CN117174267A - Front-back review contrast reconstruction-overlap contrast system - Google Patents

Abstract

The application discloses a front and back review contrast reconstruction-overlap contrast system, which comprises a first diagnosis recording unit, a review recording unit, an automatic review terminal, a review position synchronization unit, an image reconstruction unit, a first diagnosis case recording unit, a contrast overlap unit and a diagnosis confirming unit, wherein the output end of the first diagnosis recording unit is in communication connection with the input end of the automatic review terminal, and the application has the beneficial effects that: the first diagnosis and the second diagnosis are recorded through the first diagnosis recording unit and the second diagnosis recording unit, the first diagnosis and the second diagnosis are compared according to the first diagnosis and the second diagnosis, the position intelligent adjustment processing is realized when the second check image is subjected to position deviation through the image reconstruction unit, the better check observation is facilitated, the quick reproduction processing is realized through the difference of the first diagnosis and the second diagnosis through the overlapping mode through the contrast overlapping unit, and the efficiency and the stability of the second check are improved.

Description

Front-back review contrast reconstruction-overlap contrast system

Technical Field

The application relates to the technical field of review control, in particular to a front-back review control reconstruction-overlap comparison system.

Background

The hospital is a mechanism for treating and nursing patients, also serves as health examination, disease prevention and the like, is a medical mechanism for providing medical treatment and disease rest-keeping services by professional staff members of the hospitals through medical examination, treatment and other equipment, and the medical image refers to a technology and a processing process for acquiring internal tissue images of a human body or a part of the human body in a non-invasive manner for medical treatment or medical research. It contains the following two relatively independent directions of investigation: the medical imaging system and the medical image processing are used for comparing the re-diagnosis image and the first-diagnosis image of the re-examination patient in the existing hospital, wherein the two images are respectively arranged in one display, and the doctor is used for self-observation and judgment, so that the comparison mode takes a long time, and the re-diagnosis and the first-diagnosis are often different in acquisition positions, the images deviate, the uncertainty of the image of the re-examination comparison is caused, and the comparison observation is inconvenient.

Disclosure of Invention

The application aims to provide a front-back review control reconstruction-overlap contrast system so as to solve the problems in the background technology.

In order to achieve the above purpose, the present application provides the following technical solutions: the front and back review contrast reconstruction-overlap contrast system comprises a first diagnosis recording unit, a review recording unit, an automatic review terminal, a review position synchronization unit, an image reconstruction unit, a first diagnosis case recording unit, a contrast overlap unit and a diagnosis confirming unit, wherein the output end of the first diagnosis recording unit is in communication connection with the input end of the automatic review terminal;

the first diagnosis recording unit is used for recording and processing the disease images of the patient who makes a first diagnosis;

the re-diagnosis recording unit is used for recording and processing the disease information of the re-diagnosis patient;

the automatic review terminal is used for carrying out review processing through the first diagnosis and the review information;

the review position synchronization unit is used for identifying, searching and processing the inspection position of the review image;

the image reconstruction unit is used for carrying out position adjustment processing on the re-diagnosis image and the first-diagnosis image;

the first diagnosis case recording unit is used for carrying out rapid identification and extraction processing on the content of the first diagnosis case;

the contrast overlapping unit is used for performing intelligent overlapping contrast treatment on the re-diagnosis image and the first-diagnosis image and performing contrast observation on the change;

the diagnosis unit is used for confirming the symptom change obtained by overlapping control.

Preferably, the first diagnosis recording unit comprises a first diagnosis time recording module, a CT image recording module and a magnetic resonance image recording module, wherein the output end of the first diagnosis time recording module is in communication connection with the input end of the CT image recording module, and the CT image recording module is in bidirectional connection with the magnetic resonance image recording module;

the first diagnosis time recording module is used for recording and processing the first diagnosis time and the patient information of each patient;

the CT image recording module is used for storing and processing CT images of the first-time patient;

the magnetic resonance image recording module is used for storing and processing the magnetic resonance image of the first-time patient.

