Robot for minimally invasive neurosurgery

We claim: 1. A robotic device for performing an intracranial procedure at a target region of a subject's brain, comprising: a baseplate adapted for mounting on the skull of a subject; a rotatable element disposed on said baseplate, and having an opening in its central region; a cannula mounted on said rotatable element coaxially with said opening, and which rotates with rotation of said rotatable element, said cannula being robotically controlled to provide motion into and out of the skull of said subject; and a flexible needle having mechanical properties, disposed in said cannula, said flexible needle being controlled to provide motion into and out of a non-axial aperture in the distal part of said cannula, and having a structure adapted to enable said needle to change its shape to exit said non-axial aperture and to continue said motion out of said aperture to said target region while maintaining the shape it possessed prior to exit out of said aperture, and without losing said mechanical properties; wherein the outside diameter of said flexible needle is less than 4 mm, and said non-axial aperture comprises a curved section of said cannula, exiting said cannula at essentially right angles to the axis of said cannula and having a radius of curvature sufficiently small that the exit aperture of said curved path is no more than the external diameter of said cannula, and wherein said mechanical properties are such that a 5 gm. force applied laterally to said flexible needle, would not cause a deflection of more than 1 mm at a point 30 mm. distant from a position at which said needle is clamped. 2. A robotic device according to claim 1 wherein coordinated control of the insertion motion of said cannula and said flexible needle and rotation of said rotatable element enables access to be obtained by said flexible needle to said target region of the brain. 3. A robotic device according to claim 1 wherein said flexible needle comprises a thin-wall tube having an oval or flattened oval cross sectional shape with its elongated dimension being perpendicular to the plane of bending of said flexible needle. 4. A robotic device according to claim 1 wherein said flexible needle comprises a thin-wall tube having an eye-shaped cross sectional shape with its elongated dimension being perpendicular to the plane of bending of said flexible needle. 5. A robotic device according to claim 1 wherein said flexible needle comprises a hollow chain of magnetized beads. 6. A robotic device according to claim 5 wherein said beads are magnetized in a direction such that they are attracted in a self-centering stack. 7. A robotic device according to claim 1 wherein said flexible needle comprises an annular inflated balloon. 8. A robotic device according to claim 1 wherein said flexible needle comprises an elongated tensegrity structure. 9. A robotic device according to claim 1 , wherein said device is adapted to provide access to said target region of the brain with collateral trauma to non-accessed parts of the brain being approximately confined to a region having the width of said cannula. 10. A robotic device according to claim 1 , wherein coordinated control of the insertion motion of said cannula and said flexible needle and rotation of said rotatable element enables access to be obtained by said flexible needle to said target region of the brain along an articulated path selected to avoid damage-prone regions of the brain. 11. A robotic device according to claim 1 wherein said flexible needle comprises a cutting tool, such that resection of a brain tumor can be performed with collateral trauma to those parts of the brain not being treated being approximately confined to a region having the width of said first cannulated needle. 12. A robotic device according to claim 1 , wherein said flexible needle is adapted to be connected to an energy delivery system, such that ablation or optical or electro-treatment of a brain tumor can be performed with collateral trauma to those parts of the brain not being treated being approximately confined to a region having the width of said first cannulated needle. 13. A robotic device according to claim 12 , wherein said flexible needle comprises an optical fiber for delivery of said energy. 14. A robotic device according to claim 1 wherein said flexible needle comprises a biopsy tool, such that biopsy samples may be obtained from regions of the brain at different positions laterally displaced from each other by distances substantially larger than the width of said first cannulated needle, with collateral trauma to those parts of the brain not being accessed being approximately confined to a region having the width of said first cannulated needle. 15. A robotic device according to claim 1 , wherein said flexible needle comprises a drug delivery passage. 16. A robotic device according to claim 1 , further comprising a set of preoperatively inserted markers for relating the position of said robotic device to the skull of a subject, such that the co-ordinate system of said robotic device can be registered to a preoperative image of the skull of said subject. 17. A robotic device according to claim 1 , further comprising at least one position sensor disposed in the distal region of said flexible needle, such that the real time position of said flexible needle tip can be monitored intraoperatively, or in the distal region of said cannula, such that the real time position of the tip of said cannula can be monitored intraoperatively. 18. A robotic device according to claim 1 , wherein said structure of said flexible needle is such that its flexibility is reduced on traversing said curved section of said cannula, and its mechanical properties are regained after deployment from said non-axial aperture. 19. A robotic device according to claim 1 , wherein said flexible needle comprises a thin-wall tube having a cross sectional shape elongated in the direction perpendicular to the plane of bending of said needle, said shape having bistable conditions which switch on traversing said curved section of said cannula.