Port off-pump beating heart coronary artery bypass heart stabilization system
First Claim
1. A heart stabilization device, comprising:
- a) a shaft having a proximal end and a distal end and defining a longitudinal axis; and
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart, said pads being coupled to said distal end in a manner which permits one of said pads to rotate about a first axis and the other of said pads to rotate about a second axis substantially parallel to but not coaxial with said first axis, wherein said first axis extends substantially parallel to the contact surface of said one of said pads and said second axis extends substantially parallel to said contact surface of said other of said pads, and further wherein said pads are movable between a closed configuration in which said contact surfaces are in contact with each other, and an open configuration in which said contact surfaces are separated from each other.
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Accused Products
Abstract
A heart stabilizer includes a shaft and two articulating arms coupled to a distal end of the shaft. At the end of each arm is a rotatable foot adapted to be angled relative to the heart wall contour and apply pressure against the wall of the heart to effectively eliminate motion of the heart wall between the feet. The stabilizer is adapted to provide a stabilized area sufficiently large to allow an accurate anastomosis to be performed. According to preferred aspects of the invention, the stabilizer is particularly adapted to be collapsible (foldable) to be inserted through the port device and locked longitudinally relative thereto. The stabilizer is also preferably adapted to be automatically deployed into its final configuration by release of a lock actuated at a proximal portion of stabilizer extending outside the port. In addition, the stabilizer is adapted to automatically fold when being pulled back through the port. According to various embodiments of the heart stabilizer, the feet of the stabilizer may be further adapted to facilitate immobilization of the heart wall between the feet.
237 Citations
32 Claims
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1. A heart stabilization device, comprising:
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a) a shaft having a proximal end and a distal end and defining a longitudinal axis; and
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart, said pads being coupled to said distal end in a manner which permits one of said pads to rotate about a first axis and the other of said pads to rotate about a second axis substantially parallel to but not coaxial with said first axis, wherein said first axis extends substantially parallel to the contact surface of said one of said pads and said second axis extends substantially parallel to said contact surface of said other of said pads, and further wherein said pads are movable between a closed configuration in which said contact surfaces are in contact with each other, and an open configuration in which said contact surfaces are separated from each other.
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2. A heart stabilization device, comprising:
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a) a shaft having a proximal end and a distal end and defining a longitudinal axis; and
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart, said pads being coupled to said distal end in a manner which permits one of said pads to rotate about a first axis and the other of said pads to rotate about a second axis substantially parallel to but not coaxial with said first axis, wherein said pads are movable between a first orientation in which said pads extend in a first direction substantially parallel to said longitudinal axis and a second orientation in which said pads extend in a second direction substantially parallel to each other and obliquely relative to said longitudinal axis. - View Dependent Claims (3)
c) means for urging said pads into said second orientation.
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4. A heart stabilization device, comprising:
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a) a shaft having a proximal end and a distal end and defining a longitudinal axis; and
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart, said pads being coupled to said distal end in a manner which permits one of said pads to rotate about a first axis and the other of said pads to rotate about a second axis substantially parallel to but not coaxial with said first axis, wherein when said pads are in said first orientation, said contact surfaces are in contact with or adjacently facing each other.
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5. A heart stabilization device, comprising:
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a) a shaft having a proximal end and a distal end and defining a longitudinal axis; and
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart, said pads being coupled to said distal end in a manner which permits one of said pads to rotate about a first axis and the other of said pads to rotate about a second axis substantially parallel to but not coaxial with said first axis. wherein each of said pads is coupled to said distal end of said shaft with a multiple joint arm assembly. - View Dependent Claims (6, 7, 8)
each said multiple joint arm assembly includes a shoulder joint, an elbow joint and a wrist joint.
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7. A heart stabilization device according to claim 5, wherein:
each joint of said multiple joint arm assembly includes a stop to limit the degree of rotation about each said joint.
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8. A heart stabilization device according to claim 5, wherein:
each joint of said multiple joint arm assembly includes a spring element which urges said joint into a predetermined configuration.
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9. A heart stabilization device, comprising:
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a) an elongate shaft having a proximal end and a distal end and defining a longitudinal axis;
b) first and second upper arm elements rotatably coupled with a first coupling to said distal end of said shaft;
c) first and second lower arm elements rotatably coupled with first and second elbow joint couplings to said first and second upper arm elements, respectively;
d) first and second pad supporting elements rotatably coupled with first and second wrist joint couplings to said first and second lower arm elements, respectively; and
e) first and second stabilization pads mounted to said first and second pad supporting elements, respectively, each of said pads having a contact surface adapted to contact a surface of the heart. - View Dependent Claims (10, 11, 12, 13)
said first coupling includes a socket structure at said distal end of said shaft and a ball formed one half by each of said first and second upper arm elements, said upper arm elements permitted to rotate relative to each other.
