Apparatus for monitoring one or more surgical parameters of the eye

What is claimed is: 1. An apparatus for monitoring one or more surgical parameters at least one surgical parameter of an eye over multiple sessions which are temporally spaced apart and between which the eye of a patient can have moved, said apparatus comprising: a camera for taking one or more images of the eye; an image processing computer configured to: determine during a first session, said at least one surgical parameter of the eye and its coordinates based on the image taken by said camera in the first coordinate system; determine during a second session temporally spaced apart from said first session, said at least one surgical parameter of the eye and its coordinates based on the image taken by said camera in a second coordinate system; determine an eye motion in six degrees of freedom between said first and said second session and for determined a coordinate transformed based thereon; transform based on said determined eye motion said at least one surgical parameter of the eye and its coordinates from said first coordinate system into said second coordinate system; quantify or visualize a change of said at least one surgical parameter of the eye and its coordinates between said first and said second session based on said surgical eye parameter and its coordinates measured during said second session and said transformed surgical eye parameter and its coordinates measured during said first session, wherein said surgical eye parameters are one or more of the following: implant-related parameters of the eye which are based on an implant which has been surgically placed in the eye of a patient; or a location or contour of corneal or limbal or scleral incisions. 2. The apparatus of claim 1 , wherein said implant related eye parameter comprises one or more of the following: an orientation or position of the implant in the eye; a location or the contour of a rhexis; an overlap of the rhexis with a contour of the implant. 3. The apparatus of claim 1 , wherein said image processing computer configured to quantify or visualize the change of said at least one surgical eye parameter is also configured to: display said least one surgical eye parameter measured during said second session and said transformed surgical eye parameter measured during said first session in the image of the eye taken during said second session; or calculate a difference between said surgical eye parameter measured during said second session and said transformed surgical eye parameter measured during said first session and visualize said difference in said image of the eye taken during said second session. 4. The apparatus of claim 1 , wherein said first session is one of: a pre-surgery session and said second session is an intra surgery session or a post surgery session, an intra-surgery session and said second session is a post surgery session, and a post-surgery session and said second session is another post surgery performed at a later time. 5. The apparatus of claim 1 , wherein said image processing computer is configured to: measure and record said at least one surgical eye parameter during multiple sessions over time in order to record the change of said at least one surgical eye parameter over time. 6. An apparatus for monitoring at least one surgical parameter of an eye over multiple sessions which are temporally spaced apart and between which the eye of a patient can have moved, said apparatus comprising: a camera for taking one or more images of the eye; an image processing computer configured to: determine during a first session, said as least one surgical parameter of the eve and its coordinates based on the image taken by said camera in a first coordinate system; determine during a second session temporally spaced apart from said first session said at least one surgical parameter of the eye and its coordinates based on the image taken by said camera in a second coordinate system; determine an eye motion in six degrees of freedom between said first and said second session and for determining a coordinate transformation based thereon; transform based on said determined eye motion said at least one surgical parameter of the eve and its coordinates from said first coordinate system into said second coordinate system; quantify or visualize a change of said at least one surgical parameter of the eve and its coordinates between said first and said second session based on said surgical eye parameter and its coordinates measured during said second session and said transformed surgical eye parameter and its coordinates measured during said first session, wherein said surgical eye parameters are one or more of the following: implant-related parameters of the eye which are based on an implant which has been surgically placed in the eye of a patient; or a location and/or or contour of corneal or limbal or scleral incisions; the apparatus further comprising: an illumination unit for illuminating the eye by a ring-shaped light pattern to generate corneal reflection, said illumination unit being preferable located such that the center of the ring is coaxial with the optical axis of the camera; the image processing computer also configured to: determine during said first or said second session the location of the corneal reflections in the image of the eye; determine during said first or said second session based on said determined location of the corneal reflections, at least one further parameter of the eye and its coordinates in said first or second coordinate system based on a geometrical model representing the eye as a spherical eyeball having a spherically shaped cornea mounted thereon; visualize said at least one further parameter of the eye together with said at least one implant related eye parameter in the same image after having transformed its coordinates based on the eye motion between said first and said second session so that the motion of the eye is compensated. 7. An apparatus for monitoring at least one surgical parameter of an eve over multiple sessions which are temporally spaced apart and between which the eve of a patient can have moved, said apparatus comprising: a camera for taking one or more images of the eye; an image processing computer configured to: determine during a first session, said at least one surgical parameter of the eve and its coordinates based on the image taken by said camera in a first coordinate system; determine during a second session temporally spaced apart from said first session said at least one surgical parameter of the eye and its coordinates based on the image taken by said camera in a second coordinate system; determine an eye motion in six degree of freedom between said first and said second session and for determining a coordinate transformation based thereon; transform based on said determined eve motion said at least one surgical parameter of the eve and its coordinates from said first coordinate system into said second coordinate system; quantify or visualize a change of said at least one surgical parameter of the eve and its coordinates between said first and said second session based on said surgical eve parameter and its coordinates measured during said second session and said transformed surgical eye parameter and its coordinates measured during said first session, wherein said surgical eye parameters are one or more of the following: implant-related parameters of the eye which are based on an implant which has been surgically placed in the eye of a patient; or a location or contour of corneal or limbal or scleral incisions; the image processing computer also configured to: determine during said first or said second session, at least one further parameter of the eye and its coordinates