KR101885562B1 - Method for mapping region of interest in first medical image onto second medical image and apparatus using the same - Google Patents

Abstract

The present invention relates to a method for mapping one or more regions of interest (ROIs), which are partial areas of a first medical image capturing an inspection target, onto a second medical image of the inspection target. More specifically, the first medical image includes multiple consecutive slicing images while the second medical image includes planar medical images intersecting the individual ones of the slicing images. According to the present invention, a computing device obtains first ROI information and the first medical information, generates similar medical image data reflecting similar medical images and similar ROI information as an image processing operation based on the first medical image and the first ROI information, and provides mapping result data including the similar medical image, which is another medical image of the inspection target registered with the similar medical images, and second ROI information to an external entity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of mapping a region of interest of a first medical image onto a second medical image,

The present invention relates to a method of mapping at least one region of interest (ROI), which is a part of a first medical image taken on a subject, onto a second medical image of the subject. Specifically, the first medical image includes a plurality of continuous individual slice images, and the second medical image includes a medical image on a plane intersecting the plurality of individual slice images, and the computing device according to the present invention The first medical image and the first region of interest information and acquires the first medical image and the first region of interest image processing to obtain a similar medical image in which the medical pseudo-image and the similar- And provides the mapping result data including the second medical image and the second interest area information, which is another medical image of the subject to be registered, to the external entity do.

Currently, there are methods and systems for projecting an image into a fixed area of another image. However, in the medical image, the clinical information such as the partial area of the medical image, that is, the interest area and additional information related thereto, such as the finding information indicating the medical findings related to the region of interest, and the diagnosis information showing the medical diagnosis result, There is no way to accurately and efficiently match which portion of the image of the other type of the medical image is matched so that the information added to the medical image is often useless for images of other formats.

Accordingly, the present invention proposes a medical image mapping method capable of mapping any medical image and additional information associated therewith so as to be useful for other types of medical images, and an apparatus using the same.

KR 10-1028365 B KR 10-1698850 B

 Yi Du, Gongyi Yu, Xincheng Xiang. GPU accelerated voxel-driven forward projection for iterative reconstruction of cone-beam CT. BioMedical Engineering OnLine, 2017, Volume 16, Number 1, Page 1  Ignacio Rocco, Relja Arandjelovic, Josef Sivic. Convolutional neural network architecture for geometric matching. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 2017

An object of the present invention is to improve the usability of a medical image by mapping information of a region of interest, which is a partial region of the first medical image, to a second medical image and providing a corresponding region.

In addition, the present invention aims at easily configuring big data for machine learning, especially deep learning, by mapping a large amount of first medical image and information of a region of interest to second medical images easily do.

The characteristic configuration of the present invention for achieving the object of the present invention as described above and realizing the characteristic effects of the present invention described below is as follows.

According to an aspect of the present invention, there is provided a method of mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject Wherein the first medical image comprises a plurality of consecutive individual slice images and the second medical image comprises a plane medical image intersecting the plurality of individual slice images, ) Computing apparatus includes a first interest that is information that specifies, as the region of interest, a portion of a specific slicing image that is at least one of (i) the first medical image and (ii) the individual slicing image of the first medical image, Acquiring region information or assisting another device associated with the computing device to acquire; (b) when the first medical image and the first region of interest information are acquired, the computing device performs image processing based on the first medical image and the first region of interest information, wherein (i) Medical image data similar to the second medical image, and (ii) similar medical image data reflecting the similar-interest area information that is a result of modification of the first interest region information to correspond to the similar medical image, Supporting the creation; (c) generating the similar medical image data, the computing device comprising: (i) the second medical image; and (ii) a second interest that is a result of the similarity region information being modified to correspond to the second medical image Wherein the second medical image is provided to the external entity or to provide the other device with the mapping result data including the area information, Image.

According to another aspect of the present invention, there is also provided a computer program stored in a machine readable non-transitory medium, comprising instructions embodied to perform the method according to the invention.

