A Device for Implanting Intracranial Electrodes in an Arc Trajectory

An internal electrode and arc-shaped technology, which is applied in the field of medical devices, can solve problems such as brain tissue damage, intracranial electrodes are expensive, and there is no stereotaxic device for stimulating multiple targets. The effect of implementation

Inactive Publication Date: 2018-10-30
THE FIRST AFFILIATED HOSPITAL OF FUJIAN MEDICAL UNIV
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

However, considering the high price of intracranial electrodes and the fact that multiple intracranial electrode placements will cause certain damage to brain tissue, how to make a single electrode pass through multiple intracranial targets has important clinical value.
Methods and stereotaxic devices for stimulating multiple targets with a single electrode are not currently available

Method used

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  • A Device for Implanting Intracranial Electrodes in an Arc Trajectory
  • A Device for Implanting Intracranial Electrodes in an Arc Trajectory
  • A Device for Implanting Intracranial Electrodes in an Arc Trajectory

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Embodiment Construction

[0042] Such as figure 1 , 2 , 3, 4, 5, 6, and 7, a method and device for implanting an intracranial electrode with an arc trajectory, which is used to realize the puncture trajectory of a single electrode passing through multiple intracranial target points in the cranium, said The method of implanting intracranial electrodes uses an arc-shaped puncture sleeve with a fixed radian to introduce electrodes into the brain. The arc-shaped puncture sleeve is guided by an arc-shaped guide sleeve with a fixed arc to achieve puncture positioning. fixed on the locator, the locator is provided with a locating frame 1 and a position-adjustable locating point 101, the locating point 101 is provided with a fixing piece, when the arc guide sleeve 25 passes through the locating point 101 and is When the fixture is fixed, the arc-shaped guide sleeve 25 completes the positioning; when the arc-shaped guide sleeve 25 is positioned, the circumference of the circle where the arc of the arc-shaped g...

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Abstract

The invention provides a method and device for implanting an intracranial electrode in an arc track. The method and the device are used for obtaining a puncture track with the single electrode passing through multiple intracranial target points. In the method for implanting the intracranial electrode, a radian-fixed arc puncture cannula is used for leading the electrode into the cranium, puncture positioning of the radian-fixed arc puncture cannula is achieved through the guidance of a radian-fixed arc guide cannula, the radian-fixed arc guide cannula is fixed to a positioning tool, the positioning tool is provided with a positioning frame and position-adjustable positioning points, the positioning points are provided with fixing parts, and when the arc guide cannula penetrates through the positioning points and is fixed through the fixing parts, positioning of the arc guide cannula is completed; when the arc guide cannula is positioned, the circumference of the circle where the arc of the arc guide canula is located passes through the multiple intracranial target points. According to the implanting method and the orienting device, the multiple target points are stimulated with the single electrode.

Description

technical field [0001] The invention relates to the field of medical devices, in particular to a method and a device for implanting intracranial electrodes with an arc trajectory. Background technique [0002] Deep brain stimulation refers to functional neurosurgery for the treatment of central nervous system disorders by placing microelectrodes into specific intracranial targets guided by imaging (CT, MRI) positioning and stereotaxic devices. Stereotaxic instruments at home and abroad are all bow-shaped locators at present, and the principle is the spherical center method. The steps of use are as follows: First, use the stereotaxic head frame as a reference mark for image positioning, place the brain in a three-dimensional space, and measure the Cartesian coordinates (X, Y, Z) of the target point. Secondly, by adjusting the X, Y, and Z arms on the stereotaxic instrument, the center of the arc bow on the stereotaxic instrument coincides with the target point. Finally, the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): A61B17/34A61B90/11
CPCA61B17/3468A61B2017/3405
Inventor 丁陈禹康德智
Owner THE FIRST AFFILIATED HOSPITAL OF FUJIAN MEDICAL UNIV
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