KR102077218B1 - Method and system for transformation of medical information for building clinical decision system - Google Patents

Abstract

The present invention is a clinical decision-making system that performs medical information conversion, a rule input unit that receives a general rule from a user, and a rule extraction unit that extracts a medical concept including one of keys, values, operators, and meta information from the general rule. , A rule mapping unit for converting the medical concept into a standard rule including a standard data model and a standard term, for generating a medical logic module (MLM) including patient information, and for loading the structure of the MLM A data slot, a logic slot including the prerequisites of the standard rule, and an action slot including the operation of the standard rule are generated, and at least one of the data slot, the logic slot, or the action slot is combined to generate a first MLM And generating and storing the MLM slot management unit to verify and store the first MLM.

Description

METHOD AND SYSTEM FOR TRANSFORMATION OF MEDICAL INFORMATION FOR BUILDING CLINICAL DECISION SYSTEM}

The present invention relates to a method and system for converting medical information into interoperable information, and more particularly, to a method and system for converting medical information into standardized information to construct a clinical decision-making system.

The Clinical Decision Support System (CDSS) is an electronic medical record (EMR) and electronic health record (HER) that can be used in complex environments to perform complex clinical decisions. Allow users to work. However, interoperability and knowledge integration can be important issues for communication between users. In order to use interoperable knowledge, the user's knowledge can be standardized and used as standard Arden Syntax-based Medical Logic Modules. However, due to its complexity, users are having difficulty creating interoperable knowledge using medical logic modules. Therefore, although standard terminology and standard data models were used to improve interoperability and to easily integrate knowledge with CDSS and HMIS systems, the process of generating interoperable knowledge is also complicated.

SNOMED CT is a term widely used in the clinical field, and supports various languages to improve interoperability and has a very rich meaning. Similar to SNOMED CT, it is recommended to use a standard data model to improve interoperability and integrate CDSS with the HMIS system. The standard data model used in this case uses virtual medical records to exchange appropriate information between various HMIS systems.

As described above, the use of standard terms and standard data models can improve interoperability, but has the disadvantage of increasing the complexity of knowledge. Therefore, users prefer to use the Domain Clinical Model rather than the use of standard terms or standard data models.

There is a system and method for generating a shareable medical knowledge of Korean Patent Publication No. 10-2016-0024490 in the prior art using standard terms and standard data models. However, since the invention loads the medical logic module structure to generate the medical logic module and does not generate the upper or lower slot corresponding to the category, the SNOMED CT information before the conversion to the medical logic module and the information of the vMR data model are stored. There is a disadvantage that it is difficult to do.

The present invention is to solve the above-mentioned problems, and an object thereof is to enable a user to easily generate general rules of medical knowledge.

In addition, an object of the present invention is to automatically convert medical knowledge generated by a user into a standard medical logic module to be shared between users.

The present invention for achieving the above object is in a clinical decision-making system for performing medical information conversion, a rule input unit that receives a general rule from a user, and medical information including one of keys, values, operators, and meta information in the general rule A rule extracting unit for extracting a concept, a rule mapping unit for converting the medical concept into a standard rule including a standard data model and standard terms, a medical logic module (MLM) including patient information, and Create a data slot for loading the structure of the MLM, a logic slot including the prerequisites of the standard rule, an action slot including the operation of the standard rule, and generating at least one of the data slot, logic slot, or action slot And an MLM slot management unit for generating a first MLM by combining slots and verifying and storing the first MLM To an aspect.

In addition, the general rule for generating the MLM structure, the standard data model, and a query control unit providing the standard term, general rule provided by the rule mapping unit, standard data model, and storing mapping information for the standard term It characterized in that it further comprises a mapping storage.

Furthermore, the rule input unit is characterized in that the user can select a general rule through a user interface using an Intelli-Sense function.

In addition, in the general rule, the rule extraction unit includes a key extraction unit for extracting the key, a value extraction unit for extracting the value, an operator extraction unit for extracting the operator, and a meta information extraction unit for extracting meta information. It is characterized by.

Furthermore, the rule mapping unit includes a first mapping unit mapping the medical concept and the standard data model, a second mapping unit mapping the standard term corresponding to the medical concept, and a third mapping unit mapping the standard data model and the standard term. It is characterized by including.

In addition, the MLM slot management unit, a data slot control unit for generating a data slot for loading the MLM structure, a logic slot control unit for generating a logic slot including the prerequisites of the general rule, an action including the operation of the general rule Includes an action slot control unit for generating a slot, an MLM slot generation unit for merging the one or more slots into the first MLM, an MLM slot verification unit for verifying the first MLM, and an MLM storage unit for storing the verified first MLM It is characterized by doing.

