An insertion tool for a medical closure device for the sealing of an opening in a wall of a bodily organ includes a tamping force source adapted to deliver a first member to a position at the opening on one side of the wall subsequently to a second member being positioned at the opening on the oppos
An insertion tool for a medical closure device for the sealing of an opening in a wall of a bodily organ includes a tamping force source adapted to deliver a first member to a position at the opening on one side of the wall subsequently to a second member being positioned at the opening on the opposite side of the wall. The tamping force source, which is energized prior to the tamping procedure, can be a spring, an elastic band or a pressurized gas container. A tamping spring can be compressed or extended upon loading. The tamping force source can be released in response to a manual operation or be triggered by retraction of the insertion tool.
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1. An insertion tool for a medical device for closure of an opening in a wall of a bodily organ, the medical device comprising at least a first member and a second member, the insertion tool comprising: a tamping mechanism configured to bring together the first and second members on opposite sides o
1. An insertion tool for a medical device for closure of an opening in a wall of a bodily organ, the medical device comprising at least a first member and a second member, the insertion tool comprising: a tamping mechanism configured to bring together the first and second members on opposite sides of the wall,wherein the tamping mechanism comprises a housing, a fastener, a tamping member protruding from the housing, and a tamping force source attached to an inside of the housing,wherein the tamping force source is configured to be energized prior to initiation of a tamping procedure such that the energized tamping force source is configured to apply an application force to the tamping member while the tamping member is held in place by the fastener,wherein the tamping force source is configured to advance the tamping member away from the housing after actuation during the tamping procedure by releasing the fastener from the tamping member, andwherein the releasing of the fastener from the tamping member is configured to be triggered by retraction of the housing away from at least one of the first and second members. 2. The insertion tool according to claim 1, wherein the tamping force source is a spring, which is compressed upon energizing. 3. The insertion tool according to claim 1, wherein the tamping force source, upon energizing, is configured to be compressed between the tamping member and an internal surface while the tamping member is held by the fastener, and wherein the internal surface is slidable relative to the housing. 4. The insertion tool according to claim 1, wherein, while the tamping member is held by the fastener, the fastener is configured to slide relative to the housing during the retraction of the housing away from the at least one of the first and second members. 5. The insertion tool according to claim 4, wherein the release of the fastener from the tamping member is configured to be triggered when a surface of the fastener interacts with a beveled surface of the housing. 6. The insertion tool according to claim 1, wherein the tamping force source, when energized, is configured to deliver a set amount of tamping force when released. 7. The insertion tool according to claim 1, wherein the bodily organ is a blood vessel or a septal defect. 8. The insertion tool according to claim 1, further comprising a restraining member, wherein the restraining member is configured to hold on to a filament at an interior space of the housing during the tamping procedure and configured to automatically release the filament upon advancement of the tamping member away from the housing after actuation during the tamping procedure. 9. The insertion tool according to claim 1, wherein tamping force in the tamping force source, when energized, is between 5 N and 40 N. 10. The insertion tool according to claim 1, wherein energizing of the tamping force source is performable by a user prior to insertion of the medical device into the opening or during manufacture of the insertion tool. 11. The insertion tool according to claim 1, wherein the tamping mechanism is configured to bring together the first and second members on opposite sides of the wall by applying a tamping force to one of the first and second members while the other of the first and second members is retained in position. 12. A medical device for closure of an opening in a wall of a bodily organ, comprising: a first member;a second member;a filament; andan insertion tool comprising a tamping mechanism adapted to bring together the first and second members on opposite sides of the wall,wherein the tamping mechanism comprises a housing, a tamping member protruding from the housing, a fastener, and a tamping force source attached to the housing,wherein the tamping force source is configured to be energized prior to initiation of a tamping procedure such that the energized tamping force source is configured to apply an application force to the tamping member while the tamping member is held in place by the fastener,wherein the tamping force source is configured to advance the tamping member away from the housing after actuation during the tamping procedure by releasing the fastener from the tamping member, andwherein the fastener is configured to be released by retraction of the housing away from at least one of the first and second members. 13. The medical device according to claim 12, wherein the tamping force source, when energized, is configured to deliver a set amount of tamping force when the fastener is released. 14. The medical device according to claim 12, wherein the tamping force source is a spring, which is compressed upon energizing. 15. The medical device according to claim 12, wherein the bodily organ is a blood vessel or a septal defect. 16. The medical device according to claim 12, wherein the tamping mechanism is configured to bring together the first and second members on opposite sides of the wall by applying a tamping force to one of the first and second members while the other of the first and second members is retained in position. 17. The medical device according to claim 12, further comprising a restraining member, wherein the restraining member is configured to hold on to the filament at an interior space of the housing during the tamping procedure and configured to automatically release the filament upon advancement of the tamping member away from the housing after actuation during the tamping procedure. 18. The medical device according to claim 12, wherein the tamping force source, upon energizing, is configured to be compressed between the tamping member and an internal surface while the tamping member is held by the fastener. 19. The medical device according to claim 12, wherein, while the tamping member is held by the fastener, the fastener is configured to slide relative to the housing during the retraction of the housing away from the at least one of the first and second members. 20. The medical device according to claim 19, wherein the release of the fastener from the tamping member is configured to be triggered when a surface of the fastener interacts with a beveled surface of the housing. 21. A method for closing an opening in a wall of a bodily organ, comprising: placing first and second members on opposite sides of the wall, wherein the first and second members are connected via a filament to an insertion tool, wherein the insertion tool comprises a tamping mechanism that comprises a housing, a tamping member protruding from the housing, a fastener, and a tamping force source attached to the housing, wherein the tamping force source is energized such that the energized tamping force source applies an application force to the tamping member while the tamping member is held in place by the fastener;retracting the housing away from the first and second members such that the fastener is automatically released from the tamping member, andautomatically advancing the tamping member away from the housing using the tamping force source after the automatic release of the fastener from the tamping member such that an application of a tamping force to one of the first and second members results while the other of the first and second members is retained in position such that the first and second members are brought together on the opposite sides of the wall. 22. The method according to claim 21, wherein the bodily organ is a blood vessel or a septal defect. 23. The method according to claim 21, further comprising: holding on to the filament at an interior space of the housing using a restraining member; andautomatically releasing the filament from the restraining member upon automatic advancement of the tamping member away from the housing. 24. The method according to claim 21, wherein, during the retracting of the housing away from the first and second members, the tamping member is held by the fastener and the fastener slides relative to the housing, and wherein the releasing of the fastener from the tamping member is triggered when a surface of the fastener interacts with a beveled surface of the housing.
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