Preferably, the re-diagnosis recording unit comprises a re-diagnosis time recording module and a re-diagnosis image storage module, wherein the output end of the re-diagnosis time recording module is in bidirectional connection with the re-diagnosis image storage module;

the re-diagnosis time recording module is used for recording the re-diagnosis time of the patient and the patient information, and carrying out pairing treatment on the first diagnosis through the patient information;

the review image storage module is used for storing and processing CT images and magnetic resonance images of patient review.

Preferably, the review position synchronization unit comprises a layer intelligent identification module and a layer automatic searching module, wherein the output end of the layer intelligent identification module is in communication connection with the input end of the layer automatic searching module;

the intelligent layer identification module is used for carrying out positioning identification processing on the layer reached during image inspection;

the automatic layer searching module is used for searching and synchronously processing the corresponding layers of the first diagnosis and the second diagnosis.

Preferably, the image reconstruction unit comprises a section image establishment module, an image offset recognition module and an image offset correction module, wherein the output end of the section image establishment module is in communication connection with the input end of the image offset recognition module, and the output end of the image offset recognition module is in communication connection with the input end of the image offset correction module;

the section image establishing module is used for acquiring section images of the images;

the image offset recognition module is used for carrying out offset state recognition processing on the images of the re-diagnosis and the first diagnosis according to the section images;

the image offset correction module is used for carrying out adjustment correction processing when the images of the review and the first diagnosis are offset.

Preferably, the first diagnosis case recording unit comprises a case part corresponding module and a range quick searching module, wherein the output end of the case part corresponding module is in communication connection with the input end of the range quick searching module;

the case part corresponding module is used for identifying and corresponding to the focus part of the case content in the first diagnosis;

the rapid range searching module is used for rapidly searching and processing the position range of the focus of the patient.

Preferably, the comparison overlapping unit comprises an image overlapping comparison module, a comparison distinguishing module and a distinguishing and identifying module, wherein the output end of the image overlapping comparison module is in communication connection with the input end of the comparison distinguishing module, and the output end of the comparison distinguishing module is in communication connection with the input end of the distinguishing and identifying module;

the image overlapping comparison module is used for carrying out overlapping comparison processing on the similar images of the first diagnosis and the second diagnosis;

the contrast distinguishing module is used for distinguishing when the first diagnosis and the second diagnosis are overlapped by utilizing different hues;

the difference recognition module is used for recognizing the difference between the first diagnosis image and the second diagnosis image in comparison.

Preferably, the image reconstruction unit is connected with a first-diagnosis image self-adaptive module in two directions, and the first-diagnosis image self-adaptive module is used for adjusting the self-adaptive position of the re-diagnosis image according to the first-diagnosis image.

Preferably, the first diagnosis case recording unit is connected with a focus recovery unit in a bidirectional manner, the focus recovery unit is used for checking and treating the disease according to focus images, the focus recovery unit comprises a focus feature extraction module and a focus progress comparison module, and the output end of the focus feature extraction module is connected with the input end of the focus progress comparison module in a communication manner;

the focus feature extraction module is used for extracting and processing feature points of focus images;

the focus progress comparison module is used for comparing the focus image of the first diagnosis with the focus image of the current re-diagnosis and identifying the disease progress.

Preferably, the focus recovery unit is connected with a patient body review unit in two directions, and the patient body review unit is used for identifying various indexes of the body of the patient for review and confirming the recovery condition of the patient for review.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Compared with the prior art, the application has the beneficial effects that: the first diagnosis and the second diagnosis are recorded through the first diagnosis recording unit and the second diagnosis recording unit, the first diagnosis and the second diagnosis are compared according to the first diagnosis and the second diagnosis, the position intelligent adjustment processing is realized when the second check image is subjected to position deviation through the image reconstruction unit, the better check observation is facilitated, the quick reproduction processing is realized through the difference of the first diagnosis and the second diagnosis through the overlapping mode through the contrast overlapping unit, and the efficiency and the stability of the second check are improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

FIG. 1 is a block diagram of a system of the present application;

FIG. 2 is a block diagram of a first diagnosis recording unit system according to the present application;

FIG. 3 is a block diagram of an image reconstruction unit system according to the present application;

FIG. 4 is a block diagram of a control overlapping cell system of the present application.

