Articulating ophthalmic surgical probe

What is claimed is: 1. An articulating optical surgical probe, comprising: a handle sized to fit in a single hand; a single rigid cannula extending from the handle having a diameter of 20 Ga or less, the single rigid cannula having a rigidity sufficient to substantially prevent bending relative to the longitudinal axis of the cannula during ordinary surgical use; a slotted tip comprising a plurality of slots spaced evenly along the entire length of said slotted tip, the slotted tip extending from a distal-most end of the single rigid cannula to a distal-most end of the articulating optical surgical probe; at least one optical fiber extending through the handle, the single rigid cannula, and the slotted tip to a distal end of the slotted tip; and a pull-wire extending through the slotted tip to a distal end of the slotted tip and a distal end of the at least one optical fiber: wherein the pull-wire is immovably secured to a second fixed object in the handle and suspended between a first fixed object in the handle and the second fixed object in the handle, the second fixed object located proximal to the first fixed object, wherein the pull-wire is suspended relative to and in non-contact with a sliding pin when the sliding pin is in a first position, the sliding pin being located between the first fixed object and the second fixed object, wherein, when the sliding pin is in the first position, the pull-wire is in a substantially straight orientation between the second fixed object and the distal end of the slotted tip and a tension on the pull-wire causes the slotted tip to rest in a straight position, wherein a distal movement of the sliding pin to an additional position contacting the pull-wire causes a deflection of the suspended pull-wire and an associated increase in the tension in the pull-wire, the increased tension causing the slotted tip to deviate from a straight position to a bent position, and wherein the slotted tip is formed from a resilient material that will restore to the straight position when the increased tension exerted by the pull-wire is released. 2. The probe of claim 1 , further comprising a control button on the handle coupled to the sliding pin, wherein the distal movement of the sliding pin is controlled by sliding the control button. 3. The probe of claim 1 , wherein the pull-wire is attached to a pinion, and the tension in the pull-wire is increased by winding the pull-wire around the pinion. 4. The probe of claim 1 , further comprising a lever arm within the handle in contact with the pull-wire, the lever arm having a lowered position and a raised position, wherein the tension on the pull-wire is increased in the raised position. 5. The probe of claim 1 , further comprising a plurality of detents in contact with the sliding pin, the detents providing a plurality of stops for advancement of the sliding pin. 6. The probe of claim 1 , further comprising a guide track for the sliding pin within the handle, the guide track directing advancement of the sliding pin. 7. The probe of claim 6 , wherein the guide track is linear. 8. The probe of claim 6 , wherein the guide track is curved to control a rate of take-up for the pull-wire by the sliding pin so that the tension in the pull-wire increases uniformly as the sliding pin is advanced along the guide track. 9. The probe of claim 6 , wherein the guide track is curved with an initial ramp at a proximal end such that a rate of increase in the tension in the pull wire is highest when the sliding pin is advanced through the initial ramp of the guide track, and the rate of increase in the tension declines after the sliding pin passes the initial ramp of the guide track. 10. The probe of claim 1 , wherein the pull-wire is an optical fiber. 11. The probe of claim 1 , wherein the slotted tip comprises deep slots extending past a radius of the slotted tip on a side toward which the slotted tip deviates and shallow slots extending short of the radius of the slotted tip on an opposite side from which the slotted tip deviates. 12. The probe of claim 11 , wherein the deep slots are wider as a depth of the deep slots increases. 13. The probe of claim 11 , wherein the deep slots comprise an oblong section extending longitudinally along the slotted tip. 14. The probe of claim 11 , wherein the deep slots are curved. 15. The probe of claim 1 , wherein the slotted tip comprises spiral slots. 16. The probe of claim 15 , wherein the spiral slots have a spiral path perpendicular to a longitudinal axis of the slotted tip on a side to which the slotted tip deviates. 17. The probe of claim 15 , wherein the slotted tip further comprises back slots interspersed between the spiral slots on a side to which the slotted tip deviates. 18. The probe of claim 15 , wherein the spiral slots are wider on a side to which the slotted tip deviates. 19. The probe of claim 15 , wherein the slotted tip is formed as a coil of wound wire. 20. The probe of claim 1 , wherein the slotted tip is formed from nitinol. 21. The probe of claim 1 , wherein the single rigid cannula is formed of stainless steel. 22. The probe of claim 1 , wherein the single rigid cannula is coated with a stiffening material. 23. The probe of claim 1 , wherein the slotted tip is coated with a soft polymer sheath. 24. The probe of claim 1 , wherein the at least one optical fiber includes two optical fibers.