Photo-responsive shape changing polymer compositions including photoinitiators that absorb light in the range about 400 nm to about 700 nm, a cross-linked polymer matrix and a polymerizable composition. Photopolymerization of the polymerizable composition sorbed in the cross-linked polymer matrix results in the shape change which manifests in the change in the refractive properties of the composition. The light dose required to effect the shape change; lock-in dose and the photobleaching dose are determined by the choice of the photoinitiator, electron donor and the hydrogen donor. These compositions are useful in the fabrication of coloured lenses, especially intraocular lenses.

A method of corneal and scleral inlay crosslinking and preservation is disclosed herein. The method includes cross-linking at least a portion of a donor cornea or a donor sclera so as to kill cellular elements in the portion of the donor cornea or the donor sclera, and make the portion of the donor cornea or the donor sclera less antigenic to a body portion of a recipient patient in which the portion of the donor cornea or the donor sclera is to be implanted; and storing the cross-linked donor cornea or the donor sclera for a long period of time prior to implanting the portion of the donor cornea or the donor sclera into the body portion of the recipient patient.

An intraocular lens (IOL) having an optical axis extending in an anterior-posterior direction and an equator extending in a plane substantially perpendicular to the optical axis is described. The IOL includes: an elastic anterior face located anterior to the equator; a posterior face located posterior to the equator, wherein the anterior face, the posterior face, or both comprises a poly(dimethylsiloxane) elastomer having a durometer between about 20 Shore A to about 50 Shore A; and a chamber located between the anterior face and the posterior face comprising a silicone oil comprising polysiloxanes comprising diphenyl siloxane and dimethyl siloxane units, the silicone oil having a maximum viscosity of about 800 cSt at 25° C.

Compositions and methods are provided for lamellar and defect reconstruction of corneal stromal tissue using biomaterials that form a defined hydrogel structure in situ, including interpenetrating (IPN) and semi-IPN hydrogels.

The invention pertains to intraocular lens compositions comprising a polymeric mixture of monomers, a product comprising such compositions and uses thereof. The compositions of the inventions are completely vacuole-free, therefore resulting in a truly glistening free material. Moreover, they are soft enough to be easy to fold, have a properly tuned hardness to provide comfortable unfolding speed, require a low injection force, do not present prohibitive tackiness, and have good optical properties. Finally, the present intraocular lens compositions do not suffer from calcification.

Intraocular lenses with pressure sensors embedded therein, and methods of manufacture.

Embodiments of a modulable absorption light adjustable lens (MALAL) comprise a light adjustable lens that is capable of changing its optical properties upon an adjusting irradiation, including a photo-modifiable material; and a modulable absorption front protection layer, including a modulable absorption compound whose absorption properties can be modulated with a modulating stimulus. Other embodiments include a method of adjusting an optical property of a modulable absorption light adjustable lens, the method comprising: reducing an absorption of a modulable absorption compound of a modulable absorption front protection layer of the MALAL by a modulating stimulus, the MALAL having been previously implanted into an eye; and changing an optical property of a light adjustable lens of the MALAL by applying an adjusting irradiation.

Provided are systems and methods for correcting a corneal surface irregularity in a subject. The system generally comprises a infrared laser, for example, and infrared laser and a laser control unit, a corneal contacting unit, a gel solidifying unit and an electronic device tangibly storing algorithms to operate the units. In the methods, a polymerizable or thermo-reversible gel or polymerized resin is applied to the anterior corneal surface and solidified as a layer over the cornea. A first correcting cut is lasered into the stroma of an applanated cornea, the gel layer is then removed and a second correcting cut is lasered in the stroma of the applanated cornea. The lenticule formed intrastromaly by the first and second correcting cuts is removed such that the cornea has a corrected corneal curvature.

A corneal implant and methods of forming and implanting the implant are described. The corneal implant comprises a portion of corneal endothelial tissue and a portion of scleral tissue. The corneal implant is keyhole shaped, with a disc portion and a tail portion. The tail portion may further comprise a perforated section.

The invention provides methods and polymer compositions for treating retinal detachment and other ocular disorders, where the methods employ polymer compositions that can form a hydrogel in the eye of a subject. The hydrogel is formed by reaction of (i) a nucleo-functional polymer that is a biocompatible polymer containing a plurality of thio-functional groups —R1-SH wherein R1 is an ester-containing linker, such as a thiolated poly(vinyl alcohol) polymer and (ii) an electro-functional polymer that is a biocompatible polymer containing at least one thiol-reactive group, such as a poly(ethylene glycol) polymer containing alpha-beta unsaturated ester groups.