Modular intraocular lens designs and methods

We claim: 1. An intraocular lens system, comprising: a. an intraocular primary component having a body, one or more haptics, a center hole extending through the body in an anterior-posterior direction to form a continuous annular ring having an inside perimeter, and a continuous recess extending around an entirety of the inside perimeter, the continuous recess including an anterior-facing posterior wall, a radially-inward-facing lateral wall, and a posterior-facing anterior wall, wherein the primary component is configured to fit within a lens capsule; and b. an intraocular secondary component having an optical body, a first interlocking member having a first rigidity, and a second interlocking member having a second rigidity configured to allow the second interlocking member to transition between a compressed configuration and an uncompressed extended configuration, wherein the first rigidity is relatively greater than the second rigidity, the second interlocking member includes a deformable tab having at least one end connected to the optical body, and the first and second interlocking members are diametrically opposed to one another; c. wherein the continuous recess of the primary component is configured to releasably receive the second interlocking member of the secondary component to form an interlocking connection that limits relative movement between the intraocular primary and secondary components, and wherein the intraocular lens system is configured to provide optical correction to an eye solely via the optical body of the intraocular secondary component. 2. A system as in claim 1 , wherein the center hole is sized and configured to receive the secondary component. 3. A system as in claim 1 , wherein the primary component is a base and the secondary component is a lens. 4. A system as in claim 1 , wherein the first interlocking member includes a tab. 5. A system as in claim 4 , wherein the tab includes an opening therein. 6. A system as in claim 1 , wherein the deformable tab comprises a spring mechanism. 7. A system as in claim 1 , wherein the deformable tab extends away from the optical body in a first direction, and wherein the deformable tab is configured to undergo radial compression for insertion into the continuous recess. 8. An intraocular lens (IOL) system, comprising: a. a base having a body including a center through hole defined by a continuous annular ring, one or more haptics extending from the body, and a continuous recess extending around an entirety of the center hole, the continuous recess including an anterior-facing posterior wall, a radially-inward-facing lateral wall, and a posterior-facing anterior wall; and b. a lens having an optical body, a first interlocking member extending away from the optical body and having a first rigidity, and a second interlocking member extending away from the optical body and having a second rigidity relatively lesser than the first rigidity, wherein the second interlocking member is actuatable between a first compressed configuration and a second uncompressed configuration, and wherein the second interlocking member includes a deformable tab having at least one radially compressible element extending radially away from the optical body; c. wherein the continuous recess is configured to releasably receive the second interlocking member to form an interlocking connection that limits relative movement between the base and lens, the intraocular lens system is configured to provide optical correction to an eye solely via the optical body of the lens, and, in an implanted configuration, a posterior periphery of the lens is configured to contact the anterior-facing posterior wall. 9. An IOL system as in claim 8 , wherein the first interlocking member includes a tab. 10. An IOL system as in claim 8 , wherein the center through hole is sized and configured to receive the lens therein. 11. An IOL system as in claim 8 , wherein the first interlocking member engages the continuous recess at a first junction between the base and the lens, the second interlocking member engages the continuous recess at a second junction between the base and the lens, and the first junction is spaced apart from the second junction. 12. A system as in claim 1 , wherein the second interlocking member engages the continuous recess at a first location to define a first junction, the first interlocking member engages the continuous recess at a second location to define a second junction, and the first junction is spaced apart from the second junction. 13. A system as in claim 1 , wherein the second interlocking member includes an outside curvature configured to conform to a surface of the continuous recess. 14. An IOL system as in claim 8 , wherein the first interlocking member is fixed relative to the optical body. 15. An intraocular lens system, comprising: an intraocular primary component having a body, a plurality of haptics extending from the body, and a center hole extending through the body in an anterior-posterior direction, the center hole being defined by a continuous annular ring, wherein a wall defining a perimeter of the center hole includes a continuous circumferential recessed groove therein, the continuous circumferential recessed groove having an anterior wall, a posterior wall, and a lateral wall; and an intraocular secondary component configured to releasably connect to the intraocular primary component, the intraocular secondary component including an optical body, a first peripheral tab extending away from a first location on the optical body, and an actuatable peripheral tab extending away from a second location on the optical body, wherein the actuatable peripheral tab is actuatable between a first radially compressed configuration and a second radially uncompressed extended configuration, the first peripheral tab includes a first rigidity relatively greater than a rigidity of the actuatable peripheral tab, the actuatable peripheral tab includes at least one end connected to the optical body, the first location is diametrically opposite the second location, the first peripheral tab is dimensioned to engage the continuous circumferential recessed groove to define a first interlocking junction, the actuatable peripheral tab is dimensioned to engage the continuous circumferential recessed groove to define a second interlocking junction spaced apart from the first junction, the first and second junctions limit relative movement between the intraocular primary component and the intraocular secondary component, the intraocular lens system is configured to provide optical correction to an eye solely via the optical body of the intraocular secondary component, and, in an implanted configuration, a posterior periphery of the intraocular secondary component is configured to be in contact with a portion of the posterior wall. 16. The intraocular lens system of claim 15 , wherein at least one of the first peripheral tab and the actuatable peripheral tab includes an outer curvature conforming to an inside radius of the continuous circumferential recessed groove. 17. The intraocular lens system of claim 15 , wherein the actuatable peripheral tab includes a spring mechanism. 18. The intraocular lens system of claim 15 , wherein the intraocular primary component is configured to fit within a lens capsule. 19. The intraocular lens system of claim 15 , wherein the continuous circumferential recessed groove is radially inward-facing. 20. An intraocular lens system, comprising: a base having a co