention and the advantages that may be achieved over the prior art, certain objects and advantages of the invention are described herein. Of course, it is to be understood that not necessarily all such objects or advantages need to be achieved in accordance with any particular embodiment. Thus, for example, those skilled in the art will recognize that the invention may be embodied or carried out in a manner that achieves or optimizes one advantage or group of advantages as taught or suggested herein without necessarily achieving other objects or advantages as may be taught or suggested herein.
All of these embodiments are intended to be within the scope of this disclosure. These and other embodiments are presented in the following detailed description having reference to the attached figures, the disclosure not being limited to any particular disclosed embodiment(s).
Although certain embodiments and examples are described below, it should be appreciated that this disclosure extends beyond the specifically disclosed embodiments and/or uses and obvious modifications and equivalents thereof. Thus, it is intended that the scope of this disclosure should not be limited by any particular embodiments described below.
The proximal section 52 can be radially self-expanding and comprise a plurality of radially self-expanding struts 58. Six struts 58 are depicted in the proximal section 52 of
The proximal end portion 60, located at the proximal end of the device 50, may comprise a simple interconnection of the proximal ends of the struts 58, or it may comprise a coupling to facilitate delivery and/or re-sheathability and re-positionability of the device 50. Such a coupling may comprise an electolytic, mechanical, chemical and/or instant detachment mechanism, configured to connect the device 50 to a delivery member such as a pusher wire.
When the device 50 is in the expanded configuration shown in
The struts 58 of the proximal section 52 can have a substantially rectangular or flat cross section (e.g., where the struts 58 comprise uncut portions of a metallic tube or sheet). The struts 58 can alternatively have a substantially round (e.g., circular, elliptical, ovoid) cross section (e.g., where the struts 58 comprise round filaments). The proximal section 52 can comprise two or more struts 58, or between two and twelve struts 58. Although the proximal section 52 depicted in
The tapered proximal face 62 of the proximal section 52 may allow the device 50 or portions thereof (e.g., the proximal section 52) to be retrieved back (e.g., in the proximal direction) into a delivery catheter via a distal opening thereof. For example, if the device 50 is being pulled into a catheter, the tapered proximal face 62 may radially compress the proximal section 52. The ability to retrieve the device 50 or proximal section 52 facilitates removal or re-positioning of the device 50 if an initial placement is not satisfactory.
The distal section 56 can be radially self-expanding and comprise a plurality of radially self-expanding struts 68. Eight struts 68 are depicted in the distal section 56 of
When the device 50 is in the expanded configuration shown in
One or more of the struts 68 of the distal section 56 can optionally include or form widened portions or leaves 78 on the distal face 74 of the distal section. As best seen in
In another aspect, the widened portions may comprise a first and second ramp, where the first ramp extends from an edge of the strut to an edge of the widened portion, and the second ramp extends from the edge of the widened portion to the edge of the strut. In this manner, the widened portions 78 can help support aneurysm filling materials or devices (such as coils or embolic materials) within an aneurysm, and/or reduce or block fluid flow through the distal face 74 to promote thrombogenicity and increase the occlusiveness of the distal face.
Instead of or in addition to the widened portion(s) 78, a mesh, membrane or other covering may be employed on the distal face 74 to perform similar function(s). Notwithstanding the presence of the widened portion(s) 78, mesh, membrane or other covering, the distal face 74 can include sufficient open space to allow a microcatheter or other similar device to pass through, to place coils or other aneurysm filling materials or devices in an aneurysm covered by the distal face 74.
The distal section 56 can therefore allow for safe and controlled placement of coils, and can be designed to support a certain packing density of coil. If desired, the widened portion(s) 78, mesh, membrane or other covering can block fluid and material passage through the distal face 74 of the distal section 56 to a degree sufficient to provide a flow diversion effect, and serve as a flow diverter, which may allow omission of any coils or other aneurysm filling materials or devices.
