Vertebral Disc Preparation Instrument With an Articulated Scoop Assembly

What is claimed is: 1 . A medical instrument configured for insertion through a tube placed in a body and the collection of bodily tissue, the medical instrument comprising: a user-graspable handle; a shaft assembly extending from the user-graspable handle and defining a longitudinal axis, and an end distal to the user-graspable handle; an articulated scoop assembly having a scoop at the distal end of the shaft assembly and configured to provide swiveling movement of the scoop relative to the longitudinal axis of the shaft assembly whereby the scoop has an arc of swivel that extends beyond a perimeter of the shaft assembly; and a controller associated with the user-graspable handle and the shaft assembly and configured to be actuated by the user-graspable handle to control swiveling of the scoop. 2 . A medical instrument comprising: a user-graspable handle; a shaft assembly defining a proximal end extending from the user-graspable handle, a distal end, and a longitudinal axis; an articulated scoop assembly at the distal end of the shaft assembly configured for swiveling movement of a scoop of the scoop assembly relative to the longitudinal axis of the shaft assembly to allow movement of the scoop beyond the perimeter of the shaft assembly; and a controller associated with the shaft assembly and coupled to and actuated by the user-graspable handle and configured to influence swiveling of the scoop, the controller defining a distal controller end. 3 . The medical instrument of claim 2 , wherein the controller of the shaft assembly is situated for axial movement relative to the shaft assembly through manipulation of the user-graspable handle whereby the articulated scoop assembly causes the scoop to swivel from a position coaxial with the longitudinal axis of the shaft assembly through a pivot arc that extends beyond a perimeter of the longitudinal axis of the shaft assembly, and back. 4 . The medical instrument of claim 3 , wherein: the shaft assembly includes an upper shaft and a lower shaft; the controller includes a longitudinal slot proximate the controller distal end that is coaxial with the longitudinal axis of the shaft assembly and that retains a first pin situated at the distal end of a lower rod of the shaft assembly such that the controller is constrained to longitudinal movement relative to an upper rod of the shaft assembly; the scoop has a second pin at its proximal end that is constrained to perpendicular movement relative to the longitudinal axis of the shaft assembly via a transverse slot at the distal end of the lower rod wherein back and forth longitudinal movement of the lower rod moves the second pin of the scoop up and down within the transverse slot creating a pivot that swivels the scoop; and each side of the scoop has an arced slot that rides respectfully in third and fourth pins at the distal end of the lower rod thereby allowing the scoop to swivel up and down relative to the longitudinal axis of the shaft assembly and thus beyond the perimeter of the shaft assembly and any associated tube, and back to a position coaxial with the longitudinal axis of the shaft assembly. 5 . The medical instrument of claim 4 , wherein the user-graspable handle is formed by a handgrip portion configured to receive a palm of a user and a lever portion with a finger loop configured to receive one or more fingers of the user; and further comprising a double leaf spring situated on and between the handgrip portion and the lever portion to provide tension between the handgrip portion and the lever portion when the handgrip portion and the lever portion are squeezed together during use, and to automatically return the lever portion to an initial state when squeezing of the handgrip portion and the lever portion has ceased. 6 . The medical instrument of claim 5 , wherein the handgrip portion includes a thumb hold. 7 . A method of collecting spinal disc material from a vertebral disc of a spine comprising: providing a tube; placing the tube in a body of a patient proximate a spinal disc; providing a medical instrument configured for be inserted through the tube and collect spinal disc material from outside the perimeter of the tube, the medical instrument comprising: a user-graspable handle; a shaft assembly defining a proximal end extending from the user-graspable handle, a distal end, and a longitudinal axis; an articulated scoop assembly at the distal end of the shaft assembly configured for swiveling movement of a scoop of the scoop assembly relative to the longitudinal axis of the shaft assembly to allow movement of the scoop beyond the perimeter of the shaft assembly; and a controller associated with the shaft assembly and coupled to and actuated by the user-graspable handle and configured to influence swiveling of the scoop, the controller defining a distal controller end; manipulating the user-graspable handle of the medical instrument to cause the controller to cause the articulated scoop assembly to pivot the scoop beyond a perimeter of the tube and collect spinal disc material; collecting spinal disc material from the spinal disc via the scoop; manipulating the user-graspable handle of the medical instrument to cause the controller to cause the articulated scoop assembly to pivot the scoop with collected spinal disc material into a position wherein the scoop is coaxial with the longitudinal axis of the shaft assembly; and removing the medical instrument from the tube. 8 . The method of claim 7 , wherein the controller of the shaft assembly is situated for axial movement relative to the shaft assembly through manipulation of the user-graspable handle whereby the articulated scoop assembly causes the scoop to swivel from a position coaxial with the longitudinal axis of the shaft assembly through a pivot arc that extends beyond a perimeter of the longitudinal axis of the shaft assembly, and back. 9 . The method of claim 8 , wherein: the shaft assembly includes an upper shaft and a lower shaft; the controller includes a longitudinal slot proximate the controller distal end that is coaxial with the longitudinal axis of the shaft assembly and that retains a first pin situated at the distal end of a lower rod of the shaft assembly such that the controller is constrained to longitudinal movement relative to an upper rod of the shaft assembly; the scoop has a second pin at its proximal end that is constrained to perpendicular movement relative to the longitudinal axis of the shaft assembly via a transverse slot at the distal end of the lower rod wherein back and forth longitudinal movement of the lower rod moves the second pin of the scoop up and down within the transverse slot creating a pivot that swivels the scoop; and each side of the scoop has an arced slot that rides respectfully in third and fourth pins at the distal end of the lower rod thereby allowing the scoop to swivel up and down relative to the longitudinal axis of the shaft assembly and thus beyond the perimeter of the shaft assembly and any associated tube, and back to a position coaxial with the longitudinal axis of the shaft assembly. 10 . The method of claim 9 , wherein the user-graspable handle is formed by a handgrip portion configured to receive a palm of a user and a lever portion with a finger loop configured to receive one or more fingers of the user; and further comprising a double leaf spring situated on and between the handgrip portion and the lever portion to provide tension between the handgrip portion and the lever portion when the handgrip portion and the lever portion are squeezed together during use, and to automatically return the lever portion to an initial state when squeezing of th