According to another aspect of the present invention, there is provided a computing device for mapping at least one region of interest, which is a portion of a first medical image taken on a subject, onto a second medical image of the subject, Wherein the image comprises a continuous plurality of individual slice images, wherein the second medical image comprises a planar medical image intersecting the plurality of individual slice images, the computing device comprising: (i) And (ii) a first region of interest information that is information that specifies at least one of the individual slice images of the first medical image as the region of interest; And image processing based on the first medical image and the first region of interest information when the first medical image and the first region of interest information are obtained, the method comprising the steps of: (i) Similar medical image and (ii) similar medical image data reflecting the similarity region information that is a result of the first region of interest information being modified to correspond to the similar medical image, or generating the other medical device through the communication unit (I) a second medical image, and (ii) a second medical image that is a result of being modified to correspond to the second medical image, wherein the similar medical image data is generated, 2 mapping result data including interest area information to an external entity, or provides the other device with the mapping result data through the communication unit And the second medical image is a medical image of the similar medical image or another medical image of the subject to be registered therewith.

According to the present invention, the information of the region of interest, which is a partial region of the first medical image having a certain modality, is mapped to the second medical image of the other type, and the region corresponding to the region of interest is provided, .

In addition, according to the present invention, it is possible to easily map a large amount of first medical images and information of a region of interest to second medical images, thereby enabling big data for machine learning, especially deep learning There is an effect that can be easily configured.

Specifically, according to the present invention, it is possible to efficiently organize medical images and information associated therewith, so that it is easy to acquire additional data for learning AI (artificial intelligence) such as a deep learning model in the future, The privileged knowledge of the expert applied to the second medical image can be reflected with high accuracy as it is.

In short, the medical image mapping method of the present invention has a potential effect of being used for learning AI, saving the time of the medical staff, improving the quality of the medical care, and innovating the workflow in the medical field.

According to the present invention, medical images conventionally used in hospitals, such as X-ray images and MRI images, can be used as they are, and the method of the present invention is not dependent on a platform such as a specific operating system Of course.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, Other drawings can be obtained.
1 illustrates a method of mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject according to the present invention Quot; mapping method ") of the computing device according to the present invention.
2 is an exemplary block diagram illustrating the hardware or software components of a computing device that performs a medical imaging mapping method in accordance with the present invention.
FIG. 3 is a flowchart exemplarily showing an embodiment of a medical image mapping method according to the present invention.
4A is a diagram illustrating a first medical image used in an embodiment of a medical image mapping method according to the present invention.
FIG. 4B is a diagram illustrating an exemplary region of interest for a first medical image in FIG. 4A.
5 is a conceptual diagram schematically illustrating a forward projection performed in an embodiment of the medical image mapping method according to the present invention.
6 is a conceptual illustration of registration performed in an embodiment of the medical image mapping method according to the present invention.
7 is an exemplary diagram illustrating a mapped region of interest as a result of the mapping performed by the medical image mapping method according to the present invention.

The following detailed description of the invention refers to the accompanying drawings, which illustrate, by way of example, specific embodiments in which the invention may be practiced in order to clarify the objects, technical solutions and advantages of the invention. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention.

The term "image" or "image data" used throughout the description and claims of the present invention refers to multidimensional data composed of discrete image elements (e.g., pixels in a two-dimensional image and voxels in a three- Quot; For example, "imaging" may be computed by (cone-beam) computed tomography, magnetic resonance imaging (MRI), ultrasound, or any other medical imaging system known in the art The subject may be a medical image of the subject. The images may also be provided in a non-medical context, for example, a remote sensing system, an electron microscopy, and the like.

Throughout the description and claims of the present invention, an "x-ray image" or "x-ray image" can be an x-ray image that is visible (eg, displayed on a video screen) ) Is a term that refers to a digital representation of an x-ray image.

For convenience of description, cone-beam computed tomography (CBCT) image data may sometimes be used herein as an exemplary image format (modality). However, those skilled in the art will appreciate that image formats used in various embodiments of the present invention may be used in various imaging formats such as X-ray imaging, MRI, CT, positron emission tomography (PET), PET-CT, SPECT, SPECT-CT, MR- But it should be understood that the invention is not limited thereto.