Detailed Description

Reference will now be made in detail to exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, the same numbers in different drawings refer to the same or similar elements, unless otherwise indicated. The implementations described in the following exemplary examples are not representative of all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus consistent with some aspects of the disclosure as detailed in the accompanying claims.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Example 1:

referring to fig. 1 to 4, the front and rear review contrast reconstruction-overlap contrast system according to the embodiment of the present application includes a first diagnosis recording unit, a review recording unit, an automatic review terminal, a review position synchronization unit, an image reconstruction unit, a first diagnosis case recording unit, a contrast overlap unit, and a diagnosis confirming unit, where an output end of the first diagnosis recording unit is communicatively connected to an input end of the automatic review terminal, an output end of the review recording unit is communicatively connected to an input end of the automatic review terminal, the automatic review terminal is communicatively connected to the review position synchronization unit, an output end of the review position synchronization unit is communicatively connected to an input end of the image reconstruction unit, an output end of the image reconstruction unit is communicatively connected to an input end of the first diagnosis case recording unit, the contrast overlap unit is bidirectionally connected to the diagnosis confirming unit, and by the first diagnosis recording unit and the review recording unit, the first diagnosis and the review information are recorded, and the contrast examination is performed according to the first diagnosis and review information;

the first diagnosis recording unit is used for recording and processing the disease images of the patient at the first diagnosis, recording the first diagnosis information of the patient, recording the first diagnosis time, and storing and recording the CT images and the magnetic resonance images of the first diagnosis of the patient;

the re-diagnosis recording unit is used for recording and processing the disease information of the re-diagnosis patient, recording the re-diagnosis time of the patient when the patient is first re-diagnosed, and recording the CT image and the magnetic resonance image of the re-diagnosis of the patient;

the automatic review terminal is used for carrying out review processing through the first diagnosis and the review information;

the review position synchronization unit is used for carrying out recognition and search processing on the review position of the review image, carrying out layer pairing search on the images of the review and the first diagnosis, and synchronously adjusting the layers of the two images;

the image reconstruction unit is used for carrying out position adjustment processing on the review image and the first-diagnosis image, acquiring the images according to the tangent planes of the images, identifying the images according to the deviation of the tangent planes of the images, carrying out integral correction adjustment processing on the deviated images, and adding the image reconstruction unit to realize intelligent position adjustment processing when the review comparison image is deviated in position, so that better comparison observation is facilitated;

the first diagnosis case recording unit is used for carrying out rapid identification and extraction processing on the content of the first diagnosis case, carrying out self-adaptive adjustment processing on the re-diagnosis image according to the first diagnosis image, carrying out identification and correspondence according to the disease part of the first diagnosis case of the patient, rapidly searching the range of the disease part in the re-diagnosis image, and observing the range;

the contrast overlapping unit is used for performing intelligent overlapping contrast treatment on the first diagnosis image and the second diagnosis image, performing contrast observation on the change, performing overlapping contrast on the two images, performing observation treatment on the disease state according to the difference of the contrast, and adding the contrast overlapping unit, so that the rapid extraction treatment on the difference between the first diagnosis image and the second diagnosis image in an overlapping mode is realized, and the efficiency and the stability of the review contrast are improved;

the diagnosis unit is used for confirming the symptom change obtained by the overlapping control.

