KR20220072164A - Ai osteoporosis reading device and method - Google Patents

Abstract

The present invention is a database in which fluoroscopic images of a plurality of osteoporosis patients are stored; Measuring unit for measuring the fluoroscopic image of the suspected patient; And based on the reading range, which is a specific region for measuring bone density in the fluoroscopic image stored in the database, through AI learning, the bone density reading information for the osteoporosis patient is generated, and the bone density reading information and the suspicious patient received from the measurement unit A determination unit for determining whether the suspected patient has osteoporosis by comparing the bone density of the fluoroscopic images of

Description

AI OSTEOPOROSIS READING DEVICE AND METHOD

The present invention relates to an AI osteoporosis reading apparatus and method, and more particularly, to an AI osteoporosis reading apparatus and method for determining whether a patient suspected of osteoporosis has osteoporosis through AI learning based on a fluoroscopic image of the osteoporotic patient.

As people age, bone density gradually decreases, and as such, bone mineral density (BMD) decreases, leading to osteoporosis, in which a hole is formed in the bone. If you suffer from osteoporosis, even a small impact causes very serious consequences, such as broken bones and not easily joining broken bones, so periodic diagnosis is required to prevent osteoporosis or worsen symptoms.

Osteoporosis refers to a state in which bone mass is excessively reduced compared to that of a normal person, and is a clinical condition accompanied by fractures and deformation of bone morphology. That is, osteoporosis is a condition in which bone mass is abnormally reduced and is a pathological condition accompanied by fractures of the spine and femur, and bone deformation.

Conventional bone density information may be obtained by a medical professional reading a picture through a patient, such as an X-ray or ultrasound. However, when a medical professional who reads a fluoroscopic picture of a patient has low skill level, there is a risk of misdiagnosis. With the development of artificial intelligence (AI), the need to accurately determine whether a patient has osteoporosis by reading a fluoroscopic picture of the patient is emerging.

Republic of Korea Patent Publication No. 10-0886484 (2009.02.24)

An object of the present invention is to provide an AI osteoporosis reading apparatus and method capable of determining whether a suspected patient has osteoporosis through AI learning based on a fluoroscopic image of the osteoporotic patient.

Another technical object of the present invention is to provide an AI osteoporosis reading apparatus and method capable of checking changes in bone density by storing fluoroscopic images for each user according to time series, and determining whether or not osteoporosis is based thereon.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

According to an embodiment of the present invention, a database in which fluoroscopic images of a plurality of osteoporosis patients are stored; Measuring unit for measuring the fluoroscopic image of the suspected patient; And based on the reading range, which is a specific region for measuring bone density in the fluoroscopic image stored in the database, through AI learning, the bone density reading information for the osteoporosis patient is generated, and the bone density reading information and the suspicious patient received from the measurement unit Comparing the bone density of the fluoroscopic images of the judging unit for determining whether the suspected patient has osteoporosis; Including, wherein the reading range includes a tooth portion of the fluoroscopic image, it provides an AI osteoporosis reading device.

The reading range may provide an AI osteoporosis reading device, characterized in that at least one of mandibular cortical bone thickness and mandibular medullary bone density is used.

The reading range may provide an AI osteoporosis reading device in which a preset area A is set from a preset tooth position of the mandible, but is set to an area excluding the teeth.

The read information, in the fluoroscopic image of the osteoporosis patient, characterized in that at least one of the preset area A and oral length data is used, wherein the oral length data includes the mandible and the total length of the teeth, the tooth head and the gums. It is possible to provide an AI osteoporosis reader, which is any one of the length and the length of the eroded gum.

The database may include: a data unit for each user in which a perspective image for each user is stored; and a learning data unit for storing fluoroscopy images of a plurality of osteoporosis patients, wherein the data unit for each user stores fluoroscopic images for each user measured by the measurement unit for each user, providing an AI osteoporosis reading device can do.

The determination unit, by comparing the fluoroscopic image for a specific user received from the measurement unit with the fluoroscopic image for a specific user pre-stored in the user-specific data unit, provides an AI osteoporosis reading device capable of confirming a change in the state of bone density can do.