Throughout the detailed description and claims of the present invention, the term 'DICOM' (Digital Imaging and Communications in Medicine) is a generic term for various standards used in digital image representation and communication in medical devices, The standard is presented at the Joint Committee composed of the American Radiation Medical Association (ACR) and the American Electrical Manufacturers Association (NEMA).

In addition, the term 'Picture Archiving and Communication System (PACS)' refers to a system for storing, processing and transmitting according to the DICOM standard throughout the detailed description and claims of the present invention, , And MRI can be stored in the DICOM format and transmitted to a terminal inside or outside the hospital through the network, and the result of reading and the medical record can be added to the terminal.

Throughout the description and claims of the present invention, a "medical pseudo-image" is a term that is intended to refer to an image produced by processing another medical image or data to appear as an actual photographed and acquired medical image to be.

Throughout the detailed description and claims of the present invention, 'learning' or 'learning' refers to performing machine learning through computing according to a procedure, It will be understood by those of ordinary skill in the art that the present invention is not intended to be so-called.

And throughout the description and claims of this invention, the word 'comprise' and variations thereof are not intended to exclude other technical features, additions, elements or steps. Also, 'one' or 'one' is used in more than one meaning, and 'another' is limited to at least the second.

Other objects, advantages and features of the present invention will become apparent to those skilled in the art from this description, and in part from the practice of the invention. The following examples and figures are provided by way of illustration and are not intended to limit the invention. Accordingly, the details disclosed herein with respect to a particular structure or function are not to be construed in a limiting sense, but merely as being representative of the general inventive concept providing a guideline for carrying out the invention in various detail structures, It should be interpreted as basic data.

Moreover, the present invention encompasses all possible combinations of embodiments shown herein. It should be understood that the various embodiments of the present invention are different, but need not be mutually exclusive. For example, certain features, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. It should also be understood that the position or arrangement of individual components within each disclosed embodiment may be varied without departing from the spirit and scope of the present invention. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the present invention is to be limited only by the appended claims, along with the full scope of equivalents to which such claims are entitled, if properly explained. In the drawings, like reference numerals refer to the same or similar functions throughout the several views.

Unless otherwise indicated herein or clearly contradicted by context, items referred to in the singular are intended to encompass a plurality unless otherwise specified in the context. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, so that those skilled in the art can easily carry out the present invention.

1 illustrates a method of mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject according to the present invention Quot; mapping method ") of the computing device according to the present invention.

1, a computing device 100 according to an embodiment of the present invention includes a communication unit 110 and a processor 120. The communication unit 110 communicates with an external computing device (not shown) Communication is possible.

In particular, the computing device 100 may be implemented as a computer-readable medium, such as conventional computer hardware (e.g., a computer processor, memory, storage, input and output devices, Electronic communication devices, electronic information storage systems such as network-attached storage (NAS) and storage area networks (SAN), and computer software (i.e., computing devices that enable a computing device to function in a particular manner) Commands) to achieve the desired system performance.

The communication unit 110 of the computing device can send and receive requests and responses to and from other interworking computing devices. As an example, such requests and responses can be made by the same transmission control protocol (TCP) session But not limited to, a user datagram protocol (UDP) datagram, for example. In addition, in a broad sense, the communication unit 110 may include a keyboard, a mouse, an external input device, a printer, a display, and other external output devices for receiving commands or instructions.

The processor 120 of the computing device may also be a micro processing unit (MPU), a central processing unit (CPU), a graphics processing unit (GPU), or a tensor processing unit (TPU), a cache memory, a data bus ). ≪ / RTI > It may further include a software configuration of an operating system and an application that performs a specific purpose.

FIG. 2 is an exemplary block diagram illustrating hardware or software components of a computing device that performs a medical image mapping method according to the present invention. FIG. 3 illustrates an exemplary embodiment of a medical image mapping method according to the present invention. Fig.

2, the computing device 100 may include an image acquisition module 210 as a component of the method and apparatus according to the present invention. It is to be understood that the image acquisition module 210 may be implemented by the communication unit 110 included in the computing device 100 or the interworking of the communication unit 110 and the processor 120, will be.

