Cardiac assistance systems having bi-directional pumping elements
First Claim
1. An implantable control system for activating a cardiac pumping unit comprising:
- an electronic controller for synchronized release of actuating fluid to a pumping unit and for subsequent synchronized evacuation of fluid from the pumping unit, a plenum for storage of a non-pressurized volume of fluid of sufficient size to provide a flow at nearly constant pressure during the release interval, and an energy converter for periodically pumping fluid from the storage plenum to the pumping unit and thus attaining a pressurized state in the pumping unit, said energy converter pumping toward the pumping unit during systole and pumping away from the pumping unit during diastole.
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Abstract
A unified, non-blood contacting, implantable heart assist system surrounds the natural heart and provides circumferential contraction in synchrony with the heart'"'"'s natural contractions. The pumping unit is composed of adjacent tube pairs arranged along a bias with respect to the axis of the heart and bound in a non-distensible sheath forming a heart wrap. The tube pairs are tapered at both ends such that when they are juxtaposed and deflated they approximately follow the surface of the diastolic myocardium. Inflation of the tube pairs causes the wrap to follow the motion of the myocardial surface during systole. A muscle-driven or electromagnetically powered energy converter inflates the tubes using hydraulic fluid pressure. An implanted electronic controller detects electrical activity in the natural heart, synchronizes pumping activity with this signal, and measures and diagnoses system as well as physiological operating parameters for automated operation. A transcutaneous energy transmission and telemetry subsystem allows the Unified System to be controlled and powered externally.
114 Citations
20 Claims
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1. An implantable control system for activating a cardiac pumping unit comprising:
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an electronic controller for synchronized release of actuating fluid to a pumping unit and for subsequent synchronized evacuation of fluid from the pumping unit, a plenum for storage of a non-pressurized volume of fluid of sufficient size to provide a flow at nearly constant pressure during the release interval, and an energy converter for periodically pumping fluid from the storage plenum to the pumping unit and thus attaining a pressurized state in the pumping unit, said energy converter pumping toward the pumping unit during systole and pumping away from the pumping unit during diastole. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20)
a conduit for delivering and distributing a pressurized fluid to the pumping unit, an implantable battery and a transcutaneous energy receiver for recharging the battery.
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4. The system of claim 1, wherein the pumping unit further comprises a collapsible, non-distensible, biocompatible sheath.
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5. The system of claim 4, wherein said pumping unit comprises:
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a plurality of elongate inflatable elements each having a longitudinal axis; and
a sheath defining a set of unit cells, each cell encompassing at least two juxtaposed elongate inflatable members, wherein said sheath nondistensibly secures said elongate inflatable elements in a substantially parallel position relative to each other.
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6. The system of claim 5, wherein said sheath has a length extending between a first and a second end and a width substantially parallel with said longitudinal axis, said sheath having inner and outer surfaces joined periodically along said length at connection points disposed between said inner and outer surfaces to form a contiguous plurality of unit cells.
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7. The system of claim 5, wherein said sheath and said inflatable elements are each constructed of thin, collapsible, non-distensible, and biocompatible material.
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8. The system of claim 5, wherein said plurality of inflatable elements and said sheath are integrally formed in a single unit.
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9. The system of claim 5, wherein said inflation elements have a top end and a bottom end, and wherein one or more of said top and bottom ends is tapered.
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10. The system of claim 5, wherein said first end and said second end of said sheath are connected to form a paraboloid of revolution.
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11. The system of claim 5, wherein said plurality of elongate elements are filled with a filler medium to a first amount and wherein the contractile force applied by the pumping unit is proportional to said first amount of a filler medium used to fill said plurality of elongate elements.
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12. The system of claim 5, further comprising:
at least one pocket interposed between the inner surface of the sheath and the heart, the pocket adapted to be filled with a second filler medium at time of implantation to conform said pumping unit to the heart.
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13. The system of claim 5, wherein said second filler medium comprises:
a flexible, deformable substance that substantially maintains its volume when compressed.
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14. The system of claim 1, further comprising:
attachment device configured to prevent said pumping unit from unintentionally adjusting during operation.
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15. The control system of claim 1 wherein the system further comprises;
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an internal electronic controller programmed to generate activating signals to control the release of actuating fluid to the pumping unit and for subsequent synchronized evacuation of fluid from the pumping unit, and an external controller in radio communication with the internal controller.
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16. The implantable cardiac assist system of claim 15 wherein the system further comprises:
an actuator for converting said actuating signal into a periodic movement of at least one valve member.
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17. The implantable cardiac assist system of claim 15 wherein the system further comprises:
- a volume displacement chamber containing a energy converter and fluid plenums.
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18. The implantable cardiac assist system of claim 15 wherein the internal controller further comprises a data transceiver for receiving a data signal from the external controller.
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19. The implantable cardiac assist system of claim 15 wherein the internal controller further comprises a data transceiver for transmitting a data signal to the external controller.
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20. The implantable cardiac assist system of claim 15 wherein the system further comprises a sensor for sensing electrical signals capable of indicating reliably the cardiac cycle.
Specification