Method for automatically identifying position of guide pin in X-ray perspective image

An automatic identification, X-ray technology, applied in the field of image processing, can solve problems such as increasing X-ray exposure time, and achieve the effect of shortening operation time, improving operation efficiency, and improving accuracy

Active Publication Date: 2014-12-10
侯志勇 +1
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Problems solved by technology

Because before the guide wire is inserted, the human eye cannot Figure 1a The shown fluoroscopic image accurately predicts the position of the guide wire, so it usually needs repeated verification and adjustment many times during the insertion of the guide wire to ensure that the insertion position is accurate, which seriously increases the X-ray exposure time

Method used

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  • Method for automatically identifying position of guide pin in X-ray perspective image
  • Method for automatically identifying position of guide pin in X-ray perspective image
  • Method for automatically identifying position of guide pin in X-ray perspective image

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Embodiment Construction

[0024] The present invention will be described below in conjunction with the accompanying drawings.

[0025] The invention relates to a method for automatically identifying the position of a guide pin in an X-ray fluoroscopic image. The method is to detect the line segment in the image outline through a probability Hough transform algorithm after obtaining the image profile of the X-ray fluoroscopic image, and then obtain the line segment from the detected line segment. Identify the line segment pairs that are parallel or approximately parallel to each other on the two sides of the guide pin or the sleeve edge placed on the bone surface, and then draw the extension line of the sleeve or guide pin in the X-ray fluoroscopic image according to the center line of the line segment pair. Realize the automatic recognition of the position of the guide pin in the X-ray fluoroscopy image. The specific steps of the method for automatically identifying the position of the guide pin in the...

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Abstract

The invention relates to a method for automatically identifying the position of a guide pin in an X-ray perspective image. The method includes acquiring an image contour of the X-ray perspective image, detecting line segments in the image contour through a probability Hough transform algorithm, subsequently identifying a pair of line segments, which are parallel or approximately parallel, at the edges of two sides of the guide pin or a sleeve placed in a bone surface among the detected line segments, and drawing an extension line of the sleeve or the guide pin in the X-ray perspective image according to a center line of the pair of line segments so as to achieve automatic identification of the position of the guide pin in the X-ray perspective image. The method for automatically identifying the position of the guide pin in the X-ray perspective image is capable of obviously reducing exposure time of X-rays, remarkably shortening operation time, reducing secondary damages to patients, improving positioning accuracy of the operation guide pin, and improving operation efficiency.

Description

technical field [0001] The invention relates to the technical field of image processing, in particular to a method for automatically identifying the position of a guide pin in an X-ray fluoroscopy image during orthopedic minimally invasive surgery. Background technique [0002] Since Wickham, a British surgeon, first proposed the concept of "Minimally Invasive Surgery (MIS)" in 1983, the application of minimally invasive technology and theory in orthopedics has continued to mature and become an important direction for the development of modern orthopedics. Whether a hospital's orthopedics department has a minimally invasive orthopedics department, and whether the field covered by minimally invasive technology is comprehensive are the yardsticks to measure the core competitiveness of the hospital or discipline. Minimally invasive refers to minimal damage, a new surgical technique that achieves surgical efficacy with minimal invasion and minimal physiological interference. It...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06K9/00G06T7/00A61B6/00
Inventor 侯志勇刘荣生张维军
Owner 侯志勇
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