Delivery catheter system

The invention claimed is: 1. A delivery catheter system comprising: a catheter including an elongate catheter body having a distal tip and a capsule containing a deliverable prosthesis; an integrated embolic filter, the embolic filter deployable prior to the delivery of a prosthesis in a patient's vasculature and retrievable after delivery of said prosthesis; and a deflecting member connected to an internal surface of the catheter body and to a control member, wherein the control member is configured to manipulate the deflecting member so as to adjust the position of the distal tip within the vasculature of a patient, in use, wherein the embolic filter is moveable from a collapsed state, in which the embolic filter is retained within the catheter body, to a deployed state in which the embolic filter extends from the catheter body and, in use, into contact with an inner wall of a patient's vasculature. 2. A delivery catheter system according to claim 1 , wherein the embolic filter is retained in the collapsed state by the catheter body, and wherein relative movement between the catheter body and the embolic filter in a first direction enables the embolic filter to move from the collapsed state to the deployed state. 3. A delivery catheter system according to claim 2 , wherein relative movement between the catheter body and the embolic filter in a second direction, opposite to the first direction, moves the embolic filter from the deployed state to the collapsed state. 4. A delivery catheter system according to claim 1 , wherein the embolic filter is connected to the catheter at or near the distal tip. 5. A delivery catheter system according to claim 4 , wherein the embolic filter is connected proximal to the capsule. 6. A delivery catheter system according to claim 4 , wherein the embolic filter is attached to the catheter by adhesive, sewing, crimping and/or thermobonding. 7. A delivery catheter system according to claim 1 , wherein the embolic filter is connected to a releasable fastener releasably engaged to the capsule so as to releasably attach the embolic filter to the capsule. 8. A delivery catheter system according to claim 1 , wherein the embolic filter is connected to a resilient fastener, and wherein said resilient fastener is urged into engagement with an external surface of the capsule in a first, retracted, position so as to releasably attach the embolic filter to the capsule. 9. A delivery catheter system comprising: a catheter including an elongate catheter body having a distal tip and a capsule containing a deliverable prosthesis; and an integrated embolic filter, the embolic filter deployable prior to the delivery of a prosthesis in a patient's vasculature and retrievable after delivery of said prosthesis, wherein the embolic filter is moveable from a collapsed state, in which the embolic filter is retained within the catheter body, to a deployed state in which the embolic filter extends from the catheter body and, in use, into contact with an inner wall of a patient's vasculature, wherein the embolic filter is connected to a releasable fastener that is releasably engaged to the capsule so as to releasably attach the embolic filter to the capsule, wherein relative movement between the catheter body and the capsule in a first direction beyond a predetermined distance causes the releasable fastener to disengage from the capsule. 10. A delivery catheter system according to claim 9 , wherein relative movement between the catheter body and the capsule in a second, retraction, direction beyond a predetermined distance causes the releasable fastener to engage the capsule. 11. A delivery catheter system comprising; a catheter including an elongate catheter body having a distal tip and a capsule containing a deliverable prosthesis; and an integrated embolic filter, the embolic filter deployable prior to the delivery of a prosthesis in a patient's vasculature and retrievable after delivery of said prosthesis, wherein the embolic filter is moveable from a collapsed state, in which the embolic filter is retained within the catheter body, to a deployed state in which the embolic filter extends from the catheter body and, in use, into contact with an inner wall of a patient's vasculature, wherein the embolic filter is connected to a resilient fastener, and wherein said resilient fastener is urged into engagement with an external surface of the capsule in a first, retracted, position so as to releasably attach the embolic filter to the capsule, wherein the resilient fastener expands into an internal groove on the catheter body in a second, advanced, position such that the resilient fastener disengages from the capsule to enable the capsule to be advanced independently of the embolic filter. 12. A delivery catheter system according to claim 11 , wherein the catheter body comprises an abutment surface configured and arranged to abut against the resilient fastener when the capsule is retracted from a position beyond the second, advanced, position past said second, advanced, position so as to move the resilient fastener along a tapered surface of the internal groove to urge the resilient fastener into engagement with capsule.