2, the image acquisition module 210 may include (i) a first medical image including a plurality of individual slice slices, and (ii) a second medical image including the individual It is possible to acquire first ROI information, which is information that specifies at least one of the sliced images as a region of interest, which is a part of a specific sliced image. Individual findings, diagnoses, or clinical information may be associated with each of these areas of interest.

This finding, diagnosis or clinical information refers to information provided as a result of reading by the reader, for example a physician, on the first medical image, wherein the corresponding first region of interest information is overlaid on at least a portion of the first medical image May include information in the form of a mask image that is provided as an indication to support individual findings, diagnosis or clinical information, preferably in the form of a density map .

For example, one example of a first medical image may be a chest CT image.

FIG. 4A is a diagram illustrating a first medical image used in an embodiment of the medical image mapping method according to the present invention, wherein the first medical image is a chest CT image, and one of the slice images is exemplarily Is displayed.

FIG. 4B is a diagram illustrating an exemplary region of interest for the first medical image in FIG. 4A, and a portion of the specific slicing image shown in FIG. 4A is shown as a region of interest 410. As shown in FIG. 4B, the first region of interest information, which is the information for specifying the region of interest, may be information for boxing or segmenting the region of interest. For example, Or may be input through the network.

This first medical image may be obtained, for example, from a medical imaging device or a medical image storage and transmission system (PACS) coupled thereto, but is not limited thereto. For example, the first medical image may be captured through a medical imaging device, transmitted to a PACS according to the DICOM standard, and then acquired by the image acquisition module 210 of the computing device 100.

Next, the acquired first medical image and first region of interest information may be transmitted to the image processing module 220. In the image processing module 220, the first medical image and the first ROI information (Ii) similar medical image data in which the similarity region information, which is a result of modification of the first region of interest information to correspond to the similar medical image, is generated by (i) the similar medical image on the intersecting plane and (iii) a second medical image which is the medical image of the similar medical image or another medical image of the subject to be matched thereto, and (iv) a second medical image which is a result of modifying the similar- And the mapping result data including the information is generated. A detailed description of this series of image processing will be described later.

Here, the second medical image refers to a medical image on a plane intersecting the plurality of individual slice images constituting the first medical image. In the present invention, the second medical image is compared with a similar medical image derived from the first medical image (for example, a CT image) (an image calculated from the CT image and calculated to be similar to the X-ray image) (E.g., an X-ray image). When the second medical image is not provided, the second medical image is a similar medical image itself (for example, a image calculated to be similar to an X-ray image) It is possible.

For example, if the first medical image is composed of slice images of a transverse plane taken continuously along the longitudinal direction of the subject, the second medical image may be a coronal plane of the same subject crossing the first medical image, Lt; / RTI > The crossover referred to herein does not necessarily have to be orthogonal, but may be a sloping crossover. Also, in one example, the second medical image and the first medical image may not be of the same format as the first medical image is a CT image, whereas the second medical image may be an X-ray image. The method and apparatus according to the present invention enable the mapping of regions of interest between different medical images, where mapping result data is generated, the mapping result data is stored via the storage and transmission module 230, and / May be provided to an external entity via a given display device, and / or may be provided to another device, such as a PACS, which is interfaced to the computing device 100.

Here, the external entity includes a user of the computing device 100, a manager, a medical professional in charge of the subject, and the like. In addition, any entity that requires mapping result data of the medical image, And the like. For example, the external entity may be an external AI device that includes separate AI hardware and / or software modules that utilize the mapping result data. Also, 'outside' in an external entity is not intended to exclude embodiments in which AI hardware and / or software modules that utilize the mapping result data are integrated into the computing device 100, And that the mapping result data, which is the result of hardware and / or software modules, can be used as input data of other methods. That is, the external entity may be the computing device 100 itself.

2 are illustrated as being realized in one computing device (e.g., a single standalone workstation) for convenience of explanation, the computing device 100 performing the method of the present invention may be configured in plural.

