Filterless aspiration, irrigating, macerating, rotating microcatheter and method of use

What is claimed is: 1. An endovascular system configured to remove a blockage in a blood vessel, the endovascular system comprising: a) a first endovascular device comprising: a first elongated tubular member having a lumen extending therein and terminating distally in an opening; at least one macerator extending laterally outward from the first elongated member, the macerator rotating to macerate the blockage; and b) a second endovascular device comprising: a second elongated member extending within and movable within the first elongated member; and a filter supported by the second elongated member and configured to capture emboli created during maceration of the blockage by the at least one macerator, the filter positionable distal of the at least one macerator. 2. The endovascular system of claim 1 , further comprising a third endovascular device configured to apply intermittent aspiration to the blood vessel. 3. The endovascular system of claim 1 , further comprising a third endovascular device configured to apply continuous aspiration to the blood vessel. 4. The endovascular system of claim 1 , further comprising a third endovascular device, wherein the third endovascular device further includes an inflatable member supported on an external surface of the second elongated member. 5. The endovascular system of claim 1 , wherein the at least one macerator includes: a first macerator extending laterally outward from an outer wall of the first elongated member in a first direction; and a second macerator extending laterally outward from the outer wall of the first elongated member in a second direction opposite to the first direction; wherein the first and second macerators are spaced apart by the outer wall. 6. The endovascular system of claim 5 , wherein the first macerator includes a first half-loop shaped outer surface and the second macerator includes a second half-loop shaped outer surface. 7. The endovascular system of claim 1 , wherein the first elongated member includes at least one side hole spaced proximally from the opening. 8. The endovascular system of claim 6 , further comprising a plurality of cross-members extending between the first elongated member and the first half looped-shaped outer surface. 9. The endovascular system of claim 1 , wherein the filter includes a flared, semi-permeable membrane configured to allow blood cells and serum to pass therethrough during capture of the emboli. 10. An endovascular system configured to remove a blockage in a blood vessel, the endovascular system comprising: a) a first endovascular device extending along a longitudinal axis and comprising: a tube having a lumen therein; a first microwire having a first end and second end attached to the tube, the first microwire forming a first half loop macerator extending laterally outward therefrom in a first direction to define a first macerator and forming a second half loop macerator extending laterally therefrom in a second direction opposite the first direction to define a second macerator; and a plurality of cross-members extending between the first microwire and the tube; b) a second endovascular device including a filter configured to capture emboli created during maceration of the blockage by the first macerator and the second macerator; and c) a third endovascular device being configured to apply aspiration to the blood vessel to facilitate capture of the emboli by the filter. 11. The endovascular system of claim 10 , wherein the first endovascular device is configured to irrigate the blockage. 12. The endovascular system of claim 10 , wherein the first endovascular device is configured for rotation to macerate the blockage via contact between the blockage, the first macerator, and the second macerator. 13. The endovascular system of claim 10 , wherein the filter includes a semi-permeable membrane such that blood cells and serum pass therethrough during capture of the emboli. 14. The endovascular system of claim 10 , wherein the first half loop overlaps with the second half loop. 15. The endovascular system of claim 10 , further comprising an inflatable member configured to occlude a blood vessel to block antegrade flow distally. 16. The endovascular system of claim 10 , wherein the second endovascular device further includes an inflatable member supported on an external surface thereof. 17. An endovascular system configured to remove a blockage in a blood vessel, the endovascular system comprising: a) a first endovascular device comprising: a hypotube defining a longitudinal axis and including at least one side hole configured to deliver fluid therethrough; a first microwire extending laterally outward from the hypotube to define a first macerator extending in a first direction and a second macerator extending in a second opposite direction, the first microwire having opposing first and second ends spaced apart along the longitudinal axis and connected to the hypotube; and a first plurality of cross-members extending between the first microwire and the hypotube; and b) a second endovascular device comprising: an elongated member; and a flared, semi-permeable filter extending from the elongated member and configured to capture emboli created during maceration of the blockage. 18. The endovascular system of claim 17 , wherein the hypotube is configured for rotation to thereby macerate the blockage via contact between the blockage, the first macerator, and the second macerator. 19. The endovascular system of claim 18 , wherein the hypotube is configured to communicate a fluid through the at least one side hole to continuously irrigate the blockage such that irrigation of the blockage occurs simultaneously with rotation of the hypotube. 20. The endovascular system of claim 18 , wherein the hypotube is configured to communicate a fluid through the at least one side hole to intermittently irrigate the blockage such that irrigation of the blockage occurs simultaneously with rotation of the hypotube. 21. The endovascular system of claim 17 , further comprising a third endovascular device, wherein the third endovascular device is configured to apply continuous aspiration to the blood vessel to facilitate capture of the emboli created during maceration of the blockage. 22. The endovascular system of claim 17 , further comprising a third endovascular device, wherein the third endovascular device is configured to apply intermittent aspiration to the blood vessel to facilitate capture of the emboli created during maceration of the blockage. 23. The endovascular system of claim 17 , further comprising a third endovascular device, wherein the third endovascular device is configured to aspirate to reverse flow.