Abstract: Methods of treating a refractive error of the eye are disclosed comprising applying a treatment that induces swelling of the corneal tissue and applying an orthokeratology lens configured to correct the refractive error that provides a controlled distribution of the corneal tissue.

Abstract: A method for treating animal tissue with acylation agents to alter the net charge and net charge density of the treated tissue for therapeutic applications is provided. The method involves applying an alkaline solution to the exposed tissue surface area. This results in deprotonation of ?-amino groups of lysine residues on the exposed tissue proteins so that the tissue proteins have a net charge. Then, an acylating agent is applied and the acylating agent reacts with the tissue protein to form a protein complex having an altered net charge. Acylating agents such as sulfonic acids, sulfonyl chlorides, and acid chlorides can be used. The method can be used to treat a wide variety of human tissues including the human cornea for correcting myopia. The method can also be used to treat skin tissue, so that there is an increase in dermal thickness and pliability. The method can be further used to treat articular cartilage.

Abstract: The present disclosure describes novel methods for localized and controlled staining of intact corneal tissue surfaces to provide therapeutic benefits in ophthalmic applications, such as for example, the correction of iris defects, the correction of corneal tissue scarring, and the creation of a pupil in aniridia. A first method for staining tissue surfaces is directed to covalently bonding sulfonic acid dyes to deprotonated proteins in tissue. Another disclosed method is directed to staining corneal tissue surfaces with black sulfonic acid dye compositions, particularly for forming black rings on the corneal surface.