The struts 68 of the distal section 56 can have a substantially rectangular or flat cross section (e.g., where the struts 68 comprise uncut portions of a metallic tube or sheet). The struts 68 can alternatively have a substantially round (e.g., circular, elliptical, ovoid) cross section (e.g., where the struts 68 comprise round filaments). A circular, elliptical or ovoid cross-section may be imparted to otherwise square or rectangular struts 58/68 by processing steps such as electropolishing. The distal section can comprise two or more struts 68, or between two and twelve struts 68. Although the distal section 56 depicted in
The tapered proximal face 72 of the distal section 56 may allow the device 50 or portions thereof (e.g., the distal section 56) to be retrieved back (e.g., in the proximal direction) into a delivery catheter via a distal opening thereof. For example, if the device 50 is being pulled into a catheter, the tapered proximal face 72 may radially compress the distal section 56. The ability to retrieve the device 50 or distal section 56 facilitates removal or re-positioning of the device 50 if an initial placement is not satisfactory.
One or both of the proximal and distal sections 52, 56 can optionally be generally spherical in shape when in the expanded or deployed state.
The intermediate section 54 connects the proximal section 52 and the distal section 56, and can be relatively short and relatively narrow (relative to the length and width of the proximal and distal sections 52, 56 when they are expanded). The intermediate section 54 can be located in a radially central region of the device 50, and can be confined to that radially central region (e.g., the device 50 can lack any interconnection between the proximal and distal sections 52, 56 radially outward of the intermediate section 54). So configured, the intermediate section 54 allows the distal section 56 to pivot with respect to the proximal section and thereby allow the device 50 to be deployed in tortuous vasculature.
The intermediate section 54 may permit “multiaxial” pivoting or tilting, e.g. at least about a first axis through the intermediate section 54 and orthogonal to the plane of the page in
The intermediate section 54 may comprise a relatively short uncut tube defining a generally tubular outer surface and the proximal and distal struts 58, 68 can comprise proximal and distal extensions of the intermediate section 54 and its tubular outer surface, and be integral and monolithic with the intermediate section 54 and its outer surface. The struts 58, 68 can extend radially outward as they extend proximally (proximal struts 58) and distally (proximal struts 68) from the proximal and distal ends, respectively, of the intermediate portion 54. The proximal struts 58 and/or the distal struts 68 can be co-cylindrical with the intermediate portion 54 where they join the intermediate portion 54 at its proximal and distal ends, respectively. Where they join the intermediate portion 54, the proximal struts 58 and/or the distal struts 68 can be wider (in the circumferential direction with respect to the tubular form of the intermediate portion) than they are thick, and of similar thickness as the sidewall of the intermediate portion 54.
The device 50 may provide multiaxial or omniaxial pivoting or tilting up to relatively high deflection angles (e.g., up to 90 degrees) without significantly affecting the ability of the proximal and distal sections 52, 56 to maintain their expanded states and engage the adjacent portions of the bifurcation 25 (see
One, some or all of the struts 58 can bend or pivot with respect to the intermediate section 54 independently of one, some or all of the struts 68, and vice versa. The intermediate section 54 may promote independence by interconnecting the struts 58 and the struts 68 in a radially central region of the device 50, and physically and functionally separating them, absorbing bending stresses from the struts 58 and the struts 68 rather than transmitting them from the struts 58 to the struts 68 or vice versa.
Instead of or in addition to independence of the proximal struts 58 as a group, from the distal struts 68 as a group, the struts 58 may be independent of each other (within the group of struts 58), and/or the struts 68 may be independent of each other (within the group of struts 68). In the device 50 as depicted in
It should be noted, however, that independence as used herein does not exclude interconnecting independent components by members (e.g. membranes, very fine wires and the like) that are insufficiently rigid to cause one component to significantly affect the action of the other. The proximal struts 58 and/or the distal struts 68 can also be independent of each other, but only within a limited region of the proximal section 52 and/or distal section 58. For example, the proximal struts 58 may be independent of each other within the distal face 64 of the proximal section, and/or the distal struts 68 may be independent of each other within the proximal face 72 of the distal section 56.
The tapered distal face 64 of the proximal section 52 and tapered proximal face 72 of the distal section 56 also allow the sections 52, 56 to pivot significantly without contact between the sections 52, 56 other than at the intermediate section 54.
