RU2023127306A - OPTICAL-HAPTIC CONTROL SYSTEM USING ROTARY CAMS - Google Patents

Claims (52)

1. An insertion tool containing: a drive system, wherein said drive system comprises a housing; a piston located at least partially in the drive system; spout; And an opto-haptic control system located between the drive system and a spout for receiving the distal tip of the piston, wherein the opto-haptic control system comprises: first cam assembly containing: a first cam body, an opening in the first cam body, and haptic member folding tabs located in the opening; And a second cam assembly located on one side of the first cam assembly, the second cam assembly comprising: the main part of the second cam; hole in the main part of the second cam; and elements for folding the optical element located in the hole; And a central plate for holding the intraocular lens in an opening of the second cam body, the central plate being disposed between the first cam assembly and the second cam assembly. 2. The insertion instrument of claim 1, further comprising an intraocular lens located in the central plate, the intraocular lens comprising an optical element and haptic elements that extend from the optical element. 3. The insertion instrument of claim 2, wherein the haptic elements extend from the optical element through one or more openings formed in the central plate, the optical element being disposed over a channel formed in the lens surfaces of the central plate. 4. The insertion instrument of claim 1, wherein the plunger is configured to engage the intraocular lens when the drive system is actuated to dispense the intraocular lens from the nozzle. 5. The insertion tool of claim 4, wherein the drive system comprises a lever and a pneumatic system. 6. The insertion tool of claim 1, further comprising a bottom cap located on an opposite side of the second cam assembly from the first cam assembly, the bottom cap including openings that receive pins that extend from and around the haptic element folding tabs. which the legs rotate to fold the haptic elements. 7. Instrument for insertion according to claim 1, in which: the central plate includes a lens surface and a channel extending at least partially through the lens surface; wherein each of the first pair of guides and the second pair of guides is located on both sides of the channel; wherein the channel accommodates elements for folding the optical element; each of the elements for folding the optical element contains: main part; a tongue extending from the main part for engagement with the main part of the second cam; and a slope at an opposite end of the main portion from the tongue and configured to engage with the optical element of the intraocular lens when the second cam assembly is actuated; and wherein each of the optical element folding members further comprises projections from opposite sides of the main body that are located in projection channels formed in at least one of the first pair of guides or the second pair of guides. 8. Instrument for insertion according to claim 1, in which: the main part of the first cam contains: an outer perimeter and an inner perimeter; wherein the inner perimeter of the first cam body defines an opening in the first cam body and one or more cam surfaces configured to engage the haptic folding tabs when the first cam assembly is actuated; wherein the protruding portion of the cam extends from the main portion of the first cam at an outer perimeter; And wherein the main part of the second cam contains: an outer perimeter and an inner perimeter; wherein the inner perimeter of the second cam body defines an opening in the second cam assembly and one or more cam surfaces configured to engage members for collapsing the optical element when the second cam assembly is actuated; And wherein the recessed part is formed in the outer perimeter of the main part of the second cam; And wherein the first cam assembly is positioned such that a protruding portion of the cam is located in a recessed portion between the first end and the second end of the recessed portion. 9. A method of delivering an intraocular lens, containing: turning the first cam assembly to push the haptic elements of the intraocular lens onto the optical element of the intraocular lens, further rotating the first cam assembly so that the first cam assembly engages the second cam assembly, causing the second cam assembly to rotate in engagement with the intraocular lens and causing the intraocular lens optical element to fold; and actuating the drive system to dispense the intraocular lens through the nose into the eye. 10. The method according to claim 9, in which: The first cam assembly contains: the main part of the first cam; hole in the main part of the first cam; tabs for folding haptic elements located in the hole; And one or more cam surfaces formed in the perimeter of an opening in the body of the first cam assembly, wherein one or more cam surfaces of the first cam assembly are configured to engage tabs for folding the haptic elements when the first cam assembly is rotated so as to allow rotation of the tabs for folding the haptic elements to push the haptic elements onto the optical element; the second cam assembly contains: the main part of the second cam; hole in the main part of the second cam; elements for folding the optical element located in the hole; and one or more cam surfaces formed in the perimeter of an opening in the body of the first cam, wherein one or more cam surfaces of the second cam assembly are configured to engage members for collapsing the optical element when the second cam assembly is rotated so as to push elements for folding the optical element inward toward each other when engaged with the intraocular lens, which causes the optical element to fold toward itself; And wherein rotating the first cam assembly comprises applying a force to a protruding portion of the cam that extends from an outer perimeter of the main portion of the first cam such that the protruding portion of the cam engages a recessed portion formed in the outer perimeter of the second main portion; and additional rotation of the first cam assembly causes the protruding portion of the cam to abut the end of the recessed portion, which causes rotation of the second cam assembly. 11. A method of preparing an intraocular lens (IOL) for delivery through an IOL insertion instrument, wherein the IOL insertion instrument comprises an IOL located within the cavity; spout; piston, drive mechanism; and an optical-haptic control system (HOMS), the method comprising the following steps: receive, by HOMS, actuation by the user; And transmitting, through the HOMS, actuation by the user, causing movement of one or more tabs located in the cavity, thereby causing active deformation of one or more elements of the IOL; in this case, the reception and transmission steps are performed before advancing the IOL into the spout. 12. The method of claim 11, wherein the receiving and transmitting steps are performed before the IOL contacts the piston. 13. The method according to claim 11, in which the active deformation of one or more IOL elements contains one or more of the steps in which: folding one or more haptic elements under the IOL optical element or over the IOL optical element and additionally folding the edge of the IOL optical element around one or more folded IOL haptic elements; and extending one or more IOL haptic elements forward or backward; and compression of one or more haptic elements of the IOL. 14. The method of claim 11, wherein the HOMS comprises a rotary dial, wherein actuation by the user comprises rotating the dial, wherein the HOMS comprises a cam mechanism that transmits rotation of the dial to move one or more tabs located within the cavity, thereby actively deforming one or more IOL elements. 15. An instrument for inserting an intraocular lens (IOL), containing: IOL located inside the cavity; spout; a piston configured to advance the IOL through the nose; And an opto-haptic control system (HOMS) comprising a cam mechanism configured to transmit user actuation to the HOMS to actively deform the IOL before advancing the IOL into the spout, wherein the HOMS is further configured to fold one or more IOL haptics onto the IOL optical element and fold one or more edges of the IOL optical element over the one or more folded IOL haptics.