Furthermore, the general rule is HL7 Domain Clinical Model (DCM), the standard data model is HL7 virtual medical record (vMR), the standard term is HL7 SNOMED Systematized Nomenclature of Medicine Clinical Terms (CT), and the medical logic module is It is characterized by being based on HL7 Arden Syntax.

In addition, the present invention is a method for converting medical information in a medical information conversion system, receiving a general rule from a user using a user interface, and when the general rule is input, a medical logic module (MLM) including patient information Generating, loading the structure of the MLM, extracting the medical concept of the general rule and converting it into a standard rule corresponding to a standard data model and standard terminology, a logic slot containing the prerequisites of the standard rule, or Generating one or more slots constituting the MLM structure including at least one of action slots including the action of the standard rule, at least one of a data slot, a logic slot, and an action slot for loading the MLM structure Combining to generate a first MLM, and verifying and storing the first MLM. It is characterized by doing.

Furthermore, the step of generating the first MLM includes: loading the MLM structure, converting preconditions of the general rule, generating the one or more MLMs corresponding to the standard rule, and the one or more slots. And merging into the first MLM.

In addition, the general rule is HL7 Domain Clinical Model (DCM), the standard data model is HL7 virtual medical record (vMR), the standard term is HL7 SNOMED Systematized Nomenclature of Medicine Clinical Terms (CT), and the medical logic module is It is characterized by being based on HL7 Arden Syntax.

According to the present invention as described above, the present invention is to solve the above-mentioned problems, and allows the user to easily generate general rules of medical knowledge.

In addition, the present invention enables medical knowledge generated by a user to be automatically converted into a standard medical logic module and shared between users.

1 is a view showing the configuration of a medical information conversion system according to an embodiment of the present invention.
2 is a view for explaining a medical information conversion method according to an embodiment of the present invention.
3 is a view for explaining a method of generating a first MLM according to an embodiment of the present invention.
4 is a view for explaining a method of generating one or more slots according to an embodiment of the present invention.

The above-described objects, features, and advantages will be described in detail below with reference to the accompanying drawings, and accordingly, a person skilled in the art to which the present invention pertains can easily implement the technical spirit of the present invention. In describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted.

The same reference numbers in the drawings are used to indicate the same or similar elements, and all combinations described in the specification and claims can be combined in any way. And it should be understood that unless otherwise specified, a reference to a singular may include one or more, and a reference to a singular expression may also include a plural expression.

The terminology used herein is for the purpose of describing only specific exemplary embodiments and is not intended to be limiting. Singular expressions as used herein may also be intended to include plural meanings unless expressly indicated otherwise in the sentence. The term “and / or,” “and / or” includes all combinations and any of the items listed therewith. The terms “comprises”, “comprising”, “comprising”, “having”, “having”, “having”, etc. have an inclusive meaning, whereby these terms have the described features, integers, It specifies steps, actions, elements, and / or components, and does not exclude the presence or addition of one or more other features, integers, steps, actions, elements, components, and / or groups thereof. The steps, processes, and operations of the method described herein should not be construed as having to perform their performance in such a specific order as discussed or illustrated, unless specifically the order of performance is determined. . It should also be understood that additional or alternative steps may be used.

In addition, each component may be implemented as a hardware processor, and the above components may be integrated and implemented as a single hardware processor, or the above components may be combined and implemented as a plurality of hardware processors.

Also, Arden Syntax aims to share knowledge between knowledge-based systems based on ANSI and Health Level-7 (HL7). In other words, medical knowledge can be shared among hospitals or research institutes based on Arden Syntex. However, the standardized representation of the MLM is tedious for the user, so the main purpose of the present invention is to allow the user to generate knowledge that can be easily shared. This eliminates the need for the user to memorize all slots in the MLM, and makes it easy to select the required key and value.

The Medical Logic Module (hereinafter referred to as MLM) is a standard unit of medical knowledge, and its syntax and structure are very complicated, so it is tedious for a user to write an MLM. Therefore, the medical information conversion system according to the present invention facilitates the creation of general rules using a domain clinical model (DCM) that is easy for a user to understand, and automatically converts the generated general rules into MLM. The purpose. In other words, when users share knowledge, the burden of remembering the complex syntax and structure of MLM can be reduced.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view for explaining a medical information conversion system according to an embodiment of the present invention. More specifically, the medical information conversion system includes a rule input unit 100, an MLM generation unit 200, a rule extraction unit 300, an MLM slot management unit 400, a rule mapping unit 500, a query control unit 600, and a mapping. It may include a storage unit 700.

