Balloon catheter with venting of residual air in a proximal direction

What is claimed is: 1. A balloon guide catheter system comprising: a balloon guide catheter, comprising: a catheter shaft with a proximal end and an opposite distal end; wherein the catheter shaft includes: (i) a main lumen defined axially through the catheter shaft; (ii) an inflation lumen extending axially along the catheter shaft; the inflation lumen having a proximal end, an opposite terminating distal end; and (iii) an exhaust lumen extending axially along the catheter shaft, the exhaust lumen having a proximal end and an opposite terminating distal end; a balloon disposed about a distal region of an outer surface of the catheter shaft; wherein the terminating distal end of the inflation lumen and the terminating distal end of the exhaust lumen are in localized fluid communication with one another underneath the balloon when the balloon is in a non-inflated state held taut against the outer surface of the catheter shaft from a proximal end to an opposite distal end of the balloon; and wherein the exhaust lumen is configured to purge residual air in a proximal direction and out from a proximal region of the balloon guide catheter; wherein the outer surface of the catheter shaft has a first localized fluid communication channel defined therein located underneath the balloon via which the terminating distal ends of the respective inflation and exhaust lumens are in localized fluid communication with one another; wherein the first localized fluid communication channel defined in the outer surface of the catheter shaft ensures that in response to injection of inflation medium via the inflation lumen the residual air passes through the exhaust lumen and the balloon is maintained in the non-inflated state held taut against the outer surface of the catheter shaft without inflating the balloon. 2. The balloon guide catheter system according to claim 1 , wherein the inflation and exhaust lumens are radially separated a predetermined distance from one another. 3. The balloon guide catheter system according to claim 1 , wherein the exhaust lumen is disposed within the inflation lumen. 4. The balloon guide catheter system according to claim 1 , wherein the exhaust lumen is eccentrically arranged relative to the main lumen. 5. The balloon guide catheter system according to claim 4 , wherein the exhaust lumen is disposed radially inward of, radially outward of, or within the inflation lumen. 6. The balloon guide catheter system according to claim 1 , further comprising a single hub connected to the proximal end of the catheter shaft; the single hub comprising: an inflation port in fluid communication with the inflation lumen; an exhaust port in fluid communication with the exhaust lumen; a bridge fluid communication channel connecting the inflation and exhaust ports; a membrane disposed within the exhaust port, the membrane having openings defined therein sized to permit passage of only the residual air therethrough; a valve disposed within the exhaust port distally of the membrane, the valve being transitionable between only two states: (i) an open state in which the residual air is permitted to pass through the membrane and out from the exhaust port; and (ii) a closed state in which inflation medium from the exhaust lumen is redirected through the bridge fluid communication channel and into the inflation lumen. 7. The balloon guide catheter system according to claim 6 , wherein irrespective of the state of the valve, the residual air via the exhaust lumen of the catheter shaft is permitted to exit from the balloon guide catheter system. 8. The balloon guide catheter system according to claim 6 , wherein the catheter shaft has an outer wall with an inflation opening defined therein in fluid communication with the inflation port and a vent opening defined therein in fluid communication with the exhaust port and arranged distally relative to the inflation opening. 9. A method for using a balloon guide catheter system including a balloon guide catheter having a catheter shaft with a proximal end and an opposite distal end; wherein the catheter shaft includes: (i) a main lumen defined axially through the catheter shaft; (ii) an inflation lumen extending axially along the catheter shaft, the inflation lumen having a proximal end, an opposite terminating distal end and being disposed radially outward and concentric with respect to the main lumen; (iii) an exhaust lumen extending axially along the catheter shaft, the exhaust lumen having a proximal end and an opposite terminating distal end; the balloon guide catheter further including a balloon disposed about a distal region of an outer surface of the catheter shaft; wherein the terminating distal end of the inflation lumen and the terminating distal end of the exhaust lumen are in fluid communication with one another underneath the balloon when the balloon is in a non-inflated state held taut against the outer surface of the catheter shaft from a proximal end to an opposite distal end of the balloon; the exhaust lumen configured to purge residual air in a proximal direction and out from a proximal region of the balloon guide catheter; wherein the outer surface of the catheter shaft has a first localized fluid communication channel defined therein located underneath the balloon via which the terminating distal ends of the respective inflation and exhaust lumens are in localized fluid communication with one another; wherein the first localized fluid communication channel defined in the outer surface of the catheter shaft ensures that in response to injection of inflation medium via the inflation lumen the residual air passes through the exhaust lumen and the balloon is maintained in the non-inflated state held taut against the outer surface of the catheter shaft without inflating the balloon; the method comprising the steps of: advancing the balloon guide catheter to a target site within a vessel; dispensing an inflation medium through an inflation port of a single hub connected to the proximal end of the catheter shaft and into the inflation lumen only after advancing the balloon guide catheter to the target site within the vessel; advancing distally through the inflation lumen the residual air pushed by the dispensed inflation medium; exhausting proximally through the exhaust lumen the residual air exiting from the terminating distal end of the inflation lumen; and expelling the residual air through a membrane permitting passage therethrough of only the residual air and out from the proximal region of the balloon guide catheter. 10. The method according to claim 9 , wherein the expelling step comprises positioning a valve in an open state to allow the passage of the residual air therethrough and out of the single hub via an exhaust port. 11. The method according to claim 10 , further comprising the step of: following fully purging of the residual air from the balloon guide catheter, inflating of the balloon to an inflated state by the continued dispensing of the inflation medium into the inflation lumen.