An embodiment of a medical image mapping method according to the present invention will now be described in detail with reference to FIGS.

3, an image acquisition module 210 implemented by the communication unit 110 of the computing device 100 may include an image acquisition unit (not shown) acquiring first region of interest information, which is information for specifying, as the region of interest, a partial region of a specific slicing image, which is at least one of i) the first medical image and (ii) the individual slicing image of the first medical image, (S100) to enable other devices associated with the computing device to acquire.

The method of mapping a medical image according to the present invention may further comprise the step of determining whether the image processing module 220 implemented by the processor 120 of the computing device 100 is based on the first medical image and the first region of interest information (S200) of generating or generating similar medical image data by image processing, wherein the similar medical image data includes (i) a similar medical image data on a plane intersecting with the individual slice image, And (ii) the similarity region information, which is a result of transforming the first region of interest information to correspond to the similar medical image, is reflected.

In the first embodiment of this step S200, the image processing may be a forward projection. FIG. 5 is a conceptual diagram schematically illustrating forward projection performed in an embodiment of the medical image mapping method according to the present invention, for example, Non-Patent Document 1: Yi Du, Gongyi Yu, Xincheng Xiang. GPU accelerated voxel-driven forward projection for iterative reconstruction of cone-beam CT. BioMedical Engineering OnLine, 2017, Volume 16, Number 1, Page 1.

In particular, the forward projection process is performed with reference to a device that captures a medical image. For example, the referenced device information includes a source to detector distance (SSD), a pixel pitch, and the like do.

In the first embodiment of the step S200, when the second medical image is the other medical image (for example, an X-ray image of a region corresponding to the first medical image which is a CT image), that is, If there is a separate medical image that can be compared and compared with the similar medical image that is calculated from the image, the forward projection is performed with reference to the information of the equipment that photographed the other medical image to make the similar medical image from the first medical image Can be.

On the other hand, when the second medical image is the similar medical image (for example, an image derived from the CT image as the first medical image, similar to the X-ray image) itself, for example, , The second medical image is not a property obtained by the photographing but is an image created by the image processing on the existing image, so that it can be done with reference to the information of the typical photographing equipment.

In the first embodiment, the forward projection is performed in the following manner: (i) a forward projection for the first medical image and a forward projection for the ROI are performed separately, or (ii) the front projection for the first medical image and the ROI May be performed simultaneously.

In the case of the former (i), the similar medical image data includes the similar medical image generated from the first medical image by the forward projection, and the similar medical image generated from the first region of interest information by the forward projection And area information, respectively. Since the first ROI information can be provided for each ROI, the ROI information can be generated for each ROI.

In the latter case (ii), the similar medical image data includes a predetermined operator (F) (for example, an arbitrary one of F ( _{x, y, z} ) (F _{n, i, j} ) of the forward projection with respect to the weight {F (R _{n, x, y, z} ) the first scheme to obtain the point by the result of the forward projection values for the medical image (K _{i, j)} of point-by-point results in similar medical imaging data values _{(K i, j + ΣF n} , i, j) by summing for the weighted forward And may be generated by performing a weighted forward projection. When the first region of interest is a plurality, the predetermined operator F _n applied to the first region of interest may be different.

Meanwhile, in the second embodiment of the step S200, the image processing may summarize coronal plane images according to the first medical image. In the step S200, It is to be understood that the present invention is not limited to the first embodiment and the second embodiment but may be any processing that can obtain the similar medical image data.

The image processing in the first and second embodiments of the above-described step S200 may be performed by the projection module 222 included in the image processing module 220, for example.

3, a medical image mapping method according to the present invention includes: an image processing module 220 implemented by a processor 120 of the computing device 100, the method comprising: (i) (ii) providing the mapping entity with the second region-of-interest information, which is a result of modification of the similarity-of-interest region information to correspond to the second medical image, to an external entity, And further includes step S300.