According to an embodiment of the present invention, storing a plurality of fluoroscopic images of osteoporosis patients in a database; generating, by a determination unit, bone density reading information on bone density of an osteoporosis patient through AI learning based on a reading range that is a specific region for measuring bone density in the fluoroscopic image stored in the database; measuring, by the measuring unit, a fluoroscopic image of the suspected patient; storing the fluoroscopy image of the suspected patient measured by the measurement unit in the database; Comprising the step of determining, by the determination unit, the bone density reading information and the bone density of the fluoroscopic image of the suspected patient received from the measurement unit to determine whether the suspected patient has osteoporosis, wherein the reading range includes the tooth portion of the fluoroscopic image It provides a method for reading AI osteoporosis, characterized in that.

The reading range may provide an AI osteoporosis reading method, characterized in that at least one of mandibular cortical bone thickness and mandibular medullary bone density is used.

The reading range may provide an AI osteoporosis reading method in which a preset area A is set from a preset tooth position of the mandible, but is set to an area excluding the teeth.

The read information, in the fluoroscopic image of the osteoporosis patient, characterized in that at least one of the preset area A and oral length data is used, wherein the oral length data includes the mandible and the total length of the teeth, the tooth head and the gums. It is possible to provide an AI osteoporosis reading method, which is any one of the length and the length of the eroded gum.

The database may include: a data unit for each user in which a perspective image for each user is stored; and a learning data unit for storing fluoroscopy images of a plurality of osteoporosis patients, wherein the storing of the fluoroscopic images of the suspected patient measured by the measurement unit in the database includes, in the data unit for each user, the fluoroscopy images measured by the measurement unit It is possible to provide an AI osteoporosis reading method, further comprising the step of storing the fluoroscopy image for each user for each user.

After the step of storing the fluoroscopy image of the suspected patient measured by the measurement unit in the database, the determination unit, the fluoroscopy image for the specific user received from the measurement unit, is pre-stored in the data unit for each user. Comparing with the image, it is possible to provide an AI osteoporosis reading method further comprising the step of confirming a change in the state of bone density.

According to an embodiment of the present invention, it is possible to determine whether the suspected patient has osteoporosis through AI learning based on the patient's fluoroscopic image.

In addition, by storing the fluoroscopic images for each user according to time series, the change in bone density can be checked, and based on this, it is possible to determine whether osteoporosis is present.

1 is a view showing an AI osteoporosis reading device according to an embodiment of the present invention;
2 is a diagram illustrating a reading range in a perspective image according to an embodiment of the present invention;
3 is a flowchart illustrating an AI osteoporosis reading method according to an embodiment of the present invention;
4 is a flowchart of storing information for each user according to an embodiment of the present invention;

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. However, this is merely an example, and the present invention is not limited thereto.

In the description of the present invention, if it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. In addition, the terms to be described later are terms defined in consideration of functions in the present invention, which may vary according to intentions or customs of users and operators. Therefore, the definition should be made based on the content throughout this specification.

The technical spirit of the present invention is determined by the claims, and the following examples are only one means for efficiently explaining the technical spirit of the present invention to those of ordinary skill in the art to which the present invention belongs.

1 is a diagram illustrating an AI osteoporosis reading apparatus according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating a reading range in a fluoroscopic image according to an embodiment of the present invention.

Referring to FIG. 1 , the AI osteoporosis reading apparatus 10 according to the present invention may include a measurement unit 102 , a control unit 104 , a determination unit 106 , a communication unit 108 , and a database 110 .

The measurement unit 102 may generate a fluoroscopic image necessary for reading bone density by photographing the user. Here, the user is a person who takes a fluoroscopic image through the AI osteoporosis reading device 10 , and may mean an osteoporosis patient or a patient suspected of osteoporosis. The measurement unit 102 may generate a fluoroscopic image necessary for reading a patient's bone density, and may provide it to the control unit 104 . For example, the fluoroscopic image is a photograph for reading bone density, and may include at least one of an X-ray image, a tomography image, an ultrasound image, and a magnetic resonance image (MRI). The tomography may be, for example, CT. The magnetic resonance may be, for example, nuclear magnetic resonance (NMR).

