US2015196326A1PendingUtilityA1

Robot Guided Oblique Spinal Stabilization

Assignee: MAZOR ROBOTICS LTDPriority: Dec 1, 2008Filed: Mar 10, 2015Published: Jul 16, 2015
Est. expiryDec 1, 2028(~2.4 yrs left)· nominal 20-yr term from priority
A61B 2017/3407A61B 17/320016A61B 2217/005A61B 2034/107A61B 34/30A61B 2017/00557A61B 90/11A61B 17/70A61B 17/1671A61B 2017/564A61B 2017/00685A61B 17/7064A61B 17/88A61B 17/00234A61B 17/1757A61B 2034/303A61B 90/50A61B 2017/0256A61B 2090/3762A61B 17/7074A61B 2017/7073A61B 17/7001A61B 2017/00261A61B 17/3205
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Claims

Abstract

A robotic system for performing minimally invasive spinal stabilization, using two screws inserted in oblique trajectories from an inferior vertebra pedicle into the adjacent superior vertebra body. The procedure is less traumatic than such procedures performed using open back surgery, by virtue of the robot used to guide the surgeon along a safe trajectory, avoiding damage to nerves surrounding the vertebrae. The robot arm is advantageous since no access is provided in a minimally invasive procedure for direct viewing of the operation site, and the accuracy required for oblique entry can readily be achieved only using robotic control. This robotic system also obviates the need for a large number of fluoroscope images to check drill insertion position relative to the surrounding nerves. Disc cleaning tools with flexible wire heads are also described. The drilling trajectory is determined by comparing fluoroscope images to preoperative images showing the planned path.

Claims

exact text as granted — not AI-modified
We claim: 
     
         1 - 25 . (canceled) 
     
     
         26 . A method for performing spinal stabilization between two adjacent vertebrae of a subject, the method comprising:
 drilling two oblique posterior entry passages, one from each pedicle region in an inferior one of said two adjacent vertebrae into the body of the adjacent superior vertebra towards its anterior cortical rim;   cleaning the disc space between said two adjacent vertebrae;   inserting an inflatable distraction balloon through a first one of said oblique posterior entry passages into said disc space between said two adjacent vertebrae, and inflating said distraction balloon;   inserting a screw obliquely into said inferior and superior vertebrae along the other one of said oblique posterior entry passages, such that said vertebrae are mutually fixed in position;   deflating and withdrawing said distraction balloon; and   inserting a second screw obliquely between said inferior and superior vertebrae along the first one of said oblique posterior entry passages, such that said vertebrae are firmly fixed in position.   
     
     
         27 . A method for performing spinal stabilization between two adjacent vertebrae of a subject according to  claim 26 , further comprising the step of inserting bone grafting material into said disc space through said first oblique posterior entry passage after deflation and withdrawal of said distraction balloon. 
     
     
         28 . A method for performing spinal stabilization between two adjacent vertebrae of a subject according to  claim 26 , wherein said oblique posterior entry passages are drilled with the aid of a robot. 
     
     
         29 . A method for performing spinal stabilization between two adjacent vertebrae of a subject according to  claim 26 , wherein said oblique posterior entry passages are drilled using a mechanical positioner aligned by a surgeon. 
     
     
         30 . A tool for cleaning an intervertebral space, comprising:
 a hollow tubular sleeve;   a central element disposed coaxially within said hollow tubular sleeve; said central element being rotatable relative to said hollow tubular sleeve; and   at least one flexible cutting element attached to a distal end of said central element, such that rotation of said central element causes said flexible cutting element to morcelize nucleus material in said intervertebral space.   
     
     
         31 . A tool according to  claim 30 , wherein said central element comprises a screw element, such that said morcelized nucleus material can be removed from said intervertebral space by rotation of said central element. 
     
     
         32 . A tool according to  claim 30 , wherein said flexible cutting element comprises at least one wire element. 
     
     
         33 . A tool according to  claim 32 , wherein said wire element comprises at least one loop of wire. 
     
     
         34 . A tool according to  claim 30 , wherein said flexible cutting element is constructed of a shape memory alloy. 
     
     
         35 . A tool according to  claim 30 , wherein the flexibility of said cutting element is such that said cutting element changes its angle of attack relative to the axis of said tool as said tool is rotated. 
     
     
         36 . A tool according to  claim 30 , wherein said at least one flexible cutting element is operative to clean the end plates of the vertebrae associated with said intervertebral space. 
     
     
         37 . A tool for cleaning an intervertebral space, comprising:
 a hollow tubular sleeve;   a central element disposed coaxially within said hollow tubular sleeve; said central element being longitudinally moveable relative to said hollow tubular sleeve; and   at least one flexible cutting element attached to a distal end of said central element, such that longitudinal motion of said central element of said central element causes said flexible cutting element to operate at different distances from the distal end of said tool,   wherein said hollow tubular sleeve and said central element are rotatable, such that that rotation of said central element causes said flexible cutting element to morcelize nucleus material in said intervertebral space.   
     
     
         38 . A tool according to  claim 37 , wherein said at least one flexible cutting element is at least one loop of wire, one of whose ends is attached to said hollow tubular sleeve, and the other of whose ends is attached to said central element, such that longitudinal motion of said central element causes said at least one loop to expand or to contract. 
     
     
         39 . A tool according to  claim 37 , further comprising a screw element, such that said morcelized nucleus material can be removed from said intervertebral space by rotation of said central element. 
     
     
         40 . A tool according to  claim 37 , wherein said flexible cutting element is constructed of a shape memory alloy. 
     
     
         41 . A tool according to  claim 37 , wherein the flexibility of said cutting element is such that said cutting element changes its angle of attack relative to the axis of said tool as said tool is rotated. 
     
     
         42 . A tool according  claim 37 , wherein said at least one flexible cutting element is operative to clean the end plates of the vertebrae associated with said intervertebral space.

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