Preferably, registration is performed between the similar medical image and the other medical image in the case where the second medical image is another medical image in step S300, To the second region of interest information corresponding to the second medical image. If matching between the similar medical image and the second medical image in which the attitude taken by the subject and the angle constituting the image do not completely coincide with each other, then the similar medical image is also matched with the similar medical image on the second medical image Information on the region of interest, i.e., the second region of interest information, can be obtained. That is, in this case, the second region of interest information is a result of being modified based on the matching relationship such that the similarity region information corresponds to the second medical image. Here, the matching may be performed, for example, by a matching module 224 included in the image processing module 220.

6 is a conceptual illustration of registration performed in an embodiment of the medical image mapping method according to the present invention. Referring to FIG. 6, matching is performed such that the individual portions of different images are in a corresponding relationship to each other. For example, in step S300, such matching may be performed by geometric dense matching.

For example, this geometric density matching can be performed in a handcrafted method that takes into account handcrafted features, such as hand-crafted methods, for example, scale-invariant feature transform (SIFT) ), HOG (histogram of oriented gradients), RANSAC (random sample consensus), and Hough transform. These handcraped features are robustness to some extent because they are a long time-finding method by repeated attempts and errors by assumptions made by experts' experiences and analysis.

However, the geometric density matching is not limited to this, and the geometric density matching may be performed by a pre-learned deep learning algorithm based on a large amount of learning data between the similar medical images and the corresponding other medical images It will be understood by those skilled in the art that non-patent document 2: Ignacio Rocco, Relja Arandjelovic, Josef Sivic. Convolutional neural network architecture for geometric matching. In Proceedings of the IEEE Conference on Computer Vision and Pattern Recognition (CVPR), 2017, an example thereof is disclosed. When a large number of training data is available, the geometric density matching by the deep learning algorithm can easily outperform the handcrafted method.

In the case where the second medical image is another medical image, (i) the other medical image and the second region of interest information; Or (ii) information modified to reflect the other medical image and the second ROI information become the mapping result data.

On the other hand, if the second medical image is the similar medical image itself in step S300, the similarity area information itself is the second area of interest information, so no separate matching is required, and (i) Second ROI information; Or (ii) the information itself modified to reflect the similar medical image and the second ROI information become the mapping result data.

The mapping result data described above may be stored or held in the computing device 100 or other device coupled thereto, thereby ultimately being provided to an external entity. This includes, but is not limited to, display through a predetermined display device, generation of output through other output devices, generation and transmission of a file, and the like.

7 is an exemplary diagram illustrating a mapped region of interest as a result of the mapping performed by the medical image mapping method according to the present invention.

7, the case where the second medical image is the generated similar medical image 710 and the case where the second medical image is another medical image 720 different from the similar medical image 710 is exemplarily shown as an example As in the above-mentioned example, the similar medical image 710 may be an image obtained from the first medical image, which is a CT image, and the other medical image 720 may be an X-ray image.

In step S300, the mapped region of interest mapped to the second medical image may be provided or displayed on the external entity, and the second medical image 730 including the mapped region of interest may include the second region of interest information It will be appreciated.

As described above, the present invention has the effect of improving the usability of the medical image by mapping the medical images having different formats by mapping the regions of interest through all of the above-described embodiments and efficiently arranging the medical images and the information associated therewith It becomes possible to acquire additional data for AI learning such as the deep learning model in the future. As a result, AI can help improve the quality of the medical treatment and improve the workflow in the medical field.

