Infusion system and method for sonothrombolysis stroke treatment

What is claimed is: 1. A sonothrombolysis infusion system comprising: a syringe pump; a syringe having a barrel, which in operation holds a microbubble solution and a plurality of magnetic beads added thereto, the syringe being mounted on the syringe pump; and a magnetic stirrer coupled to the syringe pump such that the magnetic stirrer is in proximity to the barrel of the syringe while the syringe is actuated by the syringe pump for dispensing the microbubble solution, wherein the magnetic stirrer comprises a rotatable rod having a plurality of magnets thereon, wherein the magnets are arranged on the rotatable rod to magnetically interact with the plurality of magnetic beads in the barrel to cause the plurality of magnetic beads to stir the microbubble solution in the syringe responsive to rotation of the rotatable rod while the microbubble solution is being dispensed from the syringe, wherein the syringe pump further comprises a retention bar for retaining the syringe in a mounted position on the syringe pump, and wherein the magnetic stirrer is configured to receive the retention bar for coupling the magnetic stirrer to the syringe pump and holding the magnetic stirrer in proximity to barrel of the syringe during dispensing of the microbubble solution from the syringe. 2. The sonothrombolysis infusion system of claim 1 , wherein the magnetic stirrer is placed on the syringe for coupling the magnetic stirrer to the syringe pump. 3. The sonothrombolysis infusion system of claim 2 , wherein the rotatable rod is substantially parallel to the barrel of the syringe when the magnetic stirrer is placed on the syringe. 4. The sonothrombolysis infusion system of claim 2 , wherein the magnetic stirrer further comprises a motor, coupled to the rotatable rod, to rotate the rod at a selectable speed of rotation. 5. The sonothrombolysis infusion system of claim 4 , wherein the selectable speed of rotation is within the range of 60-200 RPM. 6. The sonothrombolysis infusion system of claim 4 , wherein the selectable speed of rotation is less than 100 RPM. 7. The sonothrombolysis infusion system of claim 6 , wherein each of the plurality of magnetic beads has a dimension of at least 2 mm. 8. The sonothrombolysis infusion system of claim 7 , wherein each of the plurality of beads is about 5 mm in length. 9. The sonothrombolysis infusion system of claim 4 , wherein the motor is housed in an enclosure of a frame of the magnetic stirrer, the frame comprising a groove configured to receive the barrel of the syringe at least partially therein. 10. The sonothrombolysis infusion system of claim 9 , wherein the frame is configured to allow the retention bar of the syringe pump to pass through the magnetic stirrer for mounting the magnetic stirrer to the syringe pump. 11. The sonothrombolysis infusion system of claim 10 , wherein the retention bar is positioned between the rotatable bar and the barrel when the magnetic stirrer and syringe are mounted to the syringe pump by the retention bar. 12. The sonothrombolysis infusion system of claim 1 , wherein the retention bar comprises a spring-loaded retention bar; and wherein the syringe pump further comprises a release knob coupled to the spring-loaded retention bar. 13. The sonothrombolysis infusion system of claim 1 , wherein the magnets are arranged on the rotatable rod to cause the magnetic beads in the barrel to move in a random motion within the barrel. 14. A method for delivering a microbubble solution to a subject for sonothrombolysis treatment, the method comprising: providing a sonothrombolysis infusion system according to claim 1 ; placing a plurality of magnetic beads in the barrel of the syringe; at least partially filling the barrel of the syringe containing the plurality of magnetic beads with a microbubble solution; mounting the syringe on the syringe pump; connecting an infusion tube to the syringe; coupling the magnetic stirrer to the syringe pump such that the magnetic stirrer is in proximity to the barrel of the syringe, wherein the magnetic stirrer comprises the rotatable rod having the plurality of magnets thereon; and actuating the syringe pump to cause the microbubble solution to be dispensed from the syringe while rotating the rotatable rod to cause the magnets to magnetically interact with the plurality of magnetic beads in the barrel for stirring the microbubble solution during dispensing of the microbubble solution from the syringe. 15. The method of claim 14 , wherein filling the barrel of the syringe with a microbubble solution further comprises: drawing the microbubble solution into the barrel of the syringe through a syringe needle of size 20 gauge or larger; and removing the needle from the syringe prior to connecting the infusion tube to the syringe. 16. The method of claim 14 , wherein coupling the magnetic stirrer to the syringe pump comprises placing the magnetic stirrer on the syringe and retaining the magnetic stirrer on the syringe with the syringe pump retention bar. 17. The method of claim 14 , wherein coupling the magnetic stirrer to the syringe pump such that the magnetic stirrer is in proximity to the barrel of the syringe further comprises positioning the magnetic stirrer with the rotatable rod substantially parallel to the barrel of the syringe. 18. The method of claim 14 , wherein the magnetic stirrer further comprises a motor coupled to the rotatable rod to rotate the rod at a speed of rotation selected to prevent microbubble stratification in the barrel of the syringe without causing destruction of the microbubbles. 19. The method of claim 14 , further comprising priming the infusion tube with microbubble solution.