A vascular remodeling device is provided. The device has an anchor portion, sized for deployment in a blood vessel, that is radially expandable from a collapsed state to an expanded state. The device also includes a distal portion sized for deployment in a blood vessel. The distal portion is radiall
A vascular remodeling device is provided. The device has an anchor portion, sized for deployment in a blood vessel, that is radially expandable from a collapsed state to an expanded state. The device also includes a distal portion sized for deployment in a blood vessel. The distal portion is radially expandable from a collapsed state to an expanded state and has a distal face that is sufficiently occlusive in the distal-to-proximal direction to perform a therapeutic blocking function in an aneurysm neck. The device also has an intermediate portion that interconnects a distal end of the anchor portion and a proximal end of the distal portion. In some embodiments, the anchor portion and/or distal portion has a plurality of interconnected struts.
대표청구항▼
1. A vascular device, comprising: a proximal portion comprising a plurality of proximal struts that extend distally from a proximal end of the proximal portion wherein (a) proximal to a first waist that comprises a radially largest region of the proximal portion, the proximal struts each (i) diverge
1. A vascular device, comprising: a proximal portion comprising a plurality of proximal struts that extend distally from a proximal end of the proximal portion wherein (a) proximal to a first waist that comprises a radially largest region of the proximal portion, the proximal struts each (i) diverge from a longitudinal axis and (ii) divide into at least two proximal sub-struts; and (b) distal to the first waist, the proximal sub-struts each (i) converge toward the longitudinal axis, and (ii) merge with an adjacent proximal sub-strut, the proximal portion having a total number of proximal sub-struts that is at least double a total number of proximal struts;a distal portion comprising, at a second waist that comprises a radially largest region of the distal portion, only a plurality of distal struts wherein (a) distal to the second waist, the distal struts each (i) diverge from the longitudinal axis and (ii) divide into at least two distal sub-struts wholly distal to the second waist; and (b) distal to the second waist, the distal sub-struts each (i) converge toward the longitudinal axis, and (ii) merge with an adjacent distal sub-strut, the distal portion having a total number of distal sub-struts that is at least double a total number of distal struts. 2. The vascular remodeling device of claim 1, further comprising a coupling joining a proximal end portion of the proximal portion to a pusher wire. 3. The vascular remodeling device of claim 1, wherein the distal struts are configured to maintain a three dimensional shape of the proximal portion. 4. The vascular remodeling device of claim 1, wherein the distal struts are configured to prevent the distal struts from aggregating toward a single side of the blood vessel. 5. The vascular remodeling device of claim 1, wherein the proximal struts are configured to structurally support each other. 6. The vascular remodeling device of claim 1, wherein each proximal strut extends from an origination junction and is divided into a first one and second one of the proximal sub-struts, wherein the first one of the proximal sub-struts is connected to a first adjacent strut and the second one of the proximal sub-struts is connected to a second adjacent strut. 7. The vascular remodeling device of claim 6, wherein a length of the first one of the proximal sub-struts and a length of the second one of the proximal sub-struts are different. 8. The vascular remodeling device of claim 6, wherein a length of the first one of the proximal sub-struts and a length of the second one of the proximal sub-struts are the same. 9. The vascular remodeling device of claim 1, wherein at least one proximal strut extends proximally from an intermediate portion and is divided into a first one and second one of the proximal sub-struts at or near the first waist of the proximal portion, the first one of the proximal sub-struts connected to a first adjacent strut and the second one of the proximal sub-struts connected to a second adjacent strut. 10. The vascular remodeling device of claim 9, wherein a length of the first one of the proximal sub-struts and a length of the second one of the proximal sub-struts are different. 11. The vascular remodeling device of claim 9, wherein a length of the first one of the proximal sub-struts and a length of the second one of the proximal sub-struts are the same. 12. The vascular remodeling device of claim 9, wherein the first and second adjacent struts extend proximally from the first waist of the proximal portion toward a radially central region of the device. 13. The vascular remodeling device of claim 1, wherein the distal struts extend longitudinally and radially inward from the first waist of the distal portion to form a distal face of the distal portion. 14. The vascular remodeling device of claim 13, wherein the distal struts forming the distal face have widened portions with increased cross-sectional widths that increase an occlusiveness of the distal face, wherein the widened portions of the distal struts are each wider than a width of at least one of a plurality of proximal struts forming a proximal face, proximal to the first waist of the distal portion. 15. The vascular remodeling device of claim 14, wherein the widened portions of the distal struts each 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. 16. The vascular remodeling device of claim 1, wherein the proximal portion and the distal portion are all formed from a single sheet or tube of material. 17. The vascular remodeling device of claim 1, wherein: the proximal portion forms a distal face located distal to the first waist of the proximal portion;the distal portion forms a proximal face located proximal to the second waist of the distal portion; andboth the distal face of the proximal portion and the proximal face of the distal portion are less occlusive than the distal face of the distal portion. 18. The vascular remodeling device of claim 17, wherein the proximal portion forms a proximal face located proximal to the first waist of the proximal portion, and the proximal face of the proximal portion is less occlusive than the distal face of the distal portion. 19. The vascular remodeling device of claim 17, wherein the distal face of the proximal portion and the proximal face of the distal portion are configured such that they allow blood flow there through. 20. The vascular remodeling device of claim 1, further comprising an intermediate portion joining the proximal portion to the distal portion, wherein a lumen of the intermediate portion is filled with a radiopaque material.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (244)
Horton Joseph A. (Charleston SC), Anatomically shaped vasoocclusive device and method of making the same.
