Expandable devices and associated systems and methods

The invention claimed is: 1. An implantable device configured to be positioned across a neck of an aneurysm at a bifurcation of a blood vessel of a patient to prevent or limit blood flow into the aneurysm, the device comprising: a generally tubular mesh configured to be implanted within the blood vessel, the mesh having a constrained state for a delivery through a catheter and an expanded state, wherein the tubular mesh comprises a circumferentially continuous first end portion configured to be positioned within a first lumen of the blood vessel and a second end portion, the second end portion comprising (i) a circumferentially discontinuous first articulating region comprising a first surface concave towards a longitudinal dimension of the tubular mesh, a first longitudinal edge, and a second longitudinal edge, opposite the first longitudinal edge along a width of the first articulating region, the first articulating region being configured to be positioned within a second lumen of the blood vessel and (ii) a partially circumferentially discontinuous second articulating region comprising a circumferentially discontinuous portion extending away from the first end portion to a circumferentially continuous portion, the circumferentially discontinuous portion comprising a second surface concave towards the longitudinal dimension of the tubular mesh, opposite the first surface along a circumference of the tubular mesh, a third longitudinal edge, and a fourth longitudinal edge opposite the third longitudinal edge along a width of the second articulating region, the second articulating region being configured to be positioned within a third lumen of the blood vessel, wherein the first and second lumens are distal of the third lumen, a first plurality of radiopaque markers attached to the first articulating region and a second plurality of radiopaque markers attached to the second articulating region, wherein the first plurality of radiopaque markers comprises fewer radiopaque markers than the second plurality of radiopaque markers, wherein in the constrained state the first longitudinal edge of the first articulating region is located adjacent to the third longitudinal edge of the second articulating region and the second longitudinal edge of the first articulating region is located adjacent to the fourth longitudinal edge of the second articulating region such that the second end portion of the mesh is substantially tubular and the first surface of the first articulating region and the second surface of the second articulating region define a lumen of the second end portion, wherein in the expanded state, the tubular mesh is configured so that the first articulating region is positionable at a first angle relative to the first end portion and the second articulating region is positionable at a second angle relative to the first end portion such that the first longitudinal edge of the first articulating region forms a third angle, greater than 90 degrees, with the third longitudinal edge of the second articulating region so that the first articulating region and the second articulating region are extendable in opposite directions in the second lumen of the blood vessel and the third lumen of the blood vessel, respectively, with at least a portion of the mesh proximate to a connection between the first end portion and the first articulating region being positioned across the neck of the aneurysm in order to prevent or limit blood flow into the aneurysm. 2. The device of claim 1 , wherein a length of the first articulating region is less than a length of the second articulating region. 3. The device of claim 1 , wherein the first longitudinal edge of the first articulating region is circumferentially spaced apart from the second longitudinal edge of the first articulating region by about 180 degrees. 4. The device of claim 1 , wherein a width of the first articulating region is less than the width of the second articulating region. 5. The device of claim 1 , wherein the first angle is about 0 degrees and the second angle is between about 30 degrees and 150 degrees. 6. The device of claim 1 , wherein the first angle is substantially equivalent to the second angle. 7. The device of claim 1 , wherein longitudinal edges of the first and second articulating regions have been soldered, melted, welded, or glued. 8. The device of claim 1 , wherein in the constrained state, the first longitudinal edge of the first articulating region is spaced apart from the third longitudinal edge of the second articulating region by a first gap and the second longitudinal edge of the first articulating region is spaced apart from the fourth longitudinal edge of the second articulating region by a second gap. 9. The device of claim 1 , further comprising a plurality of radiopaque markers positioned around a circumference of the first end portion of the mesh. 10. An implantable device configured to be positioned across a neck of an aneurysm at a bifurcation of a parent blood vessel of a patient into a first branching blood vessel and a second branching blood vessel to prevent or limit blood flow into the aneurysm, the device comprising: an expandable mesh configured to be implanted within the first branching blood vessel and the second branching blood vessel, the expandable mesh having a low-profile configuration for a delivery through a catheter and an expanded configuration, wherein the expandable mesh comprises a generally tubular body portion extending from a first end to a second end along a longitudinal dimension of the body portion and an arm portion comprising a circumferentially discontinuous region and a circumferentially continuous region, the circumferentially discontinuous region comprising a surface concave towards the longitudinal dimension of the tubular body portion and extending from a first end at the first end of the body portion to a second end at the circumferentially continuous region along a longitudinal dimension of the arm portion, wherein the body portion carries a plurality of first radiopaque markers spaced apart around a circumference of the body portion and the arm portion carries at least one second radiopaque marker, wherein in the low-profile configuration, the longitudinal dimension of the arm portion is generally parallel with the longitudinal dimension of the body portion, and wherein in the expanded configuration, the expandable mesh is configured so that the longitudinal dimension of the arm portion is positionable at an angle with respect to the longitudinal dimension of the body portion so that the body portion is configured to be positioned within a lumen of the first branching blood vessel and the arm portion is configured to be positioned within a lumen of the second branching blood vessel such that the first end of the body portion and the first end of the arm portion are positioned proximal of the second end of the body portion and the second end of the arm portion and the expandable mesh is positioned across the neck of the aneurysm, the aneurysm being located between the first and second branching blood vessels, in order to prevent or limit blood flow into the aneurysm. 11. The device of claim 10 , wherein the angle is between about 30 degrees and about 150 degrees. 12. The device of claim 10 , wherein the arm portion is a first arm portion, the arm portion further comprising a second arm portion extending from the body portion, wherein, when the expandable mesh is in an expanded configuration, the longitudinal dimension of the first arm portion is positioned at a first angle to the longitudinal dimension of the body portion and a longitudinal dimension of the second arm portion