Example 2:

the first diagnosis recording unit comprises a first diagnosis time recording module, a CT image recording module and a magnetic resonance image recording module, wherein the output end of the first diagnosis time recording module is in communication connection with the input end of the CT image recording module, and the CT image recording module is in bidirectional connection with the magnetic resonance image recording module;

the first diagnosis time recording module is used for recording and processing the first diagnosis time and the patient information of each patient;

the CT image recording module is used for storing and processing CT images of the first-time patient;

the magnetic resonance image recording module is used for storing and processing the magnetic resonance image of the first-diagnosis patient, recording the first-diagnosis information of the patient, recording the first-diagnosis time, and storing and recording the CT image and the magnetic resonance image of the first-diagnosis patient.

The re-diagnosis recording unit comprises a re-diagnosis time recording module and a re-diagnosis image storage module, wherein the output end of the re-diagnosis time recording module is in bidirectional connection with the re-diagnosis image storage module;

the re-diagnosis time recording module is used for recording the re-diagnosis time of the patient and the patient information, and carrying out pairing treatment on the first diagnosis through the patient information;

the re-diagnosis image storage module is used for storing and processing CT images and magnetic resonance images of the patient for re-diagnosis, recording the time of the re-diagnosis of the patient when the patient is in first diagnosis, recording the CT images and the magnetic resonance images of the patient for re-diagnosis, and realizing the recording and processing of the first diagnosis and the re-diagnosis of the examination information through the first diagnosis recording unit and the re-diagnosis recording unit and the contrast examination processing according to the first diagnosis and the re-diagnosis information.

The device comprises a recheck position synchronization unit, a storage unit and a storage unit, wherein the recheck position synchronization unit comprises a layer intelligent identification module and a layer automatic searching module, and the output end of the layer intelligent identification module is in communication connection with the input end of the layer automatic searching module;

the intelligent layer identification module is used for carrying out positioning identification processing on the layer reached during image inspection;

the automatic layer searching module is used for searching and synchronously processing the corresponding layers of the first diagnosis and the second diagnosis, carrying out layer pairing searching on the images of the second diagnosis and the first diagnosis, and synchronously adjusting the layers of the two images.

The image reconstruction unit comprises a section image establishment module, an image offset recognition module and an image offset correction module, wherein the output end of the section image establishment module is in communication connection with the input end of the image offset recognition module, and the output end of the image offset recognition module is in communication connection with the input end of the image offset correction module;

the section image establishing module is used for acquiring section images of the images;

the image offset recognition module is used for carrying out offset state recognition processing on the images of the re-diagnosis and the first diagnosis according to the section images;

the image offset correction module is used for carrying out adjustment correction processing when the images of the review and the first diagnosis are offset, acquiring the images according to the section of the images, carrying out identification processing according to the condition that the images have offset according to the section of the images, and carrying out overall correction adjustment processing on the offset images.

The first diagnosis case recording unit comprises a case part corresponding module and a range quick searching module, wherein the output end of the case part corresponding module is in communication connection with the input end of the range quick searching module;

the case part corresponding module is used for identifying and corresponding to the focus part of the case content in the first diagnosis;

the rapid range searching module is used for rapidly searching the position range of the focus of the patient, performing self-adaptive adjustment processing on the re-diagnosis image according to the first diagnosis image, performing identification correspondence according to the disease position of the first diagnosis case of the patient, rapidly searching the range of the disease position in the re-diagnosis image, and observing the range.

The image overlapping unit comprises an image overlapping comparison module, a comparison distinguishing module and a distinguishing and identifying module, wherein the output end of the image overlapping comparison module is in communication connection with the input end of the comparison distinguishing module, and the output end of the comparison distinguishing module is in communication connection with the input end of the distinguishing and identifying module;

the image overlapping comparison module is used for carrying out overlapping comparison processing on the similar images of the first diagnosis and the second diagnosis;

the contrast distinguishing module is used for distinguishing when the first diagnosis and the second diagnosis are overlapped by utilizing different hues;

the difference recognition module is used for recognizing the difference between the first diagnosis image and the second diagnosis image during comparison, overlapping the two images, observing the disease state according to the difference of the comparison, and adding a comparison overlapping unit, so that the quick reproduction processing of the difference between the first diagnosis image and the second diagnosis image in an overlapping mode is realized, and the efficiency and the stability of the second check are improved.