Based on the description of the embodiments above, those skilled in the art will recognize that the methods and / or processes of the present invention and their steps may be implemented in hardware, software, or any combination of hardware and software suitable for the particular application Points can be clearly understood. The hardware may include special features or components of a general purpose computer and / or a dedicated computing device or a specific computing device or a particular computing device. The processes may be realized by one or more microprocessors, microcontrollers, embedded microcontrollers, programmable digital signal processors or other programmable devices having internal and / or external memory. Additionally or alternatively, the processes can be configured to process application specific integrated circuits (ASICs), programmable gate arrays, programmable array logic (PAL) Or any other device or combination of devices. Furthermore, the objects of the technical solution of the present invention, or portions contributing to the prior art, may be implemented in the form of program instructions that can be executed through various computer components and recorded on a machine-readable recording medium. The machine-readable recording medium may include program commands, data files, data structures, and the like, alone or in combination. The program instructions recorded on the machine-readable recording medium may be those specially designed and constructed for the present invention or may be those known to those of ordinary skill in the computer software arts. Examples of the machine-readable recording medium include magnetic media such as hard disks, floppy disks and magnetic tape, optical recording media such as CD-ROM, DVD, Blu-ray, magneto-optical media such as floptical disks magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include, but are not limited to, any of the above devices, as well as a heterogeneous combination of processors, processor architectures or combinations of different hardware and software, Which may be constructed using a structured programming language such as C, an object-oriented programming language such as C ++ or an advanced or low-level programming language (assembly language, hardware description languages and database programming languages and techniques) This includes not only bytecode, but also high-level language code that can be executed by a computer using an interpreter or the like.

Thus, in one aspect of the present invention, when the methods and combinations described above are performed by one or more computing devices, combinations of the methods and methods may be implemented as executable code that performs each of the steps. In another aspect, the method may be implemented as systems for performing the steps, and the methods may be distributed in various ways throughout the devices, or all functions may be integrated into one dedicated, stand-alone device, or other hardware. In yet another aspect, the means for performing the steps associated with the processes described above may include any of the hardware and / or software described above. All such sequential combinations and combinations are intended to be within the scope of this disclosure.

For example, the hardware device may be configured to operate as one or more software modules to perform processing in accordance with the present invention, and vice versa. The hardware device may include a processor, such as an MPU, CPU, GPU, TPU, coupled to a memory, such as ROM / RAM, for storing program instructions and configured to execute instructions stored in the memory, And a communication unit capable of receiving and sending data. In addition, the hardware device may include a keyboard, a mouse, and other external input devices for receiving commands generated by the developers.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be construed as being limited to the above-described embodiments, and all of the equivalents or equivalents of the claims, as well as the following claims, I will say.

Such equally or equivalently modified means include, for example, a logically equivalent method which can produce the same result as the method according to the present invention, Should not be limited by the foregoing examples, but should be understood in the broadest sense permissible by law.

Claims (11)

