Sterile handle for controlling a robotic surgical system from a sterile field

The invention claimed is: 1. A sterile handle for use with a robotic surgical system, the surgical handle comprising: a tightening sleeve comprising a hollow tubular structure in which a portion of a surgical instrument guide is receivable therein, the tightening sleeve comprising two or more openings along a length of the tightening sleeve allowing the tightening sleeve to mechanically flex under tension, wherein the two or more openings each comprise at least one member selected from the group consisting of a slot, a hole, and a perforation; a sterile handle housing comprising a hollow tubular structure in which the tightening sleeve is inserted therein; a tightening nut coupled to the sterile handle housing comprising a thread on an interior of the tightening nut, wherein the tightening nut is configured to engage a thread on an exterior of the tightening sleeve and thereby tighten the tightening sleeve such that a diameter of a portion of the tightening sleeve decreases and securely holds a portion of the surgical instrument guide; and an electrical assembly comprising one or more input devices for commanding the robotic surgical system, wherein the tightening sleeve includes a wedge that engages a corresponding wedge on an interior of the sterile handle housing as the tightening nut is tightened and the thread on the interior of the tightening nut engages the thread on the exterior on the tightening sleeve, thereby enabling the sterile handle to securely hold the surgical instrument guide. 2. The sterile handle of claim 1 , wherein the one or more input devices comprises two or more buttons configured to enable a user to place the robotic surgical system in one of a rotation mode, a translation mode, or a combined translation and rotation mode. 3. The sterile handle of claim 2 , wherein, upon selection of a first button of the two or more buttons, the robotic surgical system is in the rotation mode, upon selection of a second button of the two or more buttons, the robotic surgical system is in the translation mode, and upon selection of both the first and second buttons, the robotic surgical system is in a course positioning mode that allows translation and rotation movements. 4. The sterile handle of claim 1 , wherein the sterile handle is ambidextrous. 5. The sterile handle of claim 1 , wherein the sterile handle is configured to be attached directly or indirectly to an end-effector of the robotic surgical system. 6. The sterile handle of claim 1 , wherein the robotic surgical system is configured to allow robotically-assisted or unassisted positioning and/or movement of the sterile handle by a user with at least six degrees of freedom, wherein the six degrees of freedom are three degrees of translations and three degrees of rotations. 7. The sterile handle of claim 1 , wherein the surgical instrument guide is configured to hold and/or restrict movement of a surgical instrument therethrough. 8. The sterile handle of claim 7 , wherein the surgical instrument is a member selected from the group consisting of: a drill bit, tap, screw driver, screw-based implant and awl. 9. The sterile handle of claim 8 , wherein the surgical instrument guide is a drill guide and the surgical instrument is a drill bit. 10. The sterile handle of claim 1 , wherein the sterile handle is at least one of completely or partially disposable. 11. The sterile handle of claim 1 , wherein the sterile handle comprises one or more sensors configured to detect a presence of a surgeon's hand in proximity to the sterile handle. 12. The sterile handle of claim 1 , wherein the two or more openings of the tightening sleeve are in the form of elongated slots extending parallel to a longitudinal axis of the hollow tubular structure. 13. The sterile handle of claim 12 , wherein the elongated slots are contained within the body of the hollow tubular structure of the tightening sleeve. 14. A sterile handle system for use with a robotic surgical system, the surgical handle system comprising: an instrument guide and a sterile handle, the instrument guide comprising: a guide portion having a first longitudinal axis and a handle portion having a second longitudinal axis angled relative to the first longitudinal axis; and the sterile handle defining a third longitudinal axis, the sterile handle comprising: a tightening sleeve comprising a first hollow tubular structure for receiving the handle portion of the instrument guide, the tightening sleeve comprising two or more openings along a length of the tightening sleeve allowing the tightening sleeve to mechanically flex under tension, wherein the two or more openings each comprise at least one member selected from the group consisting of a slot, a hole, and a perforation; a sterile housing comprising a second hollow tubular structure for receiving the tightening sleeve; and a tightening nut coupled to the sterile housing comprising threads on an interior of the tightening nut, wherein the tightening nut is configured to engage threads on an exterior of the tightening sleeve and thereby tighten the tightening sleeve such that a diameter of a portion of the tightening sleeve decreases and securely holds the handle portion of the surgical instrument guide, wherein when the handle portion of the instrument guide is received in the sterile handle, the third longitudinal axis of the sterile handle is aligned with the second longitudinal axis of the handle portion of the instrument guide and the third longitudinal axis of the sterile handle is angled relative to the first longitudinal axis of the guide portion of the instrument guide. 15. The sterile handle of claim 14 , wherein the tightening sleeve includes a wedge that engages a corresponding wedge on an interior of the sterile housing as the tightening nut is tightened and the threads on the interior of the tightening nut engages the threads on the exterior of the tightening sleeve, thereby enabling the sterile handle to securely hold the surgical instrument guide.