The measurement unit 102 may check a reading range before taking a fluoroscopic image, and may take a fluoroscopic image for the reading range. Here, the reading range is a specific region for measuring bone density in the fluoroscopic image, and may include, for example, at least one of mandibular cortical bone thickness and mandibular medullary bone density. Here, it is described that the reading range includes at least one of the mandibular cortical bone thickness and the mandibular medullary bone density, but the reading range is not limited thereto.

Here, referring to FIG. 2 , the reading range may be set to an area excluding the teeth while setting the preset area A from the preset tooth position of the mandible.

The controller 104 may control the AI osteoporosis measuring device 10 . Specifically, the control unit 104 may control the measurement unit 102 to take a fluoroscopic image of the user. Also, the control unit 104 may control the communication unit 106 to receive external information through communication with an external device and to transmit a see-through image.

The control unit 104 may include an input unit (not shown). The input unit may obtain an input from a user. For example, the input unit may obtain a console input, a touch input, and the like. The control unit 110 may obtain and control a command related to the operation of the AI osteoporosis reading apparatus 10 based on a signal input by the input unit from the outside.

The determination unit 106 may generate bone density reading information on the bone density of the osteoporosis patient through AI learning based on the reading range, which is a specific region for measuring bone density in the fluoroscopic image stored in the database 110 . Here, referring to FIG. 3 , read information may be generated by using at least one of a preset area A and oral length data (A, B, C) in a fluoroscopic image of a patient with osteoporosis. Oral length A may be, for example, the length of the mandible and the entire tooth, oral length B may be the length of the tooth head and gums, and oral length C may be the length of the eroded gums. The determination unit 106 may be referred to as, for example, a “processor”. The determination unit 106 may be implemented using at least one of a server, a computer, a PCB, a logic circuit, and a laptop. The determination unit 106 may include an AI engine. The AI engine may be referred to as an “artificial intelligence engine”. The AI engine may perform AI learning using machine learning and/or deep learning. Here, AI learning may mean generating bone density reading information for the osteoporosis patient's bone density based on the reading range in the fluoroscopic image stored in the database 110 . Here, the bone density reading information may refer to information about a numerical value or an image about the bone density of an osteoporosis patient.

The determination unit 106 may determine whether the suspected patient has osteoporosis using the user medical history information, the bone density reading information, and the fluoroscopic image of the suspected patient. Here, the user medical history information may mean an individual's osteoporosis and fracture risk factors, disease history, drug history, personal genetic information, and the like. Specifically, the determination unit 106 compares and analyzes the bone density reading information generated through AI learning and the fluoroscopic image of the suspected patient measured by the measurement unit 102, but different reference points for each user through the user history information of the suspected patient established, and using this, it is possible to determine whether the suspected patient has osteoporosis.

The determination unit 106 may predict a change in the bone density state of the user by AI learning the change in the state of bone density for each user. Specifically, the determination unit 106 compares the perspective image of the specific user received from the measurement unit 102 with the perspective image of the specific user pre-stored in the database unit 110 for the specific user (ie, the measurement unit 102). A change in the state of bone density of a specific user of the fluoroscopy image received from In addition, the determination unit 106 AI learns the change in the fluoroscopic image for each user stored in the database 110, and compares the change in the bone density state of the specific user identified above with the AI learning result to predict the change in the bone density state of the user. can

The communication unit 108 may communicate with an external organization (not shown). The external organization refers to an external device of an external organization, and may mean a server, system, or terminal of the external organization. For example, the communication unit 108 may transmit and receive the first signal S1 to and from an external organization. The first signal S1 may include data. For example, the first signal S1 may include a fluoroscopic image necessary for reading osteoporosis.

The database 110 may store data necessary for the AI osteoporosis reading device 10 . Specifically, the database 110 may store fluoroscopic images of a plurality of osteoporosis patients. Here, the fluoroscopic images of the plurality of osteoporosis patients may include a fluoroscopic image taken through the measurement unit 102 as well as a fluoroscopic image received from the outside through the communication unit 108 .

The database 110 may include a data unit for each user and a learning data unit. Here, the data unit for each user stores the perspective image for each user in time series, and the perspective image for each user measured by the measurement unit 102 may be continuously updated for each user. Also, the learning data unit may store fluoroscopic images of a plurality of osteoporosis patients.