David Kupiecki ; Clifford Teoh ; Hong Doan ; Son M. Gia ; Erik T. Engelson ; Uriel Hiram Chee ; Mehran Bashiri ; Joseph C. Eder, Aneurysm closure device assembly.
Kupiecki David ; Teoh Clifford ; Doan Hong ; Gia Son M. ; Engelson Erik T. ; Chee Uriel Hiram ; Bashiri Mehran ; Eder Joseph C., Aneurysm closure device assembly.
Kupiecki David ; Teoh Clifford ; Doan Hong ; Gia Son M. ; Engelson Erik T. ; Chee Uriel Hiram ; Bashiri Mehran ; Eder Joseph C., Aneurysm closure device assembly.
Chevillon Gerard (Montrouge FRX) Nadal Guy (Poitiers FRX) Iachetti Massimo (Rome ITX), Assembly comprising a blood filter for temporary or definitive use and a device for implanting it.
VanTassel, Robert A.; Hauser, Robert G.; Schwartz, Robert; Holmes, David; Sutton, Gregg S.; Borillo, Thomas E.; Welch, Jeffrey, Barrier device for covering the ostium of left atrial appendage.
Ho, Hanh; Quan, Jr., Kenneth W.; Teoh, Clifford; Abrams, Robert M.; Eder, Joseph C.; Slaikeu, Paul C.; Wallace, Michael P.; Barry, James, Bioactive three loop coil.
Marchand, Philippe; Nolting, John; Kent, Darrin J; Dinh, Tan Q; Tran, Hung P; Milburn, James A; Thompson, James M, Braiding mechanism and methods of use.
Roberts George T. (Weston MA) Hess Kathleen L. (Lynn MA) Nott Sepideh H. (Canton MA) Chu Michael S. H. (Brookline MA) Chin Yem (Burlington MA), Controlled deployment of a medical device.
Cragg, Andrew H.; Walker, Blair D.; Perl, II, John; Jones, Michael; Greene, George Robert; Wallace, George; Greff, Richard J., Device and method for controlling injection of liquid embolic composition.
van der Burg,Erik J.; De Cicco,Dino; Frazier,Andrew G. C.; Khairkhahan,Alexander K.; Kreidler,Marc S.; Lesh,Michael D.; Roue,Chad C., Device for containing embolic material in the LAA having a plurality of tissue retention structures.
McGurk Erin (Palo Alto CA) Dieck Ronald (Palo Alto CA) Tremulis William S. (Redwood City CA), Embolic elements and methods and apparatus for their delivery.
Guglielmi Guido (Los Angeles CA) Sepetka Ivan (Redwood City CA), Endovascular electrolytically detachable guidewire tip for the electroformation of thrombus in arteries, veins, aneurysm.
Guglielmi Guido ; Sepetka Ivan, Endovascular electrolytically detachable wire and tip for the formation of thrombus in arteries, veins, aneurysms, vascu.
Berry Joel L. (Winston-Salem NC) Ferrario Carlos M. (Winston-Salem NC) Dean Richard H. (Winston-Salem NC) Newman Virginia S. (Winston-Salem NC), Expandable, intraluminal stents.
VanTassel, Robert A.; Hauser, Robert G.; Schwartz, Robert; Holmes, David; Sutton, Gregg S.; Borillo, Thomas E.; Welch, Jeffrey, Filter apparatus for ostium of left atrial appendage.
VanTassel, Robert A.; Hauser, Robert G.; Schwartz, Robert; Holmes, David; Sutton, Gregg S.; Borillo, Thomas E.; Welch, Jeffrey, Filter apparatus for ostium of left atrial appendage.
VanTassel, Robert A; Hauser, Robert G; Schwartz, Robert; Holmes, David; Sutton, Gregg S; Borillo, Thomas E; Welch, Jeffrey, Filter apparatus for ostium of left atrial appendage.
Stevens,Sheila S; Boucher,Ryan P; Follmer,Lulu; Salom,Nenita; Reiss,Paul; Ico,Cesar; Talmadge,Karen D; Reiley,Mark A; Scholten,Arie, Inflatable device for use in surgical protocol relating to fixation of bone.
Fischell Robert E. (Silver Spring MD) Fischell Tim A. (Palo Alto CA), Intravascular stent and percutaneous insertion catheter system for the dilation of an arterial stenosis and the preventi.
Frazier, Andrew G. C.; Khairkhahan, Alexander K.; van der Burg, Erik J.; Roue, Chad C.; Klenk, Alan R., Left atrial appendage occlusion device with active expansion.
van der Burg,Erik J.; De Cicco,Dino; Frazier,Andrew G. C.; Khairkahan,Alex K.; Kriedler,Marc S.; Lesh,Michael D.; Roue,Chad C., Method and device for left atrial appendage occlusion.
Chin Yem ; McCrory Jennifer J. ; Tremaglio ; Jr. Anthony R. ; Guterman Lee R. ; Dassa Alyssa ; Hudson Richard, Removable occlusion system for aneurysm neck.
Sullivan, Jason R.; Keller, John; Ketterer, Matthew S.; DiMatteo, Kristian J.; Bettuchi, Michael J.; Golds, Ellen, Stent delivery system with nested stabilizer.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.