Method for producing an incision figure for a corneal prosthesis

The invention claimed is: 1. Method for producing an incision figure through which a corneal prosthesis can be inserted into a human eye, comprising: providing focussed, pulsed laser radiation, producing an incision figure in the tissue of the eye using the laser radiation by: producing a bed incision located entirely in the depth of a corneal material, producing an annular incision, which, within a circumferential line of the bed incision, extends from the bed incision to a corneal anterior surface, the annular incision produced by scanning the laser radiation with a plurality of superimposed ring scans or a spiral scan from the bed incision to the corneal anterior surface; and producing an auxiliary incision through which the corneal prosthesis can be inserted, the auxiliary incision extending from the corneal anterior surface outside the circumferential line of the bed incision to the bed incision, at each location the auxiliary incision being narrower than the greatest diameter of the annular incision. 2. Method for implanting a corneal prosthesis into a human eye, comprising: providing focussed, pulsed laser radiation, producing an incision figure in the tissue of the eye using the laser radiation by: producing a bed incision located entirely in the depth of a corneal material producing an annular incision, which, within a circumferential line of the bed incision, extends from the bed incision to a corneal anterior surface, the annular incision produced by scanning the laser radiation with a plurality of superimposed ring scans or a spiral scan from the bed incision to the corneal anterior surface; and producing an auxiliary incision through which the corneal prosthesis can be inserted, the auxiliary incision extending from the corneal anterior surface outside the circumferential line of the bed incision to the bed incision, at each location the auxiliary incision being narrower than the greatest diameter of the annular incision; folding together the prosthesis before introducing it into the auxiliary incision; and unfolding the prosthesis after it has passed through the auxiliary incision. 3. Method according to claim 1 , the bed incision extending at a constant depth of the corneal material. 4. Method according to claim 1 , wherein producing the auxiliary incision comprises scanning the laser radiation from a first end of the auxiliary incision located at the corneal anterior surface to a second end of the auxiliary incision located at the bed incision. 5. Method according to claim 1 , wherein producing the bed incision comprises scanning the laser radiation from an area of transition between the auxiliary incision and the bed incision and to an opposite edge portion of the bed incision. 6. Method according to claim 1 , wherein producing the incision figure comprises producing the figure in this order: the auxiliary incision, the bed incision, and the annular incision. 7. Method according to claim 1 , further comprising: removing a piece of corneal tissue delimited by the bed incision and the annular incision. 8. Method for implanting a corneal prosthesis into a human eye, comprising: providing focussed, pulsed laser radiation, producing an incision figure in the tissue of the eye using the laser radiation by: producing a bed incision located entirely in the depth of a corneal material, producing an annular incision, which, within a circumferential line of the bed incision, extends from the bed incision to a corneal anterior surface, the annular incision produced by scanning the laser radiation with a plurality of superimposed ring scans or a spiral scan from the bed incision to the corneal anterior surface; and producing an auxiliary incision through which the corneal prosthesis can be inserted, the auxiliary incision extending from the corneal anterior surface outside the circumferential line of the bed incision to the bed incision, at each location the auxiliary incision being narrower than the greatest diameter of the annular incision; and inserting the corneal prosthesis into the eye through the auxiliary incision such that a main portion of the prosthesis sits in an opening left by the removed piece of tissue, and one or more support elements projecting laterally from the prosthesis main portion extend into the regions of the bed incision located outside the opening.