The image reconstruction unit is connected with a first-diagnosis image self-adaption module in a two-way mode, and the first-diagnosis image self-adaption module is used for carrying out self-adaption position adjustment processing on the re-diagnosis image according to the first-diagnosis image and carrying out self-adaption adjustment processing on the re-diagnosis image according to the first-diagnosis image.

The disease recovery unit is used for checking and treating diseases according to the disease images, and comprises a disease feature extraction module and a disease progress comparison module, wherein the output end of the disease feature extraction module is in communication connection with the input end of the disease progress comparison module;

the focus feature extraction module is used for extracting and processing feature points of focus images;

the focus progress comparison module is used for comparing the focus image of the first diagnosis with the focus image of the current re-diagnosis, identifying the disease progress condition, comparing the first diagnosis and the re-diagnosis according to the focus characteristics, and comparing and observing the focus state.

The focus recovery unit is connected with a patient body review unit in a bidirectional manner, and the patient body review unit is used for identifying various indexes of the body of the patient to be reviewed, confirming the recovery condition of the patient to be reviewed, and further carrying out rapid observation and recording on the symptoms of the patient.

Example 3:

recording first diagnosis information of a patient, recording first diagnosis time, storing and recording a CT image and a magnetic resonance image of the first diagnosis of the patient, recording the time of the first diagnosis of the patient when the first diagnosis is carried out, recording the CT image and the magnetic resonance image of the second diagnosis of the patient, carrying out automatic check matching processing through an automatic check terminal, carrying out layer pairing search on the images of the second diagnosis and the first diagnosis, synchronously adjusting the layers of the two images, acquiring according to the section of the images, carrying out identification processing on the condition that the images deviate according to the section of the images, carrying out integral correction adjustment processing on the offset images, carrying out self-adaptive adjustment processing on the second diagnosis images according to the first diagnosis image, carrying out identification correspondence according to the disease position of the first diagnosis case of the patient, quickly searching the disease position range in the second diagnosis image, observing the range, carrying out overlapping comparison on the two images, carrying out observation processing on the disease state according to different comparison positions, and simultaneously carrying out first diagnosis and second diagnosis contrast observation processing on the disease state of the focus.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any adaptations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope of the disclosure being indicated by the following claims.

Claims (10)

1. The front and back review contrast reconstruction-overlap contrast system is characterized by comprising a first diagnosis recording unit, a review recording unit, an automatic review terminal, a review position synchronization unit, an image reconstruction unit, a first diagnosis case recording unit, a contrast overlapping unit and a diagnosis confirming unit, wherein the output end of the first diagnosis recording unit is in communication connection with the input end of the automatic review terminal;

the first diagnosis recording unit is used for recording and processing the disease images of the patient who makes a first diagnosis;

the re-diagnosis recording unit is used for recording and processing the disease information of the re-diagnosis patient;

the automatic review terminal is used for carrying out review processing through the first diagnosis and the review information;

the review position synchronization unit is used for identifying, searching and processing the inspection position of the review image;

the image reconstruction unit is used for carrying out position adjustment processing on the re-diagnosis image and the first-diagnosis image;

the first diagnosis case recording unit is used for carrying out rapid identification and extraction processing on the content of the first diagnosis case;

the contrast overlapping unit is used for performing intelligent overlapping contrast treatment on the re-diagnosis image and the first-diagnosis image and performing contrast observation on the change;

the diagnosis unit is used for confirming the symptom change obtained by overlapping control.

2. The front-back review contrast reconstruction-overlap contrast system according to claim 1, wherein the first diagnosis recording unit comprises a first diagnosis time recording module, a CT image recording module and a magnetic resonance image recording module, the output end of the first diagnosis time recording module is in communication connection with the input end of the CT image recording module, and the CT image recording module is in bidirectional connection with the magnetic resonance image recording module;

the first diagnosis time recording module is used for recording and processing the first diagnosis time and the patient information of each patient;

the CT image recording module is used for storing and processing CT images of the first-time patient;

the magnetic resonance image recording module is used for storing and processing the magnetic resonance image of the first-time patient.

