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다음과 같은 기능을 한번의 로그인으로 사용 할 수 있습니다.
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Kafe 바로가기국가/구분 | United States(US) Patent 등록 |
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국제특허분류(IPC7판) |
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출원번호 | US-0967180 (2013-08-14) |
등록번호 | US-9272155 (2016-03-01) |
발명자 / 주소 |
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 | 피인용 횟수 : 12 인용 특허 : 448 |
The invention relates to leadless cardiac pacemakers (LBS), and elements and methods by which they affix to the heart. The invention relates particularly to a secondary fixation of leadless pacemakers which also include a primary fixation. Secondary fixation elements for LBS's may passively engage s
The invention relates to leadless cardiac pacemakers (LBS), and elements and methods by which they affix to the heart. The invention relates particularly to a secondary fixation of leadless pacemakers which also include a primary fixation. Secondary fixation elements for LBS's may passively engage structures within the heart. Some passive secondary fixation elements entangle or engage within intraventricular structure such as trabeculae carneae. Other passive secondary fixation elements may engage or snag heart structures at sites upstream from the chamber where the LBS is primarily affixed. Still other embodiments of passive secondary fixation elements may include expandable structures.
1. A leadless biostimulator comprising: a housing sized and configured to be disposed within a heart chamber of a human;a primary fixation element configured to actively affix the biostimulator to a heart wall within the heart chamber; andan expandable structure connected to a proximal portion of th
1. A leadless biostimulator comprising: a housing sized and configured to be disposed within a heart chamber of a human;a primary fixation element configured to actively affix the biostimulator to a heart wall within the heart chamber; andan expandable structure connected to a proximal portion of the housing, the expandable structure being adapted to assume a compressed linear configuration during delivery and an expanded configuration after delivery, wherein the expanded configuration of the expandable structure has a cross-sectional dimension that is greater than a diameter of a vascular exit pathway from the heart chamber so that expansion of expandable structure confines the leadless biostimulator and the expandable structure to the heart chamber. 2. The leadless biostimulator of claim 1 wherein expandable structure comprises a plurality of struts. 3. The leadless biostimulator of claim 2 wherein the plurality of struts comprise a looped shape. 4. The leadless biostimulator of claim 2, wherein the plurality of struts has an asymmetrical bowed configuration such that a greater radial diameter is proximally-skewed. 5. The leadless biostimulator of claim 2, wherein the plurality of struts is configured to compress when the heart chamber contracts during a heart-beat so that the plurality of struts do not interfere with movement of heart muscle of the heart chamber. 6. The leadless biostimulator of claim 1 wherein the heart chamber is a right ventricle of the heart and the vascular exit pathway from the heart chamber is a pulmonic value. 7. The leadless biostimulator of claim 1 wherein the expandable structure comprises nitinol. 8. The leadless biostimulator of claim 1, wherein the expandable structure further comprising a coupling mechanism that couples the housing to the expandable structure to allow for movement of the expandable structure with respect to the housing. 9. The leadless biostimulator of claim 8 wherein the coupling mechanism comprises a swivel, wherein the swivel is configured to insulate the biostimulator from torque when the biostimulator is affixed to the heart wall with the heart chamber. 10. The leadless biostimulator of claim 8 wherein the coupling mechanism comprises a flexible tether. 11. The leadless biostimulator of claim 1, further comprising a coupling mechanism that couples the housing to the expandable structure to allow for movement of the expandable structure with respect to the housing, wherein the coupling mechanism isolates the housing from destabilizing force that could otherwise be conveyed to the housing by movement of the expandable structure. 12. The leadless biostimulator of claim 1, further comprising a one or more soluble coverings configured to encapsulate at least one of the primary fixation element and the secondary fixation element. 13. The leadless biostimulator of claim 1, wherein the one or more soluble coverings is configured to encapsulate the secondary fixation element so that the secondary fixation element is secured in the collapsed linear configuration. 14. The leadless biostimulator of claim 1, wherein the expandable structure has a stiffness configured to prevent the biostimulator from turning or reorienting within the heart chamber when the biostimulator is dislodged from the heart wall. 15. The leadless biostimulator of claim 1, wherein the heart chamber is a right ventricle of the heart and the vascular exit pathway from the heart chamber is a pulmonic artery. 16. The leadless biostimulator of claim 1, wherein the heart chamber is a right ventricle of the heart and the vascular exit pathway from the heart chamber is a semilunar valve, and wherein the expanded configuration of the expandable structure is configured not to pass through the semilunar valve so that the biostimulator does not enter the pulmonary artery. 17. A method of retaining a leadless biostimulator within a human heart of a patient, comprising: confining an expandable member of the leadless biostimulator within a delivery device;delivering the leadless biostimulator to a heart chamber with the delivery device;actively affixing a primary fixation element of the leadless biostimulator to a heart wall of the heart chamber; andexpanding the expandable member within the heart chamber to have a cross-sectional linear dimension greater than a downstream vascular exit from the heart chamber such that the expandable member is confined to the heart chamber and the leadless biostimulator is confined to the heart chamber by the expandable member. 18. The method of claim 17 wherein the heart chamber is a right ventricle of the heart and wherein the downstream vascular exit from the heart chamber is pulmonary artery. 19. The method of claim 17, wherein expanding the expandable member within the heart comprises bowing struts of the expandable member from a linear configuration to a bowed configuration.
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