Strut flow diverter for cerebral aneurysms and methods for preventing strut entanglement

The invention claimed is: 1. A method comprising: providing a flow diverter comprising: a central node comprising a vertical axis and a plurality of angled steps, and a plurality of twisting struts extending from the central node, wherein each twisting strut of the plurality of twisting struts comprises: a proximal portion affixed to one angled step of the plurality of angled steps, a distal portion, a long axis disposed between the proximal portion and the distal portion, an interior surface, an exterior surface, and an exterior spine, twisting each twisting strut of the plurality of twisting struts along the long axis, and setting a first predetermined distance from the distal portion of each twisting strut of the plurality of twisting struts to an adjacent twisting strut; positioning a proximal portion of the flow diverter within a catheter; inserting the proximal portion of the flow diverter into the catheter; moving the distal portion of each twisting strut of the plurality of twisting struts from the first predetermined distance from the adjacent twisting strut to a second predetermined distance from the adjacent twisting strut, wherein the second predetermined distance is less than the first predetermined distance; and interleaving the plurality of twisting struts, wherein interleaving the plurality of twisting struts comprises: twisting each twisting strut of the plurality of twisting struts about the vertical axis; and positioning the interior surface of the distal portion of each twisting strut of the plurality of twisting struts upon the exterior surface of an adjacent twisting strut. 2. The method of claim 1 , wherein the flow diverter further comprises a proximal stabilizing frame affixed to the central node and extending radially from the central node, the method further comprising the step of collapsing the proximal stabilizing frame to fit within the catheter. 3. The method of claim 1 further comprising: delivering the flow diverter to an aneurysm treatment site; inserting the distal portion of the plurality of twisting struts into an aneurysm sac of an aneurysm; and expanding the plurality of twisting struts to engage an aneurysm wall from within the aneurysm sac, wherein the expanding step comprises: untwisting the plurality of twisting struts from their position about the vertical axis; and engaging the aneurysm wall at the exterior spine of the plurality of twisting struts. 4. The method of claim 3 further comprising expanding a proximal stabilizing frame of the flow diverter to engage a blood vessel wall. 5. The method of claim 4 , wherein the proximal stabilizing frame comprises a first frame arm and a second frame arm, and wherein the step of expanding the proximal stabilizing frame to engage the blood vessel wall comprises: engaging the first frame arm to a first blood vessel wall approximate an aneurysm neck in a first blood vessel branch; and engaging the second frame arm to a second blood vessel wall approximate the aneurysm neck in a second blood vessel branch. 6. A method comprising: twisting a plurality of twisting struts along a vertical axis of a central node of a flow diverter, wherein each twisting strut of the plurality of twisting struts is connected to the central node at an angled step such that twisting the plurality of twisting struts causes the plurality of twisting struts to further twist about a long axis of each twisting strut; collapsing the flow diverter by moving a distal portion of each twisting strut of the plurality of twisting struts from a first predetermined distance from an adjacent twisting strut to a second predetermined distance from the adjacent twisting strut, wherein the second predetermined distance is less than the first predetermined distance; and interleaving the plurality of twisting struts, wherein interleaving the plurality of twisting struts comprises: positioning an interior surface of the distal portion of each twisting strut of the plurality of twisting struts upon an exterior surface of an adjacent twisting strut. 7. The method of claim 6 further comprising inserting the flow diverter in a collapsed configuration into a catheter. 8. The method of claim 6 further comprising the step of collapsing a proximal stabilizing frame connected to the central node to fit within a catheter. 9. The method of claim 8 , wherein, once collapsed, the proximal stabilizing frame extends in a direction opposite the plurality of twisting struts with respect to the vertical axis. 10. The method of claim 6 further comprising: delivering the flow diverter to an aneurysm treatment site; inserting the distal portion of the plurality of twisting struts into an aneurysm sac of an aneurysm; and expanding the plurality of twisting struts to engage an aneurysm wall from within the aneurysm sac, wherein the expanding step comprises: untwisting the plurality of twisting struts from their position about the vertical axis; and engaging the aneurysm wall at an exterior spine of the plurality of twisting struts. 11. The method of claim 10 further comprising expanding a proximal stabilizing frame of the flow diverter to engage a blood vessel wall. 12. The method of claim 11 , wherein the proximal stabilizing frame comprises a first frame arm and a second frame arm, and wherein the step of expanding the proximal stabilizing frame to engage the blood vessel wall comprises: engaging the first frame arm to a first blood vessel wall approximate an aneurysm neck in a first blood vessel branch; and engaging the second frame arm to a second blood vessel wall approximate the aneurysm neck in a second blood vessel branch. 13. A method comprising: providing a flow diverter comprising: a central node comprising a vertical axis comprising a plurality of angled steps; and a plurality of twisting struts extending from the central node, wherein the plurality of twisting struts comprises: a proximal portion affixed to one angled step of the plurality of angled steps, a distal portion, a long axis disposed between the proximal portion and the distal portion, an interior surface, an exterior surface, and an exterior spine, twisting each twisting strut of the plurality of twisting struts along the long axis; twisting each twisting strut of the plurality of twisting struts about the vertical axis; delivering the flow diverter to an aneurysm treatment site; inserting the distal portion of the plurality of twisting struts into an aneurysm sac of an aneurysm; and expanding the plurality of twisting struts to engage an aneurysm wall from within the aneurysm sac, wherein the expanding step comprises: untwisting the plurality of twisting struts from their position about the vertical axis; and engaging the aneurysm wall at the exterior spine of the plurality of twisting struts. 14. The method of claim 13 , wherein the flow diverter further comprises a proximal stabilizing frame affixed to the central node and extending radially from the central node, the method further comprising the step of expanding the proximal stabilizing frame to engage a blood vessel wall. 15. The method of claim 14 , wherein the proximal stabilizing frame comprises a first frame arm and a second frame arm, and wherein the step of expanding the proximal stabilizing frame to engage the blood vessel wall comprises: engaging the first frame arm to a first blood vessel wall approximate an aneurysm neck in a first blood vessel branch; and engaging the second frame arm to a second blood vessel wall approximate the aneurysm neck in a