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This document describes changes from the AIM 3.0 to AIM 4.0 foundation information model.
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Introduction
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This document describes changes applied to the This document summarizes the changes in the caBIG® Annotation and Image Markup (AIM) model between version 3.0, revision 11 and the current version, which is 4, revision 43. AIM 4.0 is also referred to as the AIM foundation model.You can download the AIM 3.0 model from http://gforge.nci.nih.gov/frs/download.php/8794/AIM_v3_rv11_load.zip.AIM Foundation model.
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Introduction
The most significant changes from version 3.0 to 4.0 of , revision 11 to the AIM Foundation model is the use of ISO 21090 data types, a caBIG® mandate, and the introduction of AIM Statements. An AIM Statement describes a relationship of a finding found on an image or series of images. It represents a relationship between the subject and object entities in the AIM foundation model.
You can download the AIM 3.0 model and the AIM Foundation model.
Why Use AIM Statements?
The AIM 3.0 model reflects relationships between classes using containment of a source class by a target class, and inheritance such as IS-A relationships. The expressive power of the model is limited by these two types of relationships. No other types of relationships in the AIM 3.0 model are possible and not all necessary relationships are present. For instance, there is no direct relationship between instances of the AnatomicEntity class, e.g. right-upper lobe of lung, and the ImagingObservation class, e.g. mass. Such classes can be indirectly linked to each other only via the Annotation class.
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As the AIM model is used by an increasing number of users, additional requests will arise that add relationships between classes or create new classes to store other important information related to AIM. Managing and rearranging associations with classes will be too complex to manage without the AIM Statement class and its subclasses.
Summary of Changes Between AIM 3.0 and 4.0 Models
AIM 4.0 has eighty new classes. Twelve were renamed and four were deleted. Changes were also made to the data types, as explained below.
ISO 21090 Data Types
The following table shows the renamed data types.
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AIM 3.0 Data Type | ISO 21090 |
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codeValue | CD |
codeMeaning | CD |
codingSchemeDesignator | CD |
codingSchemeVersion | CD |
New AIM 4.0 Classes
AnnotationCollection
The AIM 3.0 model does not support a collection concept. In AIM 3.0, each AIM annotation is stored as a single AIM XML document or AIM DICOM SR. A typical imaging study generates more than one AIM annotation. Managing AIM annotations of the same study becomes an extra activity that AIM implementers have to deal with. The AIM 4.0 foundation model has adopted the ability to store the same type of related AIM annotations as a single source. AIM has two types of annotations: image annotation and annotation-of-annotation. Image annotations annotate images. Annotation-of-annotations annotate other annotations, including image annotations and annotation-of-annotations. AIM 4.0 foundation, therefore, has a mechanism to manage collections of the same type of AIM annotations.
The AnnotationCollection abstract class is the parent of ImageAnnotationCollection and AnnotationofAnnotationCollection. It provides the general concept that AIM may contain one or more instances of the same type. It associates with two optional classes used to capture information about a person, software, or software manufacturer that is generating AIM instances.
ImageAnnotationCollection
This class is one of two root classes in the model. It inherits all AnnotationCollection properties. This class signifies that all members of a collection are of the ImageAnnotaton type.
AnnotationofAnnotationCollection
This class is the second root class in the model. It inherits all AnnotationCollection properties and signifies that all members of a collection are of type AnnotatonOfAnnotation.
AnnotationOfAnnotationStatement can be used to create statements about image annotations and annotation-of-annotations.
AnnotationStatement
Relationships in the AIM 3.0 model are represented by inheritance or IS-A relationships and association relationships. These two expressions do not always precisely represent what AIM users want to state in annotations. AIM 4.0 foundation introduces subject-predicate-object statement constructs, called AIM statements, to precisely define relationships between two entities: a subject and an object. A subject and an object can come from a set of particular classes in the AIM model. The introduction of AIM statements requires structural and class name changes from the AIM 3.0 model. The following classes in AIM 3.0 model were renamed and can be used as subjects and objects in AIM 4.0 foundation.
- Annotation was renamed as AnnotationEntity.
- AnnatomicEntity was renamed as ImagingPhysicalEntity.
- ImagingObservation was renamed as ImagingObservationEntity.
- Inference was renamed as InferenceEntity.
- AnnotationRole was renamed as AnnotationRoleEntity.
- GeometricShape was renamed as GeometricShapeEntity.
- TextAnnotation was renamed as TextAnnotationEntity.
- ImageReference was renamed as ImageReferenceEntity.
- DICOMImageReference DicomImageReference was renamed as DICOMImageReferenceEntity DicomImageReferenceEntity.
- WebImageReference was renamed as UriImageReferenceEntity.
- Calculation was renamed to CalculationEntity.
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A Statement class represents relationships via the use of the predicates listed above, inserted between subject and object. Subject and object associations can link to ImagingPhysicalEntity, ImagingObservationEntity, InferenceEntity, ReferencedAnnotationEntity, GeometricShapeEntity, TextAnnotationEntity, UriImageReferenceEntity, SegmentationEntity, DICOMImageReferenceEntity DicomImageReferenceEntity, ImageAnnotation, or AnnotationOfAnnotation. Not all combinations between these classes are valid AIM statements. See the AnnotationStatement, AnnotationOfAnnotationStatement, and ImageAnnotationStatement sections in the AIM 4.0 UML diagram for all valid AIM statements.
ImageAnnotationStatement
This class is a parent class of AIM statements that can only be applied to ImageAnnotation.
AnnotationOfAnnotationStatement
This class is a parent class of AIM statements that can only be applied to AnnotationOfAnnotation.
Entity
The Entity abstract class represents the existence of a thing, concept, observation, calculation, measurement, or graphical drawing in AIM. It is a parent class of all entities that are subjects and objects of AIM statements.
MarkupEntity
This abstract class represents graphical drawing and textual description that can be placed on an image.
CompactCalculaitonResult
The result of a calculation captured in a string format. The type attribute of the base class defines the data format in which the string is captured.
A string value of a calculation and its type are determined by the type attribute in this class, which inherits from the CalculationResult class. A type can be an array, binary, histogram, matrix, scalar, URI, or vector. An encoding method is applied to the content of the value attribute. A compression method attribute can be used to define the compression algorithm of the value attribute to reduce the size of the value attribute.
ExtendedCalculationResult
This class stores a result of a calculation explicitly with the precise location of each element in the result. It supports sparse matrix type results.
Algorithm
The class provides well-defined instructions for arriving at results.
Parameter
The class represents a set of structured data to be used in the calculation or computation of an algorithm.
AdjudicationObservation
An observation is made about the comparison between two or more performers’ clinical results (i.e., “adjudication”). It describes a specific time point or all previous time points as well as those explicitly called out.
AuditTrail
It is used to capture any activity, in coded terms, that requires an entry in the audit trail log, including general and time point lesion observations, time point observations, etc.
SegmentationEntity
This is an abstract class representing the result of a segmentation process where digital images are segmented into a set of pixels. These pixels are stored in a separate file from the original images. Segmentation typically represents a region of interest.
TaskContextEntity
This class contains identifying and descriptive attributes of the reading session and the reading subtask that result in clinical environment or trial results. The class consists of the overall task and the specific subtask. A task represents a unit of overall work, e.g. "Read all of the available time points for the subjects". It may have one or more subtasks. It can be used to capture planned (scheduled) and to record performed tasks.
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ThreeDimensionGeometricShapeEntity
This abstract class represents three-dimensional coordinates of a graphical drawing that can be placed on an image to identify a region of interest (ROI).
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TwoDimensionGeometricShapeEntity
This abstract class represents two-dimensional coordinates of a graphical drawing that can be placed on an image to identify a region of interest (ROI).
TwoDimensionPoint
This class was originally named Point. A point is defined by a single pixel denoted by a single (column,row) pair.
TwoDimensionCircle
This class was originally named Circle. A circle is defined by two (column,row) pairs. The first point is the central pixel. The second point is a pixel on the perimeter of the circle.
TwoDimensionEllipse
This class was originally named Ellipse. An ellipse is defined by four pixel (column,row) pairs; the first two points specify the endpoints of the major axis and the second two points specify the endpoints of the minor axis of an ellipse.
TwoDimensionPolyline
This class was originally named Polyline. A polyline is defined by a series of connected line segments with ordered vertices denoted by (column,row) pairs; if the first and last vertices are the same, it is a closed polygon.
TwoDimensionMultipoint
This class was originally named Multipoint. A multipoint is defined by multiple pixels each denoted by a (column,row) pair.
ThreeDimensionPoint
This class contains a single location denoted by a single (x,y,z) triplet.
ThreeDimensionMultipoint
This class contains multiple locations each denoted by an (x,y,z) triplet. The points need not be coplanar.
ThreeDimensionPolyline
This class stores a series of connected line segments with ordered vertices denoted by (x,y,z) triplets; the points need not be coplanar.
ThreeDimensionPolygon
This class stores a series of connected line segments with ordered vertices denoted by (x,y,z) triplets, where the first and last vertices shall be the same forming a polygon