Repositionable tissue capture system, device and method

What is claimed is: 1 . A device for treating tissue, comprising: a tissue capture assembly removably attachable to an insertion device configured to be inserted to a target site within a living body, the tissue capture assembly including a tissue capture sleeve that, in an initial configuration, is removably received on a distal end of the insertion device and a flange that is removably mountable on the insertion device proximal of the tissue capture sleeve when the tissue capture sleeve is in the initial configuration; a first hollow member extending from a proximal end that remains, during use, outside the body accessible by a user to a distal end coupled to the flange; a first tube slidably received within the first hollow member and extending from a proximal end that remains, during use, outside the body accessible by the user distally beyond the flange to a first tube distal end, the first tube being configured to push the tissue capture sleeve distally off of the insertion device when the first tube is advanced distally through the first hollow member; and a first control member slidably received within the first tube and extending from a proximal end that remains, during use, outside the body accessible by the user to a distal end forming a first loop coupled around a circumference of a distal opening of the tissue capture sleeve, the first loop being configured to move between a constricted configuration in which at least a portion of the first loop is drawn proximally into the first tube and an open configuration in which the first loop is extended distally from the first tube to open the first loop and the distal opening of the tissue capture sleeve. 2 . The device of claim 1 , further comprising: a handle including a handle body and a first actuator coupled to the proximal end of the first tube, wherein the first hollow member is coupled to the handle body and the first actuator is movably coupled to the handle body so that movement of the first actuator relative to the handle body moves the first tube proximally and distally within the first hollow member. 3 . The device of claim 2 , further comprising: a second actuator coupled to the proximal end of the first control member, wherein the second actuator is coupled to the first actuator so that movement of the second actuator relative to the first actuator moves the first control member proximally and distally within the first tube. 4 . The device of claim 2 , further comprising: a second hollow member extending from a proximal end that remains, during use, outside the body accessible by the user to a distal end coupled to the flange; a second tube slidably received within the second hollow member and extending from a proximal end that remains, during use, outside the body accessible by the user distally beyond the flange to a second tube distal end, the second tube being configured to operate in conjunction with the first tube to push the tissue capture sleeve distally off of the insertion device when the second tube is advanced distally through the second hollow member; and a second control member slidably received within the second tube and extending from a proximal end that remains, during use, outside the body accessible by the user to a distal end forming a second loop coupled around a circumference of a proximal opening of the tissue capture sleeve, the second loop being configured to move between the constricted configuration in which at least a portion of the second loop is drawn proximally into the second tube and the open configuration in which the second loop is extended distally from the second tube to open the second loop and the proximal opening of the tissue capture sleeve. 5 . The device of claim 4 , wherein the handle further comprises a third actuator coupled to the proximal end of the second tube, wherein the second hollow member is coupled to the handle body and the third actuator is movably coupled to the handle body so that movement of the third actuator relative to the handle body moves the second tube proximally and distally within the second hollow member. 6 . The device of claim 5 , further comprising: a fourth actuator coupled to the proximal end of the second control member, wherein the fourth actuator is coupled to the third actuator so that movement of the fourth actuator relative to the third actuator moves the second control member proximally and distally within the second tube. 7 . The device of claim 1 , wherein the tissue capture sleeve includes an elastomeric loop coupled around a circumference of a proximal opening thereof, the elastomeric loop being biased toward a closed configuration so that, when the tissue capture sleeve is pushed distally off of the insertion device, the elastomeric loop pulls the proximal opening of the tissue capture sleeve closed. 8 . The device of claim 1 , wherein the tissue capture sleeve is formed of one of silicon and a biocompatible plastic. 9 . The device of claim 8 , wherein the tissue capture sleeve is formed of one of Tyvek and Mylar. 10 . The device of claim 1 , wherein the first loop is formed of a shape memory material configured so that, when the first loop is extended from the first tube, the first loop assumes an open loop shape to draw the distal opening of the tissue capture sleeve to the open configuration. 11 . The device of claim 1 , wherein the first loop is formed of a biocompatible metal biased so that, when the first loop is extended from the first tube, the first loop assumes an open loop shape to draw the distal opening of the tissue capture sleeve to the open configuration. 12 . The device of claim 1 , wherein the first loop includes a plurality of radially inwardly facing tissue cutting features. 13 . A device for treating tissue, comprising: a catheter including a tissue capture assembly mounted on a distal portion thereof, the tissue capture assembly including a tissue capture sleeve that, in an initial configuration, is removably received on a distal end of the catheter and a flange extending radially outward from an exterior of the catheter proximal of the tissue capture sleeve when the tissue capture sleeve is in the initial configuration; a first hollow member extending from a proximal end that remains, during use, outside a living body accessible by a user to a distal end coupled to the flange; a first tube slidably received within the first hollow member and extending from a proximal end that remains, during use, outside the body accessible by the user, distally beyond the flange to a first tube distal end; and a first control member slidably received within the first tube and extending from a proximal end that remains, during use, outside the body accessible by the user to a distal end forming a first loop coupled around a circumference of a distal opening of the tissue capture sleeve, the first loop being configured to move between a constricted configuration in which at least a portion of the first loop is drawn proximally into the first tube and an open configuration in which the first loop is extended distally from the first tube to open the first loop and the distal opening of the tissue capture sleeve. 14 . The device of claim 13 , wherein the catheter is sized and shaped for insertion into a blood vessel and wherein the tissue to be targeted is a thrombus. 15 . The device of claim 13 , wherein the catheter is a braided catheter. 16 . A method for capturing tissue, comprising: inserting into a living body to a target site adjacent to the tissue to be treated, a tissue capture assembly removabl