Hemostatic clipping devices and methods

What is claimed is: 1. A tissue clipping device, comprising: a flexible insertion member extending from a proximal end which, during use remains outside a body accessible to a user to a distal end which is inserted into the body through a naturally occurring body lumen; a clip including first and second clip arms; a capsule housing a portion of the clip therein; a control wire extending through the flexible insertion member from a proximal end to a distal end removably coupled to the clip by a joint at a proximal end of the clip, the control wire being reversibly operable to move the first and second clip arms between an open configuration in which distal ends of the first and second clip arms are separated from one another and a closed configuration in which the distal ends of the first and second clip arms are drawn together to grip tissue located therebetween; and an actuator coupled to the control wire and configured to move the first and second clip arms between the open and closed configurations, application of a predetermined force to the actuator applying a force to the control wire freeing the proximal end of the clip to move radially outward to engage an increased diameter portion of the capsule and disengage the control wire from the clip. 2. The tissue clipping device of claim 1 , wherein the capsule is configured to remain coupled to the clip when the control wire disengages from the clip. 3. The tissue clipping device of claim 1 , wherein the clip is a multi-piece clip. 4. The tissue clipping device of claim 1 , wherein a distal end of the control wire includes an enlargement configured to engage the clip. 5. The tissue clipping device of claim 4 , wherein the clip includes a recess having a shape corresponding to the shape of the enlargement of the control wire. 6. The tissue clipping device of claim 1 , wherein the capsule includes a cavity formed therein, the increased diameter portion extending along a wall of the cavity. 7. The tissue clipping device of claim 6 , wherein retraction of the clip into the capsule causes the proximal end of the clip to move into the increased diameter portion. 8. The tissue clipping device of claim 1 , wherein the capsule includes a proximal section and a distal section coupled to one another by a post extending from the distal section into a corresponding cavity formed in the proximal section. 9. The tissue clipping device of claim 8 , wherein the movement of the clip into the capsule causes the post to break, permitting the proximal end of the clip to expand into the increased diameter portion. 10. The tissue clipping device of claim 1 , wherein the first and second clip arms include increased width shoulders engaging a distal end of the capsule to prevent the first and second clips arms from being withdrawn into the capsule beyond a predetermined distance corresponding to a length of the shoulders. 11. A tissue clipping device, comprising: a flexible insertion member extending from a proximal end which, during use remains outside a body accessible to a user to a distal end which is inserted into the body through a naturally occurring body lumen; a clip including first and second clip arms; a capsule housing a portion of the clip therein; and a control wire extending through the flexible insertion member from a proximal end to a distal end removably coupled to the clip by a joint at a proximal end of the clip, the control wire being reversibly operable to move the first and second clip arms between an open configuration in which distal ends of the first and second clip arms are separated from one another and a closed configuration in which the distal ends of the first and second clip arms are drawn together to grip tissue located therebetween; wherein movement of the control wire moves move the first and second clip arms between the open and closed configurations, application of a predetermined force to the control wire freeing the proximal end of the clip to move radially outward to engage an increased diameter portion of the capsule and disengage the control wire from the clip. 12. The tissue clipping device of claim 11 , wherein the capsule is configured to remain coupled to the clip when the control wire disengages from the clip. 13. The tissue clipping device of claim 11 , wherein the clip is a multi-piece clip. 14. The tissue clipping device of claim 11 , wherein a distal end of the control wire includes an enlargement configured to engage the clip. 15. The tissue clipping device of claim 14 , wherein the clip includes a recess having a shape corresponding to the shape of the enlargement of the control wire. 16. The tissue clipping device of claim 11 , wherein the capsule includes a cavity formed therein, the increased diameter portion extending along a wall of the cavity, wherein retraction of the clip into the capsule causes the proximal end of the clip to move into the increased diameter portion. 17. The tissue clipping device of claim 11 , wherein the capsule includes a proximal section and a distal section coupled to one another by a post extending from the distal section into a corresponding cavity formed in the proximal section. 18. The tissue clipping device of claim 17 , wherein the movement of the clip into the capsule causes the post to break, permitting the proximal end of the clip to expand into the increased diameter portion. 19. The tissue clipping device of claim 11 , wherein the first and second clip arms include increased width shoulders engaging a distal end of the capsule to prevent the first and second clips arms from being withdrawn into the capsule beyond a predetermined distance corresponding to a length of the shoulders. 20. A method for causing hemostasis, comprising: inserting into a body a medical device comprising a clip having first and second clip arms, a capsule housing a portion of the clip therein and a control wire extending through the flexible insertion member from a proximal end to a distal end removably coupled to the clip; positioning the medical device at a desired deployment location; moving the control wire distally to cause the clip to move distally relative to the capsule, the movement causing the first and second clip arms radially outward to a tissue-receiving configuration; adjusting a position of the clip so that target tissue is received between the first and second clip arms; drawing the control wire proximally relative to the capsule to draw the clip into the capsule to receive the target tissue between the first and second clip arms in a tissue gripping configuration; and applying a proximal tensile force of at least a threshold level to the control wire to cause a proximal end of the clip to be received in an enlarged diameter portion of the capsule and separate a joint coupling the control wire to the clip.