Method of guiding a stereotaxic instrument at an intracerebral space target point
First Claim
1. A method of guiding a stereotaxic instrument at an intracerebral space target point, comprising the steps of:
- injecting a roentgenocontrast medium into the cerebral cavity of a patient to produce contrast of the intracerebral points thereof;
securing to the patient'"'"'s cranium at least four detachable roentgenocontrast markers having known distances therebetween, with one of said detachable roentgenocontrast markers being offset from a straight line joining any two of other said detachable roentgenocontrast markers;
effecting a first roentgenography of the patient'"'"'s head;
effecting a second roentgenography of the patient'"'"'s head with said second roentgenography being effected under projection conditions differing from projection conditions of said first roentgenography;
removing said detachable roentgenocontrast markers from the patient'"'"'s head;
identifying a position of said detachable roentgenocontrast markers relative to said intracerebral points as references by using the roentgenograms available from said first and second roentgenographies, the distances between said detachable roentgenocontrast markers and the positions of the roentgen radiation source relative to the roentgen films in the course of said first and second roentgenographies;
identifying a position of the intracerebral space target point relative to said intracerebral reference points;
constructing an intracerebral space physical model presenting the relative position of said intracerebral reference points, said detachable roentgenocontrast markers and said target point, said intracerebral space physical model including at least three points, each of which is adapted to simulate one of said detachable roentgenocontrast markers, and a point adapted to simulate said target point;
placing a sterotaxic apparatus on the patient'"'"'s head;
recurrently securing to the patient'"'"'s cranium said detachable roentgenocontrast markers in exactly the same position as they had relative to the patient'"'"'s cranium in the course of said first and second roentgenographies;
identifying the positions of said detachable roentgenocontrast markers, simulated in said intracerebral space physical model, relative to said stereotaxic apparatus and fixing in a stereotaxic apparatus model these indicated positions of said detachable roentgenocontrast markers relative to said stereotaxic apparatus;
orienting said intracerebral space physical model relative to said stereotaxic apparatus model by placing said three points of said intracerebral space physical model adapted to simulate said detachable roentgenocontrast markers in the specified positions of said detachable roentgenocontrast markers relative to said stereotaxic apparatus set forth in said stereotaxic apparatus model;
mounting a guiding arrangement with a stereotaxic instrument upon said stereotaxic apparatus model and adjusting an operative end of said stereotaxic instrument to the specified point of said intracerebral space physical model adapted to simulate the specified target point, with the position of said stereotaxic apparatus being rigidly secured at said guiding arrangement;
drilling a trepanation aperture; and
mounting said guiding arrangement with said stereotaxic instrument upon said stereotaxic apparatus and introducing said stereotaxic instrument into said trepanation aperture.
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Abstract
A method for guiding a stereotaxic instrument at a target point in an intracerebral cavity comprising fixing detachable roentgenocontrast markers with respect to the patient'"'"'s cranium, then effecting contrast roentgenography and determining the relative position of the markers and intracerebral reference points. Subsequently, the position of a target point with respect to the intracerebral reference points is determined and a physical model of the intracerebral cavity is constructed to include the points simulating the markers and a point simulating the target point. A stereotaxic apparatus is installed on the patient'"'"'s head, the detachable roentgenocontrast markers are again fixed with respect to the patient'"'"'s cranium, the position of the detachable markers with respect to the stereotaxic apparatus is identified and the positions of the detachable roentgenocontrast markers with respect to the stereotaxic apparatus are set-up in the model of the stereotaxic apparatus. The physical model of the intracerebral cavity is then oriented with respect to the model of the stereotaxic apparatus, a guiding device with a stereotaxic instruments is installed in the model of the stereotaxic apparatus, the active end of the stereotaxic instrument is brought into registry with the point of the physical model of the intracerebral cavity simulating the target point, and the position of the stereotaxic instrument in the guiding device is fixed. A trepanation opening is then formed and the guiding device with the stereotaxic instrument is mounted on the stereotaxic apparatus and the stereotaxic instrument is introduced into the trepanation opening.
190 Citations
6 Claims
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1. A method of guiding a stereotaxic instrument at an intracerebral space target point, comprising the steps of:
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injecting a roentgenocontrast medium into the cerebral cavity of a patient to produce contrast of the intracerebral points thereof; securing to the patient'"'"'s cranium at least four detachable roentgenocontrast markers having known distances therebetween, with one of said detachable roentgenocontrast markers being offset from a straight line joining any two of other said detachable roentgenocontrast markers; effecting a first roentgenography of the patient'"'"'s head; effecting a second roentgenography of the patient'"'"'s head with said second roentgenography being effected under projection conditions differing from projection conditions of said first roentgenography; removing said detachable roentgenocontrast markers from the patient'"'"'s head; identifying a position of said detachable roentgenocontrast markers relative to said intracerebral points as references by using the roentgenograms available from said first and second roentgenographies, the distances between said detachable roentgenocontrast markers and the positions of the roentgen radiation source relative to the roentgen films in the course of said first and second roentgenographies; identifying a position of the intracerebral space target point relative to said intracerebral reference points; constructing an intracerebral space physical model presenting the relative position of said intracerebral reference points, said detachable roentgenocontrast markers and said target point, said intracerebral space physical model including at least three points, each of which is adapted to simulate one of said detachable roentgenocontrast markers, and a point adapted to simulate said target point; placing a sterotaxic apparatus on the patient'"'"'s head; recurrently securing to the patient'"'"'s cranium said detachable roentgenocontrast markers in exactly the same position as they had relative to the patient'"'"'s cranium in the course of said first and second roentgenographies; identifying the positions of said detachable roentgenocontrast markers, simulated in said intracerebral space physical model, relative to said stereotaxic apparatus and fixing in a stereotaxic apparatus model these indicated positions of said detachable roentgenocontrast markers relative to said stereotaxic apparatus; orienting said intracerebral space physical model relative to said stereotaxic apparatus model by placing said three points of said intracerebral space physical model adapted to simulate said detachable roentgenocontrast markers in the specified positions of said detachable roentgenocontrast markers relative to said stereotaxic apparatus set forth in said stereotaxic apparatus model; mounting a guiding arrangement with a stereotaxic instrument upon said stereotaxic apparatus model and adjusting an operative end of said stereotaxic instrument to the specified point of said intracerebral space physical model adapted to simulate the specified target point, with the position of said stereotaxic apparatus being rigidly secured at said guiding arrangement; drilling a trepanation aperture; and mounting said guiding arrangement with said stereotaxic instrument upon said stereotaxic apparatus and introducing said stereotaxic instrument into said trepanation aperture. - View Dependent Claims (2, 3, 4, 5, 6)
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Specification