APPLANATION DEVICE INTENDED TO BE COUPLED TO AN OPTHALMOLOGICAL LASER SURGERY SYSTEM

Abstract

An applanation device designed to be positioned between the eye of a patient and a laser system, to hold the eye in position and create a reference plane for an ophthalmological laser surgery operation, the device comprising: an applanation cone defining an inner space, an upper opening and a lower opening; the applanation cone comprising an upper portion configured to be secured to a projecting portion of a focusing optical unit of the laser system and a lower portion comprising suction means; the lower opening being defined by a lower rim; an applanation glass that is transparent to the laser beam generated by the laser system and is positioned and held by the suction means against the lower rim so as to close the lower opening.

Description

Claims

1. An applanation device configured to be positioned between the eye of a patient and a laser system, to hold the eye in position and create a reference plane for a laser ophthalmological surgery operation, said device comprising: an applanation cone defining an internal space, a top aperture and a bottom aperture;said applanation cone comprising an upper part configured to be fixed onto a protruding part of a focusing optical block of the laser system and a lower part comprising suction means;the bottom aperture being delimited by a bottom rim;an applanation glass that is transparent to the laser beam generated by the laser system being positioned and held by said suction means against the bottom rim so as to close the bottom aperture.

2. The applanation device as claimed in claim 1, wherein the suction means comprise at least one suction channel extending in the wall of said suction cone between a suction input and a plurality of suction orifices formed in the bottom rim.

3. The applanation device as claimed in claim 1, further comprising a fixing ring configured to be securely mounted on the protruding part of the focusing optical block, the upper part of said applanation cone being configured to be mounted with translational mobility in a direction parallel to an optical axis of the focusing optical block on said fixing ring.

4. The applanation device as claimed in claim 3, further comprising an angular orientation ring configured to be mounted with rotational mobility in a plane at right angles to the optical axis of the focusing optical block on said protruding part, the upper part of said applanation cone being configured to be mounted with translational mobility in a direction parallel to the optical axis of the focusing optical block on said angular orientation ring.

5. The applanation device as claimed in claim 1, wherein the applanation cone comprises at least one camera-holding element fixed onto the outer wall of the applanation cone and at least one side aperture arranged with respect to said holding element so as to allow the passage of an imaging beam generated by said at least one camera to view a cutting zone of the eye situated under the applanation glass.

6. The applanation device as claimed in claim 5, wherein said holding element is configured such that the imaging beam generated by said camera is inclined by an angle of between 30° and 50°, preferably between 45° and 47°, with respect to the optical axis of the focusing optical block.

7. The applanation device as claimed in claim 1, wherein the applanation glass comprises at least one pattern or a graduated rule produced on the surface or in the volume.

8. The applanation device as claimed in claim 1, wherein the applanation glass has a planar-planar or planar-concave geometry.

9. The applanation device as claimed in claim 3, wherein the upper part of said applanation cone comprises an axial displacement ring provided with an inner threading, designed to be engaged by screwing with an outer threading produced on the outer wall of the fixing ring or of the orientation ring, said axial displacement ring ensuring, in a screwing step, an axial displacement of said applanation cone in a direction parallel to the optical axis of the focusing optical block.

10. The applanation device as claimed in claim 3, further comprising a locking ring configured to lock the applanation cone in position.

11. The applanation device as claimed in claim 1, wherein the applanation cone is produced in a metallic material by additive manufacturing.

12. The applanation device as claimed in claim 1, wherein the applanation cone comprises a lower part fixed onto the upper part, said lower part having an upside-down truncated cone form.

13. An applanation assembly for holding an eye of a patient in position and creating a reference plane for a laser system for a laser ophthalmological surgery operation, said assembly comprising: an applanation device as claimed in claim 1;a suction ring designed to come into contact with a surface of the eye of the patient;a portion of said lower part of the applanation cone being configured to be inserted into the suction ring to position the applanation glass inside the suction ring.

14. An ophthalmological surgery appliance for making a cut in an ocular biological tissue, such as a cornea or a lens, comprising: a laser unit designed to deliver a laser beam,a focusing optical block for focusing the laser beam at a focal point in the ocular biological tissue;said focusing optical block comprising a protruding lower part extending from a bottom surface of the laser unit,an applanation device as claimed in claim 1 configured to be fixed onto the protruding lower part of the focusing optical block so as to position the applanation glass at a distance substantially close to the focusing distance with respect to the optical output of the focusing optical block.

15. The appliance as claimed in claim 14, further comprising at least one camera configured to view the cutting zone, said at least one camera being held in position on the outer wall of the applanation cone.

16. The appliance as claimed in claim 14, further comprising a centering camera configured for the centering of the optical axis of symmetry of the focusing system with respect to the biological tissue, one end of the centering camera being inserted into the applanation cone via one of the two apertures provided in the applanation cone.