The rule input unit 100 may receive general rules from a user. General rules may include knowledge, experience, and experimentation by the user, and take the form of a Health Level-7 (HL7) DCM. The rule input unit 100 may use an Intelli-Sense function. IntelliSense makes it easy to write general rules by allowing the user to select the key and value corresponding to the desired concept along with the logical and arithmetic operators required. By using IntelliSense, the medical information conversion system can improve the performance of users and lower the probability of errors in general rules.

The MLM generating unit 200 may manage the entire processor to convert the general rule of the user input through the rule input unit 100 into an Arden Syntax MLM. More specifically, the MLM generation unit 200 may manage all modules that operate to generate the MLM.

The rule extraction unit 300 may extract a medical concept including one of keys, values, operators, and meta information from a general rule. The main components of a general rule are keys, values, and operators, and some meta information is associated with rules for identification of information. Accordingly, the rule extraction unit 300 includes a key extraction unit 310, a value extraction unit 330, an operator extraction unit 370, and a meta information extraction unit 350 to extract corresponding elements from the general rules. You can.

The key extractor 310 can extract the key from the general rule, the value extractor 330 can extract the value from the general rule, and the operator extractor 370 can extract the operator from the general rule. , The meta information extraction unit 350 may extract meta information from general rules.

For example, if the first general rule is "Treatment Intention = Fundamental and Treatment Plan = Chemotherapy and (T = T1 or T = T2) and N = N0", the key extraction unit 310 is configured to Key in treatment intention, treatment plan, T key, and N key can be extracted. In addition, the value extracting unit 330 may extract fundamental, chemotherapy, T1, T2, and N0 values of the first general rule. Also, the operator extractor 370 may extract and, or, and =, operators of the first general rule. In addition, the meta information extraction unit 350 may extract meta information including one or more of a title, a name, a description, a purpose, a creation date, and an author in a general rule.

The MLM slot management unit 400 generates an MLM including patient information, loads the MLM structure, creates one or more slots constituting an MLM structure corresponding to standard rules, and combines one or more slots to form a first MLM. You can create and verify and store the first MLM. More specifically, the MLM slot management unit 400 includes an MLM artifact identification unit 410, a maintenance slot control unit 420, a library slot control unit 430, a knowledge slot control unit 440, an MLM slot generation unit 450, and an MLM slot. A verification unit 460 and an MLM storage unit 470 may be included.

The MLM artifact identification unit 410 may identify operators, reserved words, keywords, and phrases required to generate the MLM.

The maintenance slot control unit 420 may generate and integrate fields of meta information included in the general rule. In addition, the maintenance slot control unit 420 may manage a maintenance slot that includes one or more titles, names, versions, institutions, authors, experts, dates, and other information.

The library slot control unit 430 may manage the library slot of the MLM according to standard syntax and requirements. In addition, the library slot control unit 430 may manage a library slot including one or more pieces of information such as purpose, description, quotations, keywords, and the like.

The knowledge slot control unit 440 may include a data slot control unit 441, a logic slot control unit 443, and an action slot control unit 445. The knowledge slot controller 440 may manage a knowledge slot including history and cases.

The data slot control unit 441 may generate a data slot for loading the MLM structure corresponding to the general rule. More specifically, the data slot control unit 441 may load the MLM structure using an input or output object required to call the MLM structure.

The logic slot control unit 443 may generate a logic slot including the preconditions of the general rule.

The action slot control unit 445 may generate an action slot including the action of the general rule. Since the operation of the general rule means an operation for a precondition, the action slot control unit 445 can be operated when the result for the logic slot is satisfied.

The MLM slot generation unit 450 may merge lower slots for the generated one or more MLM structures into one first MLM slot.

The MLM slot verification unit 460 may verify the validity of the first MLM in relation to the standard structure, syntax, and semantics of the first MLM.

The MLM storage unit 470 may store the verified first MLM.

The rule mapping unit 500 may extract a medical concept of a general rule and convert it into a standard rule including a standard data model and standard terms. More specifically, the rule mapping unit 500 may map the DCM concept used in the general rule with a standard data model (hereinafter SNOMED CT) and a standard term (hereinafter vMR). The rule mapping unit 500 may include a DCM-SNOMED mapping unit 510, a DCM-vMR mapping unit 530, and a vMR-SNOMED mapping unit 550.

The DCM-SNOMED mapping unit 510 may map DCM and SNOMED CT. For example, when the DCM concept is "treatment intention (395077000)", the DCM-SNOMED mapping unit 510 may search for SNOMED CT corresponding to "treatment intention". The DCM-SNOMED mapping unit 510 may map SNOMED CT to all DCM concepts included in the general rule input by the user.