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11. A heart stabilization device according to claim 9, wherein:
said first coupling, said first and second elbow joint couplings, and said first and second wrist joint couplings each include stops to limit a respective degree of rotation.
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12. A heart stabilization device according to claim 9, wherein:
said first coupling, said first and second elbow joint couplings, and said first and second wrist joint couplings each include spring elements to bias the respective elements coupled thereto into a predetermined configuration.
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13. A heart stabilization device according to claim 9, wherein:
said shaft includes means for locking said first coupling such that said upper arms are substantially fixed relative to said shaft.
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14. A heart stabilization device, comprising:
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a) an elongate shaft having a proximal end and a distal end, said distal end defining a substantially spherical socket portion;
b) a pair of stabilization pads each having a contact surface which is adapted to contact a surface of the heart; and
c) a pair of arm assemblies coupling said pair of pads to said shaft, each of said arm assemblies including a proximal portion having a complementary substantially hemispherical shape, said proximal portions being provided in said socket portion such that said hemispherical proximal portions are each rotatable relative to the other within said socket portion. - View Dependent Claims (15, 16)
said hemispherical proximal portions are rotatable up to 180°
relative to each other.
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16. A heart stabilization device according to claim 14, further comprising:
d) means for locking said hemispherical proximal portions relative to each other within said socket portion.
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17. A heart stablization device, comprising:
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a) a shaft having a proximal end and a distal end;
b) first and second articulating arms coupled to said distal end, each said articulating arm including an upper arm, a lower arm rotatable relative to said upper arm, and a wrist mount at a distal end of said lower arm and being rotatable about a longitudinal axis of said lower arm; and
c) first and second feet, said first foot coupled to said wrist mount of said first articulating arm and said second foot coupled to said wrist mount of said second articulating arm. - View Dependent Claims (18, 19, 20, 21, 22, 23)
said first and second articulating arms include spring elements which rotate said lower arms relative to said upper arms.
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19. A heart stabilization device according to claim 17, wherein:
said first and second articulating arms include spring elements which rotate said wrist mounts relative to said lower arms.
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20. A heart stabilization device according to claim 17, wherein:
said first and second articulating arms include stop means for limiting the rotation of said lower arms relative to said upper arms.
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21. A heart stabilization device according to claim 20, wherein:
said stop means includes a pin and a cam.
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22. A heart stabilization device according to claim 17, further comprising:
d) a lock means for locking the relative position of said articulating arms.
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23. A heart stabilization device according to claim 17, wherein:
said first and second articulating arms fold automatically when upper arms are forced distally.
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24. A surgery system for performing heart surgery through a chest wall, comprising:
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a) a port, including, i) a tubular body having a proximal portion and a distal portion, ii) at least one swivel rotatable about said distal portion of said body, said at least one swivel adapted to move between a first orientation in which said swivel extends in substantially a same direction as said body, and a second orientation at an angle relative to said first orientation, and iii) means for clamping the chest wall against said swivel, said means located about said-tubular body; and
b) a heart stabilization device, including, i) a shaft having a proximal end and a distal end, ii) a shaft lock means for locking said shaft relative to said port device, iii) first and second articulating arms at said distal end of said shaft, each of said first and second articulating arms including a distal end, and iv) first and second feet at said respective distal ends of said arms. - View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32)
said tubular body includes a first coupling structure, and said shaft lock means includes a compressible element about said shaft and first and second clamping elements which cooperate to clamp and compress said compressible element, said shaft lock means including a second coupling structure which is couplable to said first coupling structure.
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26. A surgery system according to claim 25, wherein:
said compressible element is substantially spherical and rotatable within said clamping elements such that when said clamping elements are loosened relative to each other, said shaft may be angularly positioned relative to said first and second clamping elements.
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27. A surgery system according to claim 24, wherein:
said first and second articulating arms each include an upper arm, a lower arm rotatable relative to said upper arm, and a wrist mount at a distal end of said lower arm, said first and second feet coupled to respective wrist mounts on said respective arms.
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28. A surgery system according to claim 27, wherein:
when said first and second articulating arms are located distally relative to said distal portion of said tubular body of said port device, said first and second articulating arms automatically fold when said shaft is moved to force said articulating arms are moved proximally relative to said port device.
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29. A surgery system according to claim 28, wherein:
when said arms automatically fold, said feet rotate toward each other.
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30. A surgery system according to claim 27, wherein:
said articulating arms are adapted to expand to a size greater than a diameter of said port and be folded to a size smaller than said diameter of said port.
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31. A surgery system according to claim 30, wherein:
said articulating arms are adapted to automatically expand.
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32. A surgery system according to claim 30, wherein:
said articulating arms may be locked in an expanded or a folded configuration.
Specification