Dual optic, curvature changing accommodative iol

1 . An intraocular lens configured to be implanted within a capsular bag of a patient's eye, the lens comprising: a fluid optic body comprising a cavity for containing an optical fluid, the cavity at least partially defined by: a sidewall extending around the cavity and defining a diameter of the cavity; and a deformable optical membrane intersecting the sidewall around a circumference of the sidewall and spanning the diameter of the cavity, the deformable optical membrane configured to extend across an optical axis of a patient's eye; a second optic body spaced a distance apart from the fluid optic body and configured to extend across the optical axis of the patient's eye; and a plurality of struts extending from the sidewall and coupling the fluid optic body to the second optic body, the struts being configured such that axial compression of the capsular bag causes the plurality of struts to deform the sidewall in a manner that increases the diameter of the cavity such that a curvature of the deformable optical membrane is modified. 2 . The intraocular lens of claim 1 , wherein the fluid optic body is configured to be disposed in contact with a first surface of the capsular bag and the second optic body is configured to be disposed in contact with a second surface of the capsular bag. 3 . The intraocular lens of claim 1 , wherein the deformation of the sidewall in a manner that increases in the diameter of the cavity causes an increase in tension on the deformable optical membrane. 4 . The intraocular lens of claim 3 , wherein the deformation of the sidewall in a manner that increases in the diameter of the cavity causes the deformable optical membrane to stretch radially. 5 . The intraocular lens of claim 1 , wherein the struts are configured such that axial compression of the capsular bag causes deformation of the struts. 6 . The intraocular lens of claim 5 , wherein the deformation of the struts comprises each of the struts bowing outward relative to the optical axis of the patient's eye. 7 . The intraocular lens of claim 5 , wherein the deformation of the struts comprises a radius of curvature of each of the struts decreasing. 8 . The intraocular lens of claim 1 , wherein the modification of the radius of curvature of the deformable optical membrane comprises an increase in the radius of curvature. 9 . The intraocular lens of claim 1 , wherein, upon axial compression of the capsular bag, a distance between the fluid optic body and the second optic body along the optical axis decreases. 10 . The intraocular lens of claim 1 , wherein the deformation of the sidewall comprises rotation of at least a portion of the sidewall about a pivot. 11 . The intraocular lens of claim 1 , wherein each of the plurality of struts comprises a curved portion that is concave relative to the optical axis. 12 . The intraocular lens of claim 1 , wherein the second optic body comprises a solid optic. 13 . The intraocular of claim 1 , wherein the second optic body comprises a second fluid optic body, the second fluid optic body comprising a cavity for containing an optical fluid, the cavity at least partially defined by: a sidewall extending around the cavity and defining a diameter of the cavity; and a deformable optical membrane intersecting the sidewall around a circumference of the sidewall and spanning the diameter of the cavity, the deformable optical membrane configured to extend across an optical axis of a patient's eye; wherein: the plurality of struts extending from the sidewall of the fluid optic body and connect to the sidewall of the second fluid optic body; and the struts are configured such that axial compression of the capsular bag causes the plurality of struts to deform the sidewall of the second fluid optic body in a manner that increases in the diameter of the cavity of the second fluid optic body such that a curvature of the deformable optical membrane of the second fluid optic body is modified. 14 . The intraocular lens of claim 1 , wherein the fluid optic body further comprises a second optical membrane configured to extend across the optical axis, the sidewall extending between the deformable optical membrane and the second optical membrane. 15 . The intraocular lens of claim 1 , wherein each of the plurality of struts are coupled to one another via a circumferential ring disposed between the fluid optic body and the second optic body. 16 . The intraocular lens of claim 15 , wherein the circumferential ring increases in diameter upon axial compression of the capsular bag. 17 . The intraocular lens of claim 1 , further comprising a mechanical block defining a minimum distance between the fluid optic body and the second optic body such that the modification of the curvature of the deformable optical membrane is limited. 18 . The intraocular lens of claim 17 , wherein the mechanical block comprises a second plurality of struts extending along the optical axis from the fluid optic body and partially towards the second optic body. 19 . The intraocular lens of claim 18 , wherein the mechanical block comprises a radial extension from the fluid optic body that limits deformation of the struts during axial compression of the capsular bag. 20 . The intraocular lens of claim 1 , further comprising a solid lens disposed between the fluid optic body and the second optic body. 21 . A method of treating a vision disorder, comprising: inserting an intraocular lens within the capsular bag of a patient's eye, the intraocular lens comprising: a fluid optic body comprising a cavity for containing an optical fluid, the cavity at least partially defined by: a sidewall extending around the cavity and defining a diameter of the cavity; and a deformable optical membrane intersecting the sidewall around a circumference of the sidewall and spanning the diameter of the cavity; a second optic body spaced a distance apart from the fluid optic body; and a plurality of struts extending from the sidewall and coupling the fluid optic body to the second optic body, disposing the fluid optic body within the capsular bag such that the deformable optical membrane is disposed across an optical axis of the eye; and disposing the second optic body within the capsular bag such that the second optic body is disposed across an optical axis of the eye; wherein axial compression of the capsular bag causes the plurality of struts to deform the sidewall in a manner that increases the diameter of the cavity such that a curvature of the deformable optical membrane is modified. 22 . The method of claim 21 , wherein the fluid optic body is disposed in contact with the posterior surface of the capsular bag and the second optical membrane is disposed in contact with the anterior surface of the capsular bag upon implantation. 23 . The method of claim 21 , further comprising disposing a solid lens between the fluid optic body and the second optic body.