Medical tools for small incision eye surgery

That which is claimed: 1. A medical tool, comprising: a flexible platform; a barrel having a leading end, wherein the barrel is configured to retract the flexible platform into the leading end, and wherein the leading end of the barrel is sized and configured to enter an incision into an anterior chamber of a patient's eye; and a fluid delivery member in the barrel configured to provide flow-through irrigation into the anterior chamber during implantation, wherein the fluid delivery member has an open leading end and is aligned with but longitudinally spaced apart from the leading end of the barrel, wherein the flexible platform has a planar shape outside the barrel during a tissue graft loading operation and is configured to take on a rolled shape as it is retracted inside the barrel to conformably hold the tissue graft and thereby force the loaded tissue graft to take on the rolled shape, and wherein the tissue graft is released from the leading end of the barrel during delivery into a respective patient's eye. 2. A medical tool according to claim 1 , wherein the barrel includes a manually deployable user control member that is in communication with the platform to allow a user to retract the platform into the barrel. 3. A medical tool according to claim 2 , wherein, during use, a user moves the control member in one direction to retract the platform into the barrel with the tissue graft during the loading operation, and wherein during implantation, a user moves the control member in an opposite direction to release the tissue graft from the leading end of the barrel and allow the tissue graft to unroll outside the barrel once inside the eye. 4. A medical tool according to claim 1 , wherein the barrel is configured to releasably attach to a fluid irrigation source, and wherein the barrel is configured to deliver fluid from the fluid source through the fluid delivery member then from the leading end of the barrel to maintain an anterior chamber of the patient's eye during transfer of the tissue graft. 5. A medical tool according to claim 1 , further comprising a donor corneal disc as the tissue graft held on the platform for delivery into a respective anterior chamber of the patient's eye from the leading end of the medical tool, wherein the flexible platform holds the corneal disc in a rolled configuration inside the barrel with an endothelial side facing away from the flexible platform. 6. A medical tool according to claim 5 , wherein the corneal disc has a thickness that is between 100-200 μm, and wherein the flexible platform is between 10-100 μm thick. 7. A medical tool according to claim 1 , wherein the leading end is tapered and has a width and height that is between about 3 mm to about 6 mm. 8. A medical tool according to claim 1 , wherein the fluid delivery member comprises an elongate tube that provides a flow-through irrigation lumen, and wherein the tube has a leading discharge end that resides upstream of the leading end of the barrel. 9. A medical tool according to claim 8 , wherein the tube leading discharge end is concentric with the leading end of the barrel. 10. A medical tool according to claim 1 , wherein the leading end of the barrel comprises a first cannula, wherein the first cannula is slidably attached to a second cannula, the second cannula residing behind and concentrically aligned with the first cannula. 11. A medical tool for implanting a tissue in an eye of a patient, comprising: a tubular body having opposing first and second end portions, the first end portion having a leading forward open end with a width that is between about 3 mm to about 6 mm, wherein the second end portion of the elongate body is configured to releasably engage a fluid source; a flexible carrier substrate configured to be retracted to enter the leading end of the tubular body while holding implantable tissue; a tubular inner fluid delivery member in the tubular body configured to provide flow-through irrigation during implantation of the implantable tissue; and a user control mechanism in communication with the flexible carrier substrate that is configured to retract the flexible carrier into the tubular body, wherein the flexible carrier substrate is configured to have a flat configuration outside the tubular body to hold the implantable tissue thereon during loading and is configured to automatically take on a rolled configuration while holding the implantable tissue as the flexible substrate conformably holds the implantable tissue and is retracted into the leading end of the tubular body, and wherein, during delivery, a user manually moves the user control mechanism to cause the tool to release the implantable tissue from the leading end of the tubular body while fluid is emitted by the tubular inner fluid delivery member into an anterior chamber of the eye. 12. The medical tool of claim 11 , wherein the flexible carrier releasably conformably holds the tissue inside the tubular body with an endothelial side of the tissue facing away from the flexible carrier substrate, and wherein, during delivery of the tissue graft into an anterior chamber of an eye of the patient, in response to movement of the control mechanism by a user, the tissue graft is atraumatically unsheathed from the tool while the flexible carrier substrate remains in the tool. 13. The medical tool of claim 11 , wherein the second end portion of the tool body comprises a luer lock that releasably engages the fluid source, wherein the tubular inner fluid delivery member is concentric with the leading forward open end of the elongate body, and wherein a leading end of the tubular inner fluid delivery member is stationary and resides upstream of but proximate the implantable tissue when the tissue is in the tubular body. 14. The medical tool of claim 11 , wherein the first end portion of the tool includes at least one cannua slidably attached to a second cannula residing behind and concentrically aligned with the first cannula. 15. The medical tool of claim 11 , wherein the flexible carrier substrate has at least one aperture extending therethrough, the at least one aperture configured to reside under or over a respective implantable tissue held on the substrate during the loading operation and when in the medical tool. 16. The medical tool of claim 11 , further comprising a tissue graft held inside the first end portion of the elongate body on the flexible carrier in the rolled configuration, wherein the tissue graft is a donor corneal grafting disc having a diameter between about 8-8.25 mm and a thickness between about 100-200 μm, and wherein at least a portion of the first end portion of the tubular body is visually transmissive. 17. A medical tool for implanting a tissue graft having an endothelial side in an eye of a patient, comprising: an elongate body having opposing first and second end portions and a fluid flow path therebetween, the first end portion of the elongate body holding a first cannula on a leading end thereof defining a cavity with a forward open end having a width that is between about 3 mm to about 6 mm, the first cannula slidably attached to a second tubular cannula that is behind and concentrically aligned with the first cannula, and wherein the second end portion of the elongate body is configured to releasably engage a fluid source wherein the first cannula is configured to releasably hold the tissue graft in a rolled configuration inside the first cannula; a flexible carrier substrate configured to retract into the first cannula to change from a planar shape outside the elongate body into