Retrograde blood flow occlusion flushing device

What is claimed is: 1. A method for using a retrograde blood flow occlusion flushing device during recanalization of a vessel having a targeted blockage disposed therein, the device including a catheter body having a proximal end and an opposite distal end; at least one lumen defined longitudinally in the catheter body; the device further including an occluding component disposed proximate the distal end of the catheter body; the occluding component activatable to transition from a collapsed state to an expanded state; the occluding component having an enlarged diameter in the expanded state relative to that while in the collapsed state as measured from a longitudinal axis of the catheter body; a flushing fluid deliverable through the at least one lumen of the catheter body and exiting from a port defined in the catheter body; the port being disposed proximally of the occluding component; the method comprising the steps of: while the occluding component is in the collapsed state, introducing the retrograde blood flow occlusion flushing device distally intravascularly traversing the targeted blockage until the occluding component is disposed distally of the targeted blockage; once properly positioned distally of the targeted blockage, activating the occluding component to transition from the collapsed state to the expanded state; while in the expanded state the enlarged diameter forming a seal with an internal wall of the vessel prohibiting anterograde blood flow distally beyond the occluding component; and establishing retrograde blood flow in a region of the vessel bound at one end by the expanded occluding component and at an opposite end by the targeted blockage by dispensing the flushing fluid from the port of the catheter body into the region of the vessel; wherein the establishing step comprises the step of increasing a pressure on a distal face of the targeted blockage so that it is substantially greater than a pressure on a proximal face of the targeted blockage; wherein following the step of increasing the pressure on the distal face of the targeted blockage so that it is substantially greater than the pressure on a proximal face of the targeted blockage, thereafter comprising the step of aspirating the targeted occlusion. 2. The method in accordance with claim 1 , wherein the pressure is initially increased on the distal face of the of the targeted blockage until a pressure differential relative to the pressure on the proximal face of the targeted blockage is at least approximately 25% to dislodge the targeted blockage from inner walls of the vessel, once the targeted blockage is dislodged thereafter the pressure differential is at least approximately 5% to propel the targeted blockage proximally through the vessel. 3. The method in accordance with claim 1 , wherein the increasing step comprises dispensing the flushing fluid from the port of the catheter body into the region of the vessel bound at the one end by the occluding component and at the opposite end by the targeted blockage. 4. The method in accordance with claim 1 , wherein the port is defined in a distal end of the catheter body; and the occluding component is a flap extending radially outward from the catheter body in the extended state and substantially flush in profile with an outer surface of the catheter body when in the collapsed state; the flap being automatically deployed by the flushing fluid exiting from the port. 5. The method in accordance with claim 1 , wherein the establishment of retrograde blood flow pushes the targeted blockage in a retrograde direction proximally from the vessel. 6. The method in accordance with claim 1 , wherein the vessel has a bifurcation immediately distal to the targeted blockage; the bifurcation comprising a main branch and a side branch; delivering of two of the retrograde blood flow occlusion flushing devices, one in each of the main and the side branches. 7. The method in accordance with claim 1 , wherein the catheter body has a plurality of lumen defined longitudinally therethrough; wherein one of the plurality of lumen is a flushing lumen for delivery of the flushing fluid. 8. The method in accordance with claim 7 , wherein the port is defined in a side of the catheter body; the occluding component is an inflatable balloon; and another of the plurality of lumen delivering an inflating fluid to inflate the inflatable balloon from the collapsed state to the expanded state. 9. The method in accordance with claim 1 , while the occluding component is withdrawn proximally through the vessel, activating a clot capture mechanical component disposed proximally of the occluding component to transition from a collapsed state to an expanded state extending radially outward from the catheter body; while in the expanded state the clot capture mechanical component prevents movement of the targeted blockage through the vessel distally beyond the deployed clot capture mechanical component. 10. The method in accordance with claim 9 , wherein when deployed terminating free ends of the clot capture mechanical component physically contact inner walls of the vessel. 11. A method for using a retrograde blood flow occlusion flushing device during recanalization of a vessel having a targeted blockage disposed therein, the device including a catheter body having a proximal end and an opposite distal end; at least one lumen defined longitudinally in the catheter body; the device further including an occluding component disposed proximate the distal end of the catheter body; the occluding component activatable to transition from a collapsed state to an expanded state; the occluding component having an enlarged diameter in the expanded state relative to that while in the collapsed state as measured from a longitudinal axis of the catheter body; a flushing fluid deliverable through the at least one lumen of the catheter body and exiting from a port defined in the catheter body; the port being disposed proximally of the occluding component; the method comprising the steps of: while the occluding component is in the collapsed state, introducing the retrograde blood flow occlusion flushing device distally intravascularly traversing the targeted blockage until the occluding component is disposed distally of the targeted blockage; once properly positioned distally of the targeted blockage, activating the occluding component to transition from the collapsed state to the expanded state; while in the expanded state the enlarged diameter forming a seal with an internal wall of the vessel prohibiting anterograde blood flow distally beyond the occluding component; and establishing retrograde blood flow in a region of the vessel bound at one end by the expanded occluding component and at an opposite end by the targeted blockage by dispensing the flushing fluid from the port of the catheter body into the region of the vessel; wherein the establishing step comprises the step of increasing a pressure on a distal face of the targeted blockage so that it is substantially greater than a pressure on a proximal face of the targeted blockage; wherein following the step of increasing the pressure on the distal face of the targeted blockage so that it is substantially greater than the pressure on a proximal face of the targeted blockage, thereafter comprising the step of capturing and removing the targeted occlusion using a mechanical removal device. 12. The method in accordance with claim 11 , wherein the pressure is initially increased on the distal face of the of the targeted blockage until a pressure differential relative to the pressure on the proximal face of the targeted blockage is at least approximately 25% to dislod