3. The front-back review control reconstruction-overlap contrast system according to claim 2, wherein the review recording unit comprises a review time recording module and a review image storage module, and an output end of the review time recording module is in bidirectional connection with the review image storage module;

the re-diagnosis time recording module is used for recording the re-diagnosis time of the patient and the patient information, and carrying out pairing treatment on the first diagnosis through the patient information;

the review image storage module is used for storing and processing CT images and magnetic resonance images of patient review.

4. The front-back review contrast reconstruction-overlap contrast system according to claim 3, wherein the review location synchronization unit comprises a layer intelligent identification module and a layer automatic search module, and an output end of the layer intelligent identification module is in communication connection with an input end of the layer automatic search module;

the intelligent layer identification module is used for carrying out positioning identification processing on the layer reached during image inspection;

the automatic layer searching module is used for searching and synchronously processing the corresponding layers of the first diagnosis and the second diagnosis.

5. The front-back review contrast reconstruction-overlay contrast system according to claim 4, wherein the image reconstruction unit comprises a tangent plane image creation module, an image offset recognition module, and an image offset correction module, wherein an output end of the tangent plane image creation module is in communication connection with an input end of the image offset recognition module, and an output end of the image offset recognition module is in communication connection with an input end of the image offset correction module;

the section image establishing module is used for acquiring section images of the images;

the image offset recognition module is used for carrying out offset state recognition processing on the images of the re-diagnosis and the first diagnosis according to the section images;

the image offset correction module is used for carrying out adjustment correction processing when the images of the review and the first diagnosis are offset.

6. The front-back review reconstruction-overlap contrast system according to claim 5, wherein the first diagnosis case recording unit includes a case location correspondence module and a range quick search module, and an output end of the case location correspondence module is communicatively connected to an input end of the range quick search module;

the case part corresponding module is used for identifying and corresponding to the focus part of the case content in the first diagnosis;

the rapid range searching module is used for rapidly searching and processing the position range of the focus of the patient.

7. The front-back review contrast reconstruction-overlay contrast system according to claim 6, wherein the contrast overlay unit comprises an image overlay contrast module, a contrast distinguishing module, and a distinguishing module, an output end of the image overlay contrast module is in communication connection with an input end of the contrast distinguishing module, and an output end of the contrast distinguishing module is in communication connection with an input end of the distinguishing module;

the image overlapping comparison module is used for carrying out overlapping comparison processing on the similar images of the first diagnosis and the second diagnosis;

the contrast distinguishing module is used for distinguishing when the first diagnosis and the second diagnosis are overlapped by utilizing different hues;

the difference recognition module is used for recognizing the difference between the first diagnosis image and the second diagnosis image in comparison.

8. The front-back review contrast reconstruction-overlay contrast system according to claim 7, wherein the image reconstruction unit is bi-directionally connected with a first-diagnosis image adaptive module, and the first-diagnosis image adaptive module is configured to adjust the adaptive position of the review image according to the first-diagnosis image.

9. The front-back review contrast reconstruction-overlap contrast system according to claim 8, wherein the first diagnosis case recording unit is bidirectionally connected with a focus recovery unit, the focus recovery unit is used for performing examination treatment on a disease according to a focus image, the focus recovery unit comprises a focus feature extraction module and a focus progress contrast module, and an output end of the focus feature extraction module is in communication connection with an input end of the focus progress contrast module;

the focus feature extraction module is used for extracting and processing feature points of focus images;

the focus progress comparison module is used for comparing the focus image of the first diagnosis with the focus image of the current re-diagnosis and identifying the disease progress.

10. The front-back review control reconstruction-overlap contrast system according to claim 9, wherein the focus restoration unit is bi-directionally connected with a patient body review unit for identifying body indexes of a review patient and confirming restoration status of the patient review.