Anchoring Device and Methods for Use

1 . A guide wire comprising: a non-coiled segment, a first expandable segment, and a leading segment, wherein the first expandable segment is configured to transition between a constrained state and a deployed state. 2 . The guide wire of claim 1 , wherein the guide wire has a thickness in the range of 0.01 in. to 0.04 in. 3 . The guide wire of claim 1 , wherein the leading segment has a length in a range from about 2 mm to about 200 mm. 4 . The guide wire of claim 1 , wherein the guidewire has a length in a range from about 100 cm to about 500 cm. 5 . The guide wire of claim 1 , wherein the first expandable segment has a length in the deployed state in a range from about 10 mm to about 100 mm. 6 . The guide wire of claim 1 , wherein the first expandable segment has a diameter in the deployed state in a range from about 1 mm to about 80 mm. 7 . The guide wire of claim 1 , wherein the leading segment is substantially straight in both the constrained state and the deployed state. 8 . The guide wire of claim 1 , wherein the leading segment has a stiffness that is less than a stiffness of the non-coiled segment and the first expandable segment. 9 . The guide wire of claim 1 , wherein in the deployed state the first expandable segment is arranged as a coiled wire configured to exert pressure on a lumen. 10 . The guide wire of claim 9 , wherein in the deployed state, coils of the first expandable segment exert pressure on the lumen in a range from about 0.25 ATM to about 3.0 ATM. 11 . The guide wire of claim 9 , wherein in the deployed state coils of a first portion of the first expandable segment have a larger diameter than coils of a second portion of the first expandable segment such that the first portion of the first expandable segment is configured to exert a different pressure on the lumen than the second portion of the first expandable segment. 12 . The guide wire of claim 9 , wherein a first portion of the first expandable segment has a wire thickness that is greater than a second portion of the first expandable segment such that the first portion of the first expandable segment is configured to exert a different pressure on the lumen than the second portion of the first expandable segment. 13 . The guide wire of claim 9 , wherein in the deployed state coils of a first portion of the first expandable segment have a first pitch, and wherein in the deployed state coils of a second portion of the first expandable segment have a second pitch that is different than the first pitch such that the first portion of the first expandable segment is configured to exert a different pressure on the lumen than the second portion of the first expandable segment. 14 . The guide wire of claim 1 , wherein the guide wire further comprises a second expandable segment positioned between the non-coiled segment and the first expandable segment, wherein the second expandable segment is configured to transition between a constrained state and a deployed state. 15 . The guide wire of claim 14 , wherein, in the deployed state, the second expandable segment is arranged as a second coiled wire configured to exert pressure on the lumen. 16 . The guide wire of claim 1 , wherein the first expandable segment comprises a shape memory wire. 17 . The guide wire of claim 16 , wherein the shape memory wire comprises a material selected from the group consisting of including nitinol, titanium, titanium alloys, or copper-aluminum-nickel alloys. 18 . The guide wire of claim 1 , wherein the first expandable segment in a constrained state is disposed within a catheter. 19 . The guide wire of claim 18 , wherein the catheter comprises: an interface catheter; and a delivery catheter coupled to the interface catheter. 20 . A method comprising: introducing a guide wire according to claim 1 into a lumen via arterial access, wherein the guide wire is disposed in a catheter such that a first expandable segment is in a constrained state; and transitioning the first expandable segment from the constrained state to a deployed state, thereby anchoring the guide wire in the lumen. 21 . The method of claim 20 , wherein, in the deployed state, the first expandable segment exerts pressure on the lumen. 22 . The method of claim 20 , wherein transitioning the first expandable segment from the constrained state to the deployed state comprises sliding the first expandable segment out of the catheter and expanding the first expandable segment due to shape memory. 23 . The method of claim 20 , further comprising: transitioning the first expandable segment from the deployed state to the constrained state. 24 . The method of claim 23 , wherein transitioning the first expandable segment from the deployed state to the constrained state comprises sliding the catheter over the first expandable segment and returning the first expandable segment to a substantially non-coiled arrangement. 25 . The method of claim 20 , wherein introducing the guide wire according to claim 1 into a lumen via arterial access comprises: introducing a delivery catheter into a lumen via arterial access, the delivery catheter being coupled to an interface catheter having disposed therein a guide wire comprising a non-coiled segment, a first expandable segment and a leading segment. 26 . The method of claim 25 , wherein transitioning the first expandable segment from the constrained state to a deployed state comprises at least one of: sliding the first expandable segment through the interface catheter, through the delivery catheter, and out of the delivery catheter, and sliding the interface catheter and the delivery catheter over the first expandable segment. 27 . The method of claim 20 , further comprising: exerting pressure on the lumen via coils of the first expandable segment in the deployed state, the pressure being in a range from about 0.25 ATM to about 3.0 ATM. 28 . The method of claim 20 , further comprising: exerting a graduated pressure on the lumen via coils of the first expandable segment in the deployed state such that a first portion of the first expandable segment exerts a different pressure than a second portion of the first expandable segment. 29 . The method of claim 20 , wherein the guide wire further comprises a second expandable segment positioned between the non-coiled segment and the first expandable segment, the second expandable segment being configured to transition between a constrained state and a deployed state, wherein in the deployed state the second expandable segment is arranged as a second coiled wire configured to exert pressure on the lumen, the method further comprising: exerting a graduated pressure on the lumen via coils of the second expandable segment in the deployed state such that a first portion of the second expandable segment exerts a different pressure than a second portion of the second expandable segment. 30 . The method of claim 20 , further comprising: removing the catheter from the lumen; and introducing a therapeutic device over the non-coiled segment via the lumen.