3 is a flowchart illustrating an AI osteoporosis reading method according to an embodiment of the present invention.

Referring to FIG. 3 , the AI osteoporosis reading device 10 stores the fluoroscopic image of the osteoporosis patient ( S302 ). Specifically, the AI osteoporosis reading device 10 may store a fluoroscopic image of an osteoporosis patient. The AI osteoporosis reading device 10 may receive and store a fluoroscopic image of an osteoporosis patient from an external device, or may be captured and stored by the measurement unit 102 .

Next, the AI osteoporosis reading device 10 may generate bone density reading information on the bone density of the osteoporosis patient through AI learning (S304). Specifically, the AI osteoporosis reading device 10 may generate bone density reading information by performing AI learning based on the reading range, which is a specific region for measuring bone density, in the fluoroscopic image stored in the database 110 . Here, the reading range may include a tooth portion of the fluoroscopic image.

Next, the AI osteoporosis reading device 10 may take and store the fluoroscopic image of the suspected patient (S306). Specifically, the AI osteoporosis reading device 10 may take a fluoroscopic image of the suspected patient through the measurement unit 102 , and store it in the database 110 .

In this case, the AI osteoporosis reading device 10 may store the fluoroscopy image of the suspected patient captured through the measurement unit 102 in a pre-stored fluoroscopy image storage location of the user. Specifically, the AI osteoporosis reading apparatus 10 may store the fluoroscopic images for each user measured by the measurement unit 102 in the database 110 for each user.

Next, the AI osteoporosis reading device 10 may check the bone density state change of the suspected patient. Specifically, the AI osteoporosis reading device 10 is a fluoroscopic image received from the measurement unit 102 when the previous fluoroscopy image of a specific user of the fluoroscopic image received from the measurement unit 102 is pre-stored in the database 110 . A change in the state of bone density can be confirmed by comparing the fluoroscopic image of a specific user with the pre-stored fluoroscopy image.

Next, the AI osteoporosis reading device 10 may confirm the reading range in the fluoroscopic image of the suspected patient (S308). Specifically, the AI osteoporosis reading device 10 may identify a position corresponding to the bone density reading information in the fluoroscopic image of the suspected patient.

Next, the AI osteoporosis reading device 10 may determine whether the suspected patient has osteoporosis. Specifically, the AI osteoporosis reading device 10 may determine whether the suspected patient has osteoporosis by comparing the reading range confirmed in the fluoroscopic image of the suspected patient with the bone density reading information generated by AI learning.

4 is a flowchart of storing information for each user according to an embodiment of the present invention. Referring to FIG. 4 , the AI osteoporosis reading apparatus 10 may receive basic user information ( S402 ). Here, the user basic information may include basic information of a user using the AI osteoporosis reading device 10 and oral hygiene information of the user. Here, the user's basic information may mean user's basic information, such as name, age, gender, and blood type, for example. In addition, the user's oral hygiene information may refer to user information about teeth, such as the location, number, oral hygiene information, gum disease information, nerve treatment information, and tooth treatment information, of missing teeth confirmed by the user through dental examination.

Next, the AI osteoporosis reading apparatus 10 may determine whether the received user information is pre-stored information (S404). Specifically, the AI osteoporosis reading device 10 stores the user's basic information together with the fluoroscopic image of the user from the measurement unit 102, and may check whether the corresponding user basic information is pre-stored information.

When the user basic information is pre-stored, the AI osteoporosis reading apparatus 10 may store the user's fluoroscopy image measured by the measurement unit 102 together with the user's pre-stored fluoroscopic image (S406). The AI osteoporosis reading device 10 stores fluoroscopy images for each user, so that changes in bone density of the patient can be checked in time series.

If the user basic information is not recorded, the AI osteoporosis reading device 10 may receive additional information of the user and store it in the database (S408). Specifically, the AI osteoporosis reading device 10 provides the user's osteoporosis-related additional information (for example, in addition to the fluoroscopic image measured through the measurement unit 102, a fluoroscopic image previously measured elsewhere, bone density values, etc.) may be input and stored in the database 110 .

