Schlemm's canal devices and method for improving fluid flow

What is claimed is: 1. An ocular implant for implanting in the Schlemm's canal in an eye comprising: an implant having a ring shaped body formed of only a single strand and being sized and shaped to be positioned inside the Schlemm's canal, the ring shaped body being configured to apply a pre-determined radial force along at least a part of a wall of the Schlemm's canal so as to change the shape of the Schlemm's canal and allow an increase in flow volume through the Schlemm's canal and wherein the ring shaped body has an outermost periphery that forms an oval, wherein the oval defines an outermost shape of the entire ring shaped body, the oval defined by a minor axis less than the diameter of the Schlemm's canal and a major axis larger than the diameter of the Schlemm's canal, and wherein a single, oval-shaped lumen extends continuously through the entire ring shaped body; wherein the ring shaped body has two discrete ends which are disconnected and overlapping. 2. The ocular implant of claim 1 wherein at least one of the discrete ends of the implant is configured to remain within the anterior chamber of the eye after implantation. 3. The ocular implant of claim 1 wherein at least one of the discrete ends of the implant is substantially rounded. 4. The ocular implant of claim 1 wherein the ring shaped body is configured to impart a radial force upon implantation onto an inward wall of Schlemm's canal. 5. The ocular implant of claim 1 wherein the ring shaped body is configured to impart a radial force upon implantation onto an outward wall of Schlemm's canal. 6. The ocular implant of claim 1 wherein the ring shaped body is configured to impart a radial force upon implantation onto both an inward and an outward wall of Schlemm's canal. 7. The ocular implant of claim 1 wherein the ring shaped body is further configured to impart a vertical force on an upper and lower wall of Schlemm's canal. 8. The ocular implant of claim 1 wherein the shape of the ring shaped body is substantially ovular. 9. The ocular implant of claim 1 wherein the ring shaped body includes at least one oscillation along its length. 10. The ocular implant of claim 9 wherein at least one oscillation is a coiled loop. 11. The ocular implant of claim 1 wherein the ring shaped body comprises a medical grade material. 12. The ocular implant of claim 11 wherein the medical grade material includes a shape memory material comprising at least one of nitinol and a shape memory polymer. 13. The ocular implant of claim 12 wherein the shape memory material has a transition temperature below body temperature. 14. The ocular implant of claim 12 wherein the shape memory material has a transition temperature close to a patient's body temperature. 15. The ocular implant of claim 13 wherein daily variations in body temperature apply variable forces to the Schlemm's canal. 16. The ocular implant of claim 11 wherein the medical grade material includes elastically deformable materials comprising at least one of stainless steel and titanium. 17. The ocular implant of claim 1 wherein a cross-sectional profile of the ring shaped body is substantially tubular. 18. The ocular implant of claim 17 wherein the ring shaped body has openings along a circumference the ring shaped body whereby the inner lumen is in fluid communication with an outer surface of the implant. 19. The ocular implant of claim 17 wherein the ring shaped body is configured such that substances may be injected through the lumen of the implant. 20. The ocular implant of claim 1 wherein the cross-sectional profile of the ring shaped body is variable along a circumference of the implant. 21. The ocular implant of claim 1 , wherein the oval being entirely positioned in a flat plane.