Methods and systems for clearing thrombus from a vascular access site

The invention claimed is: 1. A system for increasing blood flow through a vascular fistula, comprising: a catheter comprising an imaging transducer and an expandable balloon, wherein the imaging transducer is disposed proximally of the expandable balloon; an imaging controller operatively coupled to the imaging transducer and configured to cause the imaging transducer to image the vascular fistula from inside the vascular fistula after disruption of a thrombus in the vascular fistula; a second controller operatively coupled to the expandable balloon and configured to actuate the expandable balloon thereby disrupting the thrombus in the vascular fistula, and increasing blood flow through the vascular fistula, wherein the second controller controls a pump delivering pressurized fluid to actuate the expandable balloon; and an image processing system operatively coupled to the imaging transducer and configured to (i) receive imaging data from inside the vascular fistula from the imaging transducer and output data corresponding to an image of a cross-section of the vascular fistula and (ii) determine changes in a boundary corresponding to an open cross-section of the fistula based upon the output data corresponding to the image; (iii) produce a boundary signal representative of an effectiveness of the disruption of the thrombus in the vascular fistula based upon the determined changes in the boundary; and (iv) direct the second controller to continue disrupting the thrombus if the boundary signal indicates that the thrombus remains in the vascular fistula. 2. The system of claim 1 , further comprising a display configured to receive the data corresponding to the image of a cross-section of the vascular fistula and to display the image of a cross-section of the vascular fistula. 3. The system of claim 2 , wherein the display is configured to display the boundary corresponding to the open cross-section of the fistula. 4. The system of claim 1 , wherein the vascular fistula is an arteriovenous fistula. 5. The system of claim 1 , wherein the imaging transducer is an ultrasound transducer. 6. The system of claim 5 , wherein the imaging transducer is a phased array ultrasound transducer. 7. The system of claim 5 , wherein the imaging transducer is coupled to a rotational pullback mechanism. 8. The system of claim 1 , wherein the vascular fistula comprises a graft between a first and second blood vessel. 9. The system of claim 8 , wherein the graft is an autologous graft. 10. A system for reducing a thrombus in a vascular fistula of a patient, the system comprising: a catheter comprising an imaging transducer and an expandable balloon, wherein the imaging transducer is disposed proximally of the expandable balloon; a balloon controller operatively coupled to the expandable balloon and configured to actuate the expandable balloon thereby disrupting the thrombus in the vascular fistula and increasing blood flow through the vascular fistula, wherein the balloon controller controls a pump delivering pressurized fluid to actuate the expandable balloon; an imaging controller operatively coupled to the imaging transducer and configured to cause the imaging transducer to produce first imaging data from inside the vascular fistula before actuation of the expandable balloon and second imaging data from inside the vascular fistula after actuation of the expandable balloon; and an image processing system operatively coupled to the imaging transducer and configured to (i) receive the first and second imaging data from the imaging transducer and produce output data corresponding to before and after images of a cross-section of the vascular fistula, respectively, that are each taken from inside the vascular fistula; (ii) determining changes in a boundary corresponding to an open cross-section of the fistula based upon the output data corresponding to the before and after images; (iii) produce a boundary signal representative of an effectiveness of the disruption of the thrombus in the vascular fistula based upon the determined changes in the boundary; and (iv) direct the balloon controller to continue disrupting the thrombus if the boundary signal indicates that the thrombus remains in the vascular fistula.