Although representative embodiments of the present invention have been described in detail above, those of ordinary skill in the art to which the present invention pertains will understand that various modifications are possible without departing from the scope of the present invention with respect to the above-described embodiments. . Therefore, the scope of the present invention should not be limited to the described embodiments, and should be defined by the claims described below as well as the claims and equivalents.

10: AI osteoporosis reading device
102: measurement unit
104: control unit
106: judgment unit
108: communication department
110: database

Claims (12)

a database in which fluoroscopic images of a plurality of osteoporosis patients are stored;
Measuring unit for measuring the fluoroscopic image of the suspected patient; and
Based on the reading range, which is a specific site for measuring bone density in the fluoroscopic image stored in the database, through AI learning, bone density reading information for osteoporosis patients is generated, and the bone density reading information and the suspicious patient received from the measurement unit. A determination unit that compares the bone density of the fluoroscopic image to determine whether the suspected patient has osteoporosis;
The reading range AI osteoporosis reading device, characterized in that it includes the tooth portion of the fluoroscopic image.
The method according to claim 1,
The reading range is
AI osteoporosis reading device, characterized by using at least one of mandibular cortical bone thickness and mandibular medullary bone density.
3. The method according to claim 2,
The reading range is
AI osteoporosis reading device that sets a preset area A from a preset tooth position of the mandible, but is set to an area excluding the teeth.
4. The method according to claim 3,
The read information is
In the fluoroscopic image of the osteoporosis patient, it is characterized in that at least one of the preset area A and oral length data is used,
The oral length data is any one of the length including the mandible and the entire tooth, the length of the tooth head and the gum, and the length of the eroded gum, AI osteoporosis reading device.
The method according to claim 1,
The database is
a data unit for each user in which a perspective image for each user is stored; and
Includes; learning data unit in which a plurality of osteoporosis patients fluoroscopic images are stored;
In the user-specific data unit,
A fluoroscopic image according to each user measured by the measurement unit is stored for each user, AI osteoporosis reading device.
6. The method of claim 5,
The judging unit,
By comparing the fluoroscopic image for a specific user received from the measurement unit with the fluoroscopic image for a specific user pre-stored in the user-specific data unit, the AI osteoporosis reading device can check the state change of bone density.
Storing a plurality of fluoroscopic images of osteoporosis patients in a database;
generating, by a determination unit, bone density reading information on bone density of an osteoporosis patient through AI learning based on a reading range that is a specific region for measuring bone density in the fluoroscopic image stored in the database;
measuring, by the measuring unit, a fluoroscopic image of the suspected patient;
storing the fluoroscopy image of the suspected patient measured by the measurement unit in the database; and
Comprising the step of determining, by the determination unit, the bone density reading information and the bone density of the fluoroscopic image of the suspected patient received from the measurement unit to determine whether the suspected patient has osteoporosis,
AI osteoporosis reading method, characterized in that the reading range includes a tooth portion of the fluoroscopic image.
8. The method of claim 7,
The reading range is
AI osteoporosis reading method, characterized in that using at least one of mandibular cortical bone thickness and mandibular medullary bone density.
9. The method of claim 8,
The reading range is
AI osteoporosis reading method in which a preset area A is set from a preset tooth position of the mandible, but is set to an area excluding the teeth.
10. The method of claim 9,
The read information is
In the fluoroscopic image of the osteoporosis patient, it is characterized in that at least one of the preset area A and oral length data is used,
The oral length data is any one of the length including the mandible and the entire tooth, the length of the tooth head and the gum, and the length of the eroded gum, AI osteoporosis reading method.
8. The method of claim 7,
The database is
a data unit for each user in which a perspective image for each user is stored; and
Includes; learning data unit in which a plurality of osteoporosis patients fluoroscopic images are stored;
The step of storing the fluoroscopic image of the suspected patient measured by the measurement unit in the database,
Further comprising the step of storing the fluoroscopic image for each user measured by the measurement unit in the user-specific data unit for each user, AI osteoporosis reading method.
12. The method of claim 11,
After the step of storing the fluoroscopic image of the suspected patient measured by the measurement unit in the database,
The determination unit, AI osteoporosis, further comprising the step of confirming the state change of bone density by comparing the fluoroscopic image for the specific user received from the measuring unit with the fluoroscopic image for the specific user pre-stored in the data unit for each user How to read.

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