The intermediate section 54 can be rigid or flexible. Where the intermediate section 54 is rigid, the pivotability of the device 50 can be provided by the flexibility and/or independence of the struts 58 in the distal face 64 of the proximal section 52 and of the struts 68 in the proximal face 72 of the distal section 56. In this example, the proximal and distal sections are able to pivot multiaxially relative to each other without requiring plastic deformation of the intermediate section. Each of struts 58 and struts 68 may be capable of flexing, extending, bowing, straightening, bending, or other elastic or plastic deformation along the length or a portion thereof.
As struts 58 and struts 68 independently flex and extend, sections 52, 56 can pivot about intermediate section 54 and relative to each other. For example, struts on one side of a section may flex (e.g., bend), and struts on an opposing side of a section may extend (e.g., straighten), whereby the section pivots about the region where the struts connect to intermediate section 54.
According to embodiments, such action is facilitated along one or more sections of the device. According to embodiments, this pivot action is provided without requiring plastic deformation of intermediate section 54 or any action along the length of intermediate section 54. The intermediate section 54 can comprise a short length of hypotube (e.g., a short length of uncut hypotube when the proximal and/or distal sections 52, 56 are cut from the hypotube) which may be flexible or rigid. According to embodiments, the intermediate section 54 can comprise a flexible coil, longitudinally oriented such that its winds spiral around the central longitudinal axis of the device 50, or the intermediate section 54 can comprise a ball-and-socket joint, a length of flexible wire, or other flexible member.
The device 50 can further comprise one or more radiopaque markers (e.g. coils) coupled to or wound around portions of the device. For example, the device 50 can include radiopaque markers on one, two or all three of the proximal end portion 60, intermediate section 54, and distal end portion 70. Instead of or in addition to those markers, the device 50 can include radiopaque markers on one or more of the struts 58, and/or on one or more of the struts 68. According to embodiments, when any of the proximal end portion 60, intermediate section 54, or distal end portion 70 defines a central lumen therethrough (e.g., when the device 50 is cut or etched from a tube or sheet), radiopaque material may be placed within some, one or all of those lumens to make the portion(s) 60/54/70 radiopaque. For example, radiopaque material maybe provided within a lumen of at least one of portion(s) 60/54/70 with securement at one or both of the ends of the lumen.
The device 50 can comprise a self-expanding, super elastic, and/or a shape-memory material (e.g., comprising Nitinol, CoCr alloy, shape memory polymers (e.g., polyglycolic acid, polylactic acid), etc.), thereby causing the device 50 to be self-expanding under certain conditions (e.g., when not restrained by a catheter). In some embodiments, the proximal section 52, the intermediate section 54, and/or the distal section 56 may comprise different materials. For example, the distal section 56 may comprise polymer material while the proximal section 52 and the intermediate section 54 comprise metallic material, a different polymer material, etc. For another example, the distal section 56 may comprise metallic material while the proximal section 52 and the intermediate section 54 comprise different metallic materials, polymer material, etc. Other combinations of materials are also possible. The device 50 can assume a low profile compressed state (e.g., confined within a catheter) for delivery. When cut from a tube or sheet, the device 50 may assume substantially the diameter of the tube or rolled sheet when in the compressed state. Upon deployment from the catheter, the device 50 expands from the compressed state to an expanded state.
When the proximal and distal sections 52, 56 are in their expanded state, the friction force developed between the proximal section 52 and the inner wall of the parent vessel 30, and/or the friction force developed between the distal section 56 and the inner wall of the junction 36, may suffice to prevent the device 50 from moving significantly in the proximal direction, away from the aneurysm 20 and in the distal direction, toward the aneurysm 20.
In the implementation depicted in
The device 50 can permit blood to flow from the parent vessel 30 to the efferent vessels 32, 34 of the bifurcation. The proximal section 52 presents minimal axially-facing or proximally-facing surface area (see
The depicted distal face 74 of the distal section 56 is configured to impede or block blood flow therethrough, via the widened portions 78 and/or other structures as disclosed elsewhere herein. Accordingly, blood tends to stagnate in and around the distal face 74, promoting thrombogenesis, occlusion of the aneurysm 20, and retention of any filling materials and thrombi in the aneurysm.