A method for mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject,
Wherein the first medical image includes a plurality of continuous individual slice images, the second medical image includes a medical image on a plane intersecting the plurality of individual slice images,
The method comprises:
(a) a computing device configured to generate a first medical image and a second medical image, the computing device comprising: (i) a first medical image, and (ii) the individual slice image of the first medical image, Acquiring one area of interest information or assisting another device associated with the computing device to acquire;
(b) when the first medical image and the first region of interest information are acquired, the computing device performs image processing based on the first medical image and the first region of interest information, wherein (i) the similarity on the intersecting plane Medical image and (ii) generating similar medical image data in which the similarity region information that is a result of modification of the first region of interest information to correspond to the similar medical image is reflected or supported by the other apparatus; And
(c) generating the similar medical image data, the computing device comprising: (i) the second medical image; and (ii) a second interest that is a result of the similarity region information being modified to correspond to the second medical image Wherein the second medical image is provided to the external entity or to provide the other device with the mapping result data including the area information, Step in the video
, ≪ / RTI &
In the step (b)
Wherein the image processing is a forward projection, wherein, when the second medical image is the other medical image, the image processing is performed with reference to information of an apparatus that has photographed the other medical image, And when the medical image is a medical image, information of a normal photographing equipment is referred to. delete The method according to claim 1,
In the step (b)
Wherein the similar medical image data includes a pointwise result value of forward projection with respect to a weight which is a result of applying a predetermined operator to the first ROI information, a pointwise result value of the forward projection of the first medical image, Wherein the weighted forward projection is generated by weighted forward projection. The method according to claim 1,
In the step (b)
The similar medical image data may include:
The similar medical image generated from the first medical image by the forward projection, and the similar region of interest information generated from the first region of interest information by the forward projection. A method for mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject,
Wherein the first medical image includes a plurality of continuous individual slice images, the second medical image includes a medical image on a plane intersecting the plurality of individual slice images,
The method comprises:
(a) a computing device configured to generate a first medical image and a second medical image, the computing device comprising: (i) a first medical image, and (ii) the individual slice image of the first medical image, Acquiring one area of interest information or assisting another device associated with the computing device to acquire;
(b) when the first medical image and the first region of interest information are acquired, the computing device performs image processing based on the first medical image and the first region of interest information, wherein (i) the similarity on the intersecting plane Medical image and (ii) generating similar medical image data in which the similarity region information that is a result of modification of the first region of interest information to correspond to the similar medical image is reflected or supported by the other apparatus; And
(c) generating the similar medical image data, the computing device comprising: (i) the second medical image; and (ii) a second interest that is a result of the similarity region information being modified to correspond to the second medical image Wherein the second medical image is provided to the external entity or to provide the other device with the mapping result data including the area information, Step in the video
, ≪ / RTI &
In the step (b)
Wherein the image processing is a summation processing of coronal plane images according to the first medical image. The method according to claim 1,
In the step (c)
Wherein the second interest region information is generated by geometric dense matching between the similar medical image and the other medical image when the second medical image is the other medical image, Way. The method according to claim 6,
The geometric density matching may include:
And is performed by at least one of a scale-invariant feature transform (SIFT), a histogram of oriented gradients (HOG), random sample consensus (RANSAC), and handcrafted methods including a Hough transform Of the medical image. The method according to claim 6,
The geometric density matching may include:
Wherein the step of performing the training is performed by a pre-learned deep learning algorithm. A computer program stored in a machine-readable non-transitory medium, comprising instructions embodied in a computer-readable medium for causing a computing device to perform the method of any one of claims 1, 3, 1. A computing device for mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject,
Wherein the first medical image includes a plurality of continuous individual slice images, the second medical image includes a medical image on a plane intersecting the plurality of individual slice images,
The computing device comprising:
(i) acquiring first interest region information, which is information that specifies, as the region of interest, a partial region of a specific slicing image that is at least one of the first medical image and (ii) the individual slicing image of the first medical image A communication unit; And
Image processing based on the first medical image and the first region of interest information when the first medical image and the first region of interest information are obtained, the method comprising: (i) Medical image and (ii) similar medical image data in which the similarity region information that is a result of the first region of interest information being modified to correspond to the similar medical image is reflected or generated to be generated by other apparatuses linked through the communication unit Processor
Lt; / RTI >
The processor comprising:
(Ii) the second region of interest information, which is a result of transforming the similar region of interest information to correspond to the second medical image, To the external entity or to provide the other device with the second medical image through the communication unit, wherein the second medical image is another medical image of the similar medical image or the subject to be registered therewith,
Wherein the image processing is a forward projection, wherein, when the second medical image is the other medical image, the image processing is performed with reference to information of an apparatus that has photographed the other medical image, Wherein the medical image mapping device is configured to refer to the information of the usual photographing equipment in the case of a medical image. 1. A computing device for mapping at least one region of interest (ROI), which is a partial region of a first medical image taken on a subject, onto a second medical image of the subject,
Wherein the first medical image includes a plurality of continuous individual slice images, the second medical image includes a medical image on a plane intersecting the plurality of individual slice images,
The computing device comprising:
(i) acquiring first interest region information, which is information that specifies, as the region of interest, a partial region of a specific slicing image that is at least one of the first medical image and (ii) the individual slicing image of the first medical image A communication unit; And
Image processing based on the first medical image and the first region of interest information when the first medical image and the first region of interest information are obtained, the method comprising: (i) Medical image and (ii) similar medical image data in which the similarity region information that is a result of the first region of interest information being modified to correspond to the similar medical image is reflected or generated to be generated by other apparatuses linked through the communication unit Processor
Lt; / RTI >
The processor comprising:
(Ii) the second region of interest information, which is a result of transforming the similar region of interest information to correspond to the second medical image, To the external entity or to provide the other device with the second medical image through the communication unit, wherein the second medical image is another medical image of the similar medical image or the subject to be registered therewith,
Wherein the image processing is a summation processing of coronal plane images according to the first medical image.

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