System and methods for lung isolation and one lung ventilation

What is claimed is: 1. An apparatus for lung isolation and selective lung ventilation, comprising: an expandable bronchial isolation tube (EBIT) having a central channel spanning from a proximal end and a distal end of the tube; wherein the EBIT comprises a collapsible tubular member terminating at said distal end; the collapsible tubular member having a collapsed configuration and an open tubular configuration, wherein the tubular member collapses in response to applying an axial load and opens in response to removing the axial load; wherein the distal end of the EBIT comprises an expandable member having a compressed configuration and an expanded configuration; wherein the expandable member is configured to engage an internal surface at a location within a patient's airway when in the expanded configuration; and a bifurcated connector having a distal section configured for attachment to an endotracheal tube; said distal section bifurcating into two proximal lumens; wherein a first lumen of the two proximal lumens is configured to receive the EBIT in the collapsed configuration for to advancement past the endotracheal tube to the location; and wherein, upon opening of the collapsible tubular member and engagement of the expandable member at the location, ventilation is applied to either of the two proximal lumens to selectively ventilate the patient's left and right lungs. 2. An apparatus as recited in claim 1 , further comprising: a steerable stylet; wherein the steerable stylet is configured to be received within the central channel of the EBIT such that the EBIT can be collapsed around the stylet for delivery to the location; and wherein the steerable stylet is configured to steer the EBIT to the location within patient's airway. 3. An apparatus as recited in claim 2 , wherein the steerable stylet comprises an optical steerable stylet having a distal end with a camera disposed on the distal end of the stylet. 4. An apparatus as recited in claim 1 , wherein the collapsible tubular member comprises a collapsible nitinol frame configured to spring to the open tubular configuration when in a resting state, and a membrane configured to conduct gas through the central channel. 5. An apparatus as recited in claim 1 , wherein the expandable member comprises a cylindrical balloon having an outer surface configured to engage the internal surface of the airway to affect a seal with the internal surface. 6. An apparatus as recited in claim 5 , wherein the outer surface of the cylindrical balloon is course to promote contact with the internal surface of the airway. 7. An apparatus as recited in claim 1 , wherein the first lumen comprises an internal seal configured to mate with the EBIT when in the open tubular configuration. 8. An apparatus as recited in claim 7 , wherein the proximal end of the EBIT comprises a connector configured to allow attachment of a ventilator. 9. An apparatus as recited in claim 8 , wherein a second lumen of the two proximal lumens comprises a connector configured to allow attachment of a ventilator. 10. An apparatus as recited in claim 9 : wherein the expandable member is configured to engage a bronchus wall of the airway; wherein attachment of a ventilator to the proximal end of the EBIT ventilates a lung in communication with the engaged bronchus; and wherein attachment of a ventilator to the second lumen ventilates a lung in communication with a bronchus not engaged by the expandable member. 11. A system for lung isolation and selective lung ventilation, comprising: an expandable bronchial isolation tube (EBIT) having a central channel spanning from a proximal end and a distal end of the tube; wherein the EBIT comprises a collapsible tubular member terminating at said distal end; the collapsible tubular member having a collapsed configuration and an open tubular configuration, wherein the tubular member collapses in response to applying an axial load and opens in response to removing the axial load; wherein the distal end of the EBIT comprises an expandable member having a compressed configuration and an expanded configuration; wherein the expandable member is configured to engage an internal surface at a location within a patient's airway when in the expanded configuration; a bifurcated connector having a distal section configured for attachment to an endotracheal tube; said distal section bifurcating into two proximal lumens; wherein a first lumen of the two proximal lumens is configured to receive the EBIT in the collapsed configuration for advancement past the endotracheal tube to the location; wherein, upon opening of the collapsible tubular member and engagement of the expandable member at the location, ventilation is applied to either of the two proximal lumens to selectively ventilate the patient's left and right lungs; and a steerable stylet; wherein the steerable stylet is configured to be received within the central channel of the EBIT such that the EBIT can be collapsed around the stylet for delivery to the location; and wherein the steerable stylet is configured to steer the EBIT to the location within patient's airway. 12. A system as recited in claim 11 , wherein the steerable stylet comprises an optical steerable stylet having a distal end with a camera disposed on the distal end of the stylet. 13. A system as recited in claim 11 , wherein the collapsible tubular member comprises a collapsible nitinol frame configured to spring to the open tubular configuration when in a resting state, and a membrane configured to conduct gas through the central channel. 14. A system as recited in claim 11 , wherein the expandable member comprises a cylindrical balloon having an outer surface configured to engage the internal surface of the airway to affect a seal with the internal surface. 15. A system as recited in claim 14 , wherein the outer surface of the cylindrical balloon is course to promote contact with the internal surface of the airway. 16. A system as recited in claim 11 , wherein the first lumen comprises an internal seal configured to mate with the EBIT when in the open tubular configuration. 17. A system as recited in claim 16 , wherein the proximal end of the EBIT comprises a connector configured to allow attachment of a ventilator. 18. A system as recited in claim 17 , wherein a second lumen of the two proximal lumens comprises a connector configured to allow attachment of a ventilator. 19. A system as recited in claim 18 : wherein the expandable member is configured to engage a bronchus wall of the airway; wherein attachment of a ventilator to the proximal end of the EBIT ventilates a lung in communication with the engaged bronchus; and wherein attachment of a ventilator to the second lumen ventilates a lung in communication with a bronchus not engaged by the expandable member. 20. A method for lung isolation and selective lung ventilation; comprising: inserting a distal end of an endotracheal tube into an airway of the patient; coupling a distal section of a bifurcated connector to a proximal end of the endotracheal tube, the distal section bifurcating into two proximal lumens; receiving an expandable bronchial isolation tube (EBIT) in a collapsed configuration through a first lumen of the two proximal lumens and advancing the EBIT past the distal end endotracheal tube to a location within the airway; opening the EBIT to an open tubular configuration; wherein the EBIT collapses in response to applying an axial load and opens in resp