As depicted in
To facilitate tilting/flexing/pivoting in the manner depicted in
The struts 58, and the proximal and distal faces 62, 64 of the proximal section 52, can be similar to those described herein with reference to the device 50 of
In a variation of the device 50 of
The struts 68 can be configured to form the sub-struts 82 and opening 84 via tapering portions 86 on either side of the opening 84. Distal and proximal of the tapering portions 86, the struts 68 can be of substantially uniform width. The proximal portion 88 of the strut 68 (proximal of the widened portion 78) can be wider than the distal portion 90 of the strut 68 (distal of the widened portion 78). In such a case, the width of the proximal strut portion 88 can nonetheless be substantially uniform from the proximal tapering portion 86 to the intermediate portion 54, and the width of the distal strut portion 90 can be substantially uniform (but narrower than the width of the proximal strut portion 88) from the distal tapering portion 86 to the distal tip portion 70 of the device 50. By employing struts 68 that are narrower in their distal portions 90 than in their proximal portions 88, the distal face of the distal portion 56 can be made relatively compliant and therefore more easily conformable to any embolic material in the aneurysm 20, while retaining a desired degree of stiffness in the proximal components of the device 50.
The various versions of the vascular remodeling device 50 disclosed herein (e.g. the devices 50 of
After cutting from one or more tubes, the device 50 or section(s) 52/54/56 thereof may be reshaped and heat treated to impart shape setting to the device or section(s). The shape setting process may include several steps comprising, for example, stretching and confining the cut tube into a new shape during the heat treatment. At the end of each heat treatment step, the cut tube assumes the shape in which it was confined during the heat treatment process. The final shape (e.g., expanded state) and size may obtained by several such steps. The device 50 or cut tube may be electropolished during manufacture, which can reduce the initial wall thickness of the tube to a final, desired thickness.
Although the device 50 is depicted in its expanded state in
The table below provides an example set of dimensions that can be employed in constructing the device 50 of
Positioning of the device 50 using the parent vessel 30 as the delivery path for the device 50 may be accomplished via, for example, the method illustrated in
As seen in
One example of a desired placement of the distal section 56 is depicted in
To achieve a desired degree of engagement of the distal section 56 with the junction 36, the presently described method can include determining the size, width or diameter of the junction 36, and selecting a device 50 whose distal section 56 has an unconstrained expanded size, width or diameter (e.g. at the waist 76 thereof) which is larger than that of the junction 36. Preferably, the selected distal section 56 is somewhat larger than the junction 36, for example by about 0.5-1.0 mm.
When the distal section 56 is positioned in the junction 36 as shown in
The deployment of the device 50 can further proceed with additional proximal withdrawal of the catheter 300 (and/or distal pushing of the device 50) so that the intermediate section 54 emerges from the catheter 300, followed by the proximal section 52, which is allowed to expand (e.g. self-expand). In this manner, the waist 66 can engage the inner wall of the parent vessel 30 as shown in
Where the parent vessel 30 is angled or curved with respect to the efferent vessels 32, 34 or the aneurysm 20 (see, e.g.
Where a suitable proximal end portion 60 and deployment apparatus are employed, the device 50 can be fully retrieved inside the catheter 300, the position of the catheter 300 can be adjusted, and the device 50 can be redeployed, for example to a more desirable position if the position of any section 52, 54, 56 after initial deployment of the device 50 was not as desired after initial deployment. Additionally or alternatively, the device 50 can be fully retrieved inside the catheter 300 and a different catheter or the same catheter 300 with a different device 50 (e.g., a device 50 having different dimensions such as diameter of the proximal portion 52, length of the intermediate portion 54, etc.) can be deployed, for example at a more desirable position or with more desirable properties (e.g., better anchoring, better neck coverage, etc.). Once the device 50 is positioned, the device 50 can be detached from the catheter 300, pusher wire, etc. electrolytically, mechanically, or chemically, and the catheter 300 withdrawn (see
Embolic material may be placed in the aneurysm 20 before, after, and/or during positioning of the device 50.
The proximal portions 58a and the distal portions 58b are rotated or shifted laterally with respect to each other, such that each proximal portion 58a opposes (e.g., approximately one-half of each of) two distal portions 58b, and vice versa. From the distal end of each proximal portion 58a, two sub-struts 58c extend distally to the two distal portions 58b that oppose (or are longitudinally adjacent) the proximal portion 58a from which the sub-struts 58c extend. Accordingly, each proximal portion 58a is connected to the two adjacent or opposing distal portions 58b (and vice versa) via sub-struts 58c. For example, each strut may have a proximal end, a distal end, and a center portion therebetween, the center portion connected to adjacent struts.