The DCM-vMR mapping unit 530 may map DCM and vMR. For example, when the DCM concept is "treatment intention (395077000)", the DCM-vMR mapping unit 530 may search for a vMR corresponding to "treatment intention". The DCM concept is mapped to the corresponding vMR classes and attributes with the support of a team of doctors and knowledge engineers, making searching easy. The DCM-vMR mapping unit 530 may map vMR to all DCM concepts included in the general rule input by the user. As such, the interoperability can be extended by mapping the DCM concept and vMR.

The vMR-SNOMED mapping unit 550 may map vMR and SNOMED CT. For example, when the vMR is "Procedure.procedureCode", the vMR-SNOMED mapping unit 550 can determine that the corresponding vMR is mapped to the attribute of "Treatment Intent (395077000)". The vMR class and its attributes can be mapped to the top-level concept corresponding to the SNOMED CT code.

The query control unit 600 may provide general rules, standard data models, and standard terms to generate the MLM structure. More specifically, the query control unit 600 may manage queries used in the rule mapping unit 500. The DCM-SNOMED mapping unit 510 may use queries provided through the DCM query management unit 630 and the SNOMED CT query management unit 610. Also, the DCM-vMR mapping unit 530 may use queries provided through the DCM query management unit 630 and the vMR query management unit 650. Also, the vMR-SNOMED mapping unit 550 may use queries provided through the vMR query management unit 650 and the SNOMED CT query management unit 610.

The mapping storage unit 700 may store general rule, standard data model, and standard terminology mapping information provided by the rule mapping unit 500. The mapping storage unit 700 may provide information requesting a query from the query control unit 600. More specifically, the DCM-SNOMED mapping unit 510 loads SNOMED CT information corresponding to a general rule from the DCM-SNOMED mapping storage unit 710 using the DCM query management unit 630 and the SNOMED CT query management unit 610. can do. In addition, the DCM-vMR mapping unit 530 may load the vMR information corresponding to the general rule from the DCM-vMR mapping storage unit 730 using the DCM query management unit 630 and the vMR query management unit 650, The vMR-SNOMED mapping unit 550 may load SNOMED CT information corresponding to vMR information from the vMR-SNOMED mapping storage unit 750 using the vMR query management unit 650 and the SNOMED CT query management unit 610.

To this end, the mapping storage unit 700 is used by the DCM-SNOMED mapping storage unit 710 and the DCM-vMR mapping unit 530 storing DCM-SNOMED mapping information used by the DCM-SNOMED mapping unit 510. Includes a DCM-vMR mapping storage unit 730 for storing DCM-vMR mapping information, and a vMR-SNOMED mapping storage unit 750 for storing vMR-SNOMED mapping information used by the vMR-SNOMED mapping unit 550. can do.

Hereinafter, a method of converting medical information according to an embodiment of the present invention will be described with reference to FIGS. 2 to 4. In the description of the medical information conversion method, detailed embodiments overlapping with the above-described medical information conversion system may be omitted.

2 is a view for explaining a medical information conversion method according to an embodiment of the present invention.

The medical information conversion system may receive a general rule from the user (S100). The general rule may take the form of HL7 DCM, and the user can easily enter the rule using the Intelli-Sense method.

Upon receiving the general rule from the user, the medical information conversion system may extract a medical concept including key, value, operator, and meta information from the general rule (S200). Meta information may include information such as the title, name, description, purpose, creation date, and author of the general rule.

The medical information conversion system may generate a standard rule including a standard data model and a standard term corresponding to the extracted medical concept (S300). Through this process, all general rules can be replaced with standard data models and standard terms.

When the standard rule is generated, the medical information conversion system may generate one or more MLM slots by mapping general rules, standard data models, and standard terms (S400).

More specifically, referring to FIG. 3, the medical information conversion system loads the MLM structure (S410), generates a logic slot including prerequisites (S420), and generates an action slot when the result of the logic slot is satisfied ( S430).

When one or more slots are generated, the medical information conversion system may combine one or more slots to generate a first MLM (S440). More specifically, the medical information conversion system may generate a first MLM corresponding to the general rule using vMR information mapped to the general rule and SNOMED mapping information. Through this process, even if the user is unfamiliar with the complex MLM structure, general rules can be automatically converted to MLM using vMR and SNOMED CT, and provided to the user.

Referring to FIG. 4, the medical information conversion system may map the vMR corresponding to the general rule (S441) to generate the first MLM. First, the DCM-vMR mapping unit may request mapping information from the DCM-vMR mapping storage unit. The DCM-vMR mapping storage unit may request DCM information and vMR information from the DCM query management unit and the vMR query management unit to obtain mapping information between DCM and vMR.

