US2019328392A1PendingUtilityA1
Magnetic Anastomosis Device and Delivery System
Est. expiryJul 25, 2036(~10 yrs left)· nominal 20-yr term from priority
Inventors:Virender K. Sharma
A61B 2017/1139A61B 2017/00867A61M 27/002A61B 17/1114A61B 2017/1135A61B 2017/00876A61B 2017/1107A61B 2017/0649A61B 2017/00783A61B 2017/00477A61B 2017/0034A61B 2017/00247A61B 2017/00243A61B 17/1227A61B 17/122A61B 17/11
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Claims
Abstract
An anastomosis device includes magnets coupled to a wire capable of changing shape from a straight wire into a coil when deployed within a body. The coil exerts compressive force upon layers of tissue caught between loops of the coil. The compressive force is enhanced by attractive forces between magnets coupled with adjacent loops of the coil and causes the coil to cut through the tissue layers, creating an anastomosis. One end of the wire is preferably provided with a connecting member, such as a screw or a nut, for connecting with a delivery device.
Claims
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21 . An anastomosis device for positioning between two adjacent body tissues, the device comprising:
a wire, wherein said wire has a first state and a second state, wherein, in said first state, the wire has a substantially linear form, wherein, in said second state, the wire forms a coil having at least a first loop and a second loop, and wherein said wire is adapted to transform from the first state to the second state when exposed to a temperature greater than a threshold value; and a plurality of magnets positioned over said wire, wherein each of said plurality of magnets has a lumen through which said wire extends, wherein, in each of said first loop and second loop, a portion of adjacent magnets of said plurality of magnets are configured to not attach to each other, and wherein a portion of said plurality of magnets in the first loop are configured to attract a portion of said plurality of magnets in the second loop; wherein the anastomosis device is configured for positioning via a catheter within a body cavity proximate at least one of said adjacent body tissues and to be released within the body cavity such that, when it transforms from the first state to the second state, tissue between two adjacent body tissues is caught between the first loop and the second loop, thereby being compressed and resulting in the anastomosis.
22 . The device of claim 21 wherein the anastomosis device further comprises non-ferromagnetic spacers positioned between adjacent magnets of said plurality of magnets.
23 . The device of claim 22 wherein each of said non-ferromagnetic spacers has a length sufficient to keep a force of attraction between opposite poles of the adjacent magnets below a bending force of the coil.
24 . The device of claim 21 wherein, when in the second state, a maximum cross sectional diameter of the first loop and the second loop ranges from 5 mm to 50 mm.
25 . The device of claim 21 wherein each of the plurality of magnets has a maximum cross sectional length or diameter ranging from 0.2 mm to 7 mm and a pull force ranging from 0.01 lb. to 4 lb.
26 . The device of claim 21 wherein, in the first loop and in the second loop, at least 50% of the adjacent magnets of said plurality of magnets are arranged with like poles facing each other, thereby creating a repulsive force between said adjacent magnets in the first loop and a repulsive force between said adjacent magnets in the second loop of the coil.
27 . The device of claim 21 , wherein at least one end of the wire is connected to a delivery device.
28 . The device of claim 21 , wherein said wire comprises a shape memory alloy.
29 . The device of claim 21 , wherein said threshold value is 20 degrees Celsius.
30 . The device of claim 21 , wherein said coil has at least one loop proximate to the first loop and at least one loop distal to the second loop.
31 . The device of claim 21 , wherein each of said plurality of magnets is cylindrically shaped and is a rare earth magnet covered with at least one of gold, nickel, Teflon, parylene, copper, zinc, silicone, epoxy or titanium.
32 . The device of claim 21 , wherein at least one end of the wire is in electrical communication with a source of electrical current and wherein the source of electrical current is configured to deliver an amount of current sufficient to heat the anastomosis device by passing electrical current through the anastomotic device, thereby assisting in the transformation from the first state to the second state.
33 . The device of claim 21 wherein a diameter of the wire ranges between 0.1 mm to 10 mm and a length of the wire ranges from 1 cm to 250 cm.
34 . The device of claim 21 wherein a diameter of the wire ranges between 0.1 mm and 6 mm and has a maximum strain of less than 10% in the first state and wherein a maximum cross sectional dimension of the first loop and second loop ranges from 5 mm to 60 mm in the second state.
35 . The device of claim 21 wherein the adjacent body tissues comprise a gall bladder and a duodenum and a maximum diameter of the first loop and the second loop is less than or equal to 30 mm.
36 . The device of claim 21 wherein the adjacent body tissues comprise pancreatic tissue and a maximum diameter of the first loop and the second loop is greater than or equal to 5 mm.
37 . The device of claim 21 wherein the adjacent body tissues comprise biliary tissue and a maximum diameter of the first loop and the second loop is greater than or equal to 5 mm.
38 . The device of claim 21 wherein a diameter of the wire is less than 0.5 mm and wherein a maximum cross sectional dimension of the first loop and second loop is less than or equal to 15 mm.
39 . The device of claim 21 wherein a diameter of the wire ranges from 0.5 mm to 1.0 mm and wherein a maximum cross sectional dimension of the first loop and second loop ranges from 10 mm to 25 mm.
40 . The device of claim 21 wherein a diameter of the wire is greater than 1 mm and wherein a maximum cross sectional dimension of the first loop and second loop is greater than 20 mm.
41 . The device of claim 21 wherein the first loop and the second loop have at least one of a circular shape, polygonal shape, or a star shape with four or more points.
42 . The device of claim 21 wherein a portion of the adjacent magnets of said plurality of magnets on the same loop are configured to repel each other.
43 . The device of claim 21 wherein, in the second state, the anastomosis device is configured to deliver a compressive pressure to tissues caught between the first loop and second loop that is greater than or equal to 0.3 psi.Cited by (0)
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