In another example, each strut may extend from an origination junction and be divided into a first and second branch, wherein the first branch is connected to a first adjacent strut and the second branch is connected to a second adjacent strut. In this example, a length of the first branch and a length of the second branch may be different such that a connecting point between the strut and the first adjacent strut is disposed at a different longitudinal position than a connecting point between the strut and the second adjacent strut.
According to embodiments, the length of the first branch and the length of the second branch may be the same. In another example, at least one strut may extend proximally from the intermediate section and be divided into a first and second branch at or near the waist of the proximal section. The first branch may be connected to the first adjacent strut and the second branch may be connected to the second adjacent strut. The first and second adjacent struts may extend proximally from the waist of the proximal section toward the radially central region of the device.
According to embodiments, one or more sections 52, 56 may have a first plurality of struts extending from a proximal end of the section and a second plurality of struts extending from the distal end of the section. The first and second plurality of struts may be interconnected at the waist or middle portion of the section by a third plurality of struts. Each of the first plurality of struts may be connected to two or more of the third plurality of struts. Each of the second plurality of struts may be connected to two or more of the third plurality of struts. The number of the first plurality of struts may equal the number of the second plurality of struts. The number of the third plurality of struts may be double, triple, or another multiple of one or each of the number of the first plurality of struts and the number of the second plurality of struts.
When the proximal section 52 of the device 50 of
As depicted in
As depicted in
When the distal section 56 of the device 50 of
As depicted in
The device 50 of
Instead of or in addition to the placement of the mass 330 in the aneurysm 20, the device 50 can be configured as a flow diverter by making the distal face 74 of the distal section 56 sufficiently occlusive to inhibit blood flow out of the fundus 22 and promote formation of thrombus therein.
In methods in which embolic material was previously inserted in an aneurysm but has herniated, the device 50 can be used as a “rescue device” to push the herniated material back into the aneurysm and to act as a scaffolding to inhibit or prevent further herniation or prolapse of the embolic material. In certain such methods, deployment of the device 50 may advantageously avoid traversal of the junction comprising the herniated material by wires or a catheter, which may cause the herniated material to become tangled and/or dislodged and which may cause rupture of the aneurysm.
Although invention(s) have been disclosed herein in the context of certain embodiments and examples, it will be understood by those skilled in the art that the invention(s) extend beyond the specifically disclosed embodiments to other alternative embodiments and/or uses of the invention(s) and obvious modifications and equivalents thereof. In addition, while several variations of the embodiments of the invention(s) have been shown and described in detail, other modifications, which are within the scope of this disclosure, will be readily apparent to those of skill in the art based upon the present specification and drawings. It is also contemplated that various combinations or sub-combinations of the specific features and aspects of the embodiments and examples may be made and still fall within the scope of the present disclosure. It should be understood that various features and aspects of the disclosed embodiments/examples can be combined with, or substituted for, one another in order to form varying modes of the embodiments/examples of the disclosed invention(s). Thus, it is intended that the scope of the invention(s) herein disclosed should not be limited by the particular embodiments/examples described above.
This application is a continuation of U.S. patent application Ser. No. 14/791,941, filed Jul. 6, 2015, which is a continuation of U.S. patent application Ser. No. 13/428,237, filed Mar. 23, 2012, now issued on Jul. 28, 2015 as U.S. Pat. No. 9,089,332, which claims priority to U.S. Provisional Patent Application No. 61/467,771, filed Mar. 25, 2011, and to U.S. Provisional Patent Application No. 61/487,648, filed May 18, 2011. The entire contents of each of the above-referenced applications are incorporated herein by reference.
Number | Date | Country | |
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61467771 | Mar 2011 | US | |
61487648 | May 2011 | US |
Number | Date | Country | |
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Parent | 14791941 | Jul 2015 | US |
Child | 16002784 | US | |
Parent | 13428237 | Mar 2012 | US |
Child | 14791941 | US |