In addition, the medical information conversion system may map SNOMED CT corresponding to the general rule (S442). First, the DCM-SNOMED mapping unit may request mapping information from the DCM-SNOMED mapping storage unit. The DCM-SNOMED mapping storage unit may request DCM information and SNOEMD CT information from the DCM query management unit and the SNOEMD query management unit to obtain mapping information between DCM and SNOMED CT.

In addition, the medical information conversion system may map SNOMED CT corresponding to vMR (S443). The vMR-SNOMED mapping unit may request vMR information and SNOMED CT information from the vMR query management unit and the SNOMED query management unit to obtain mapping information between vMR and SNOMED CT.

Through this process, the medical information conversion system combines the acquired vMR and SNOMED CT into the MLM structure (S444), and generates one or more MLM slots including vMR information and SNOMED CT information mapped to the general rule entered by the user. can do.

 When the first MLM is generated, the medical information conversion system may verify the first MLM (S500).

The embodiments of the present invention disclosed in the present specification and drawings are merely intended to easily describe the technical contents of the present invention and to provide specific examples to help understanding of the present invention, and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

Claims (10)

In the clinical decision-making system for performing medical information transformation,
A rule input unit that receives a general rule from a user;
A rule extraction unit for extracting a medical concept including one of keys, values, operators, and meta information from the general rule;
A rule mapping unit for converting the medical concept into standard rules including standard data models and standard terms;
Generating a medical logic module (MLM) including patient information, and a data slot for loading the structure of the MLM, a logic slot including the prerequisites of the standard rule, including the operation of the standard rule A clinical decision making system including an MLM slot management unit that generates an action slot, generates a first MLM by combining at least one of the data slot, logic slot, or action slot, and verifies and stores the first MLM. .
According to claim 1,
A query control unit providing the general rule for generating the MLM structure, the standard data model, and the standard terminology;
A clinical decision-making system further comprising a mapping storage unit for storing general rule, standard data model, and standard terminology mapping information provided by the rule mapping unit.
According to claim 1,
The rule input unit,
A clinical decision-making system characterized by allowing the user to select and write the general rule through a user interface using an Intelli-Sense function.
According to claim 1,
The rule extraction unit in the general rule,
A key extraction unit for extracting the key;
A value extraction unit for extracting the value;
An operator extraction unit for extracting the operator;
And a meta information extraction unit for extracting meta information.
According to claim 1,
The rule mapping unit,
A first mapping unit mapping the medical concept and a standard data model;
A second mapping unit mapping standard terms corresponding to the medical concept;
A clinical decision-making system comprising a third mapping unit for mapping standard data models and standard terms.
According to claim 1,
MLM slot generation unit,
A data slot control unit generating a data slot for loading the MLM structure;
A logic slot control unit generating a logic slot including the preconditions of the general rule;
An action slot control unit generating an action slot including the action of the general rule;
An MLM generator that merges the one or more slots into the first MLM;
An MLM verification unit verifying the first MLM;
A clinical decision making system including an MLM storage unit storing the verified first MLM.
According to claim 1,
The general rule is HL7 Domain Clinical Model (DCM),
The standard data model is HL7 virtual medical record (vMR),
The standard term is HL7 SNOMED Systematized Nomenclature of Medicine Clinical Terms (CT),
The medical logic module is a clinical decision-making system, characterized in that based on HL7 Arden Syntax (Arden Syntax).
A method for converting medical information into a medical information conversion system,
Receiving a general rule from a user using a user interface;
When the general rule is input, generating a medical logic module (MLM) including patient information and loading the structure of the MLM;
Extracting a medical concept of the general rule and converting it into a standard rule corresponding to a standard data model and a standard term;
Generating one or more slots constituting the MLM structure including at least one of a logic slot including a precondition of the standard rule or an action slot including an operation of the standard rule;
Generating a first MLM by combining at least one of a data slot for loading the MLM structure and a logic slot and an action slot;
And verifying and storing the first MLM.
The method of claim 8,
The step of generating the first MLM,
Loading the MLM structure;
Converting the prerequisites of the general rule;
Generating the one or more MLMs corresponding to the standard rule;
And merging the one or more slots into the first MLM.
The method of claim 8,
The general rule is HL7 Domain Clinical Model (DCM),
The standard data model is HL7 virtual medical record (vMR),
The standard term is HL7 SNOMED Systematized Nomenclature of Medicine Clinical Terms (CT),
The medical logic module is a medical information conversion method characterized in that it is based on HL7 Arden Syntax (Arden Syntax).

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