Fasteners, deployment systems, and methods for ophthalmic tissue closure and fixation of ophthalmic prostheses and other uses

What is claimed is: 1. A method of affixing a first ocular tissue structure to an adjacent second ocular structure, the method comprising: inserting an anvil into the first ocular structure by penetrating the first ocular structure with a tissue-penetrating distal end of the anvil; introducing a fastener into the first ocular structure; deploying the fastener by deforming the introduced fastener with the inserted anvil, the inserted anvil deforming the fastener from an open configuration to a closed configuration, the deployed fastener fastening the first ocular structure to the second ocular structure; and removing the anvil from the first ocular structure. 2. The method of claim 1 , wherein inserting of the anvil into the first ocular structure comprises advancing a sharpened distal end of the anvil into the first ocular structure, and wherein the deforming of the fastener comprises plastically deforming the fastener from the open configuration to the closed configuration by engaging a surface of the leg against a surface of the anvil within an eye. 3. The method of claim 1 , wherein a portion of the deployed fastener is introduced and deployed so that a pigmented portion of the deployed fastener matches a natural pigmentation of the eye sufficiently to reduce the visibility of the deployed fastener. 4. The method of claim 1 , wherein the fastener comprises a bioabsorbable material. 5. The method of claim 1 , wherein the fastener comprises stainless steel, nickel titanium, titanium, tantalum, or alloys comprising one or more of the same. 6. The method of claim 1 , wherein the fastener is non-magnetic. 7. The method of claim 1 , further comprising administering a drug to the eye after being deployed. 8. The method of claim 1 , further comprising administering an adhesive from the fastener after deploying the fastener. 9. The method of claim 1 , wherein the fastener comprises a first leg and a second leg with a base extending therebetween, wherein inserting the anvil comprises penetrating a surface of the first structure with the distal end of the anvil, wherein the deploying of the fastener comprises bending the first leg toward the base by engaging the first leg against a leg-receiving surface of the anvil, wherein the deploying is performed so that first leg and the second leg are bent so as to capture tissue and urge the base against the surface of the first structure. 10. The method of claim 9 , wherein the second structure comprises an ocular tissue structure, wherein the introducing of the fastener comprises advancing the first leg of the fastener distally through the surface of the first structure and through an underlying surface of the second structure within a channel of the anvil to affix the first and second structure as overlapping tissue planes; a surface of the channel defining the leg-receiving surface, the anvil and fastener being advanced concurrently into the first and second ocular structures, wherein the anvil is advanced along a curving path while a base receptacle supports the base; the anvil and base receptacle being included in a four-bar linkage, and further comprising engaging the surface of the first structure with a lobe, wherein deploying of the fastener is effected by pushing the lobe distally against the surface of the ocular structure and articulating the four-bar linkage so that the lobe rotates and engagement between the lobe and surface of the first structure determines a depth of the anvil and the first leg in the first structure. 11. The method of claim 10 , wherein the first and second legs are advanced and deformed by first and second anvils, respectively, the anvil comprising the first anvil and the second anvil being included in another four bar linkage, wherein the first and second anvils advance along a first and second paths, respectively, and further comprising removing the first and second anvils along third and fourth paths, respectively, by decoupling the four bar linkages so that the anvils can move proximally and laterally along the deformed legs. 12. A method of fastening together a tissue region having a first tissue and a second tissue with a surgical fastener, the surgical fastener having a first leg, a second leg, and a base portion that supports the legs relative to one another, the method comprising: inserting a distal end of a first needle anvil into the tissue, the first needle anvil having a channel for receiving the first leg of the fastener; inserting the first leg into the tissue; deploying the fastener by deforming the first leg relative to the base portion of the fastener with a translation and a rotation of the first needle anvil relative to the base portion such that the fastener is deformed from an open configuration to a closed configuration, the deployed fastener fastening the first tissue to the second tissue; and removing the distal end of the first needle anvil from the tissue region. 13. The method of claim 12 , further comprising inserting a distal end of a second needle anvil into the tissue, the second needle anvil having a channel for receiving the second leg of the fastener; inserting the second leg of into the tissue concurrently with the first leg; and wherein deploying the fastener further comprises deforming the second leg relative to the base portion of the fastener with a translation and a rotation of the second needle anvil relative to the base portion. 14. The method of claim 13 , further comprising controlling a penetration depth of the first and second needle anvils and the first and second legs with a tissue engagement surface of a lobe during the translation and rotation of the first needle anvil and the second needle anvil, wherein a rotation of the lobe during fastener deployment determines a depth of the first and second anvil in the tissue. 15. The method of claim 13 , wherein the base portion of the deployed fastener has a bend configured such that the fastener base resides along the tissue surface after insertion of the first and second legs through the surface. 16. The method of claim 13 , further comprising manipulating a handle to cause a linear translation of a driver, the linear translation of the driver configured to rotate and translate the first and second needle anvils such that the first and second needle anvils deform the fastener during fastener deployment. 17. A method of deploying a fastener in an ocular tissue, the method comprising: penetrating a surface of the ocular tissue with a tissue-penetrating distal end of an anvil and inserting the anvil into the ocular tissue until a tissue engagement surface of a lobe coupled with the anvil contacts the surface of the ocular tissue, the tissue engaging surface of the lobe configured to control a penetration depth of the anvil; articulating the anvil to deform a fastener residing in a channel of the anvil and maintaining contact between the tissue engagement surface of the lobe during the deformation of the fastener, wherein the tissue engagement surface of the lobe controls penetration depth of the anvil and the fastener during deformation of the fastener; and releasing the deformed fastener from the channel of the anvil. 18. A method of deploying a fastener in an ocular tissue, the method comprising: penetrating the surface of the ocular tissue with a tissue penetrating end of an anvil; contacting a tissue engagement surface of a lobe with the surface of the ocular tissue, the lobe being incorporated with the anvil; deploying a fastener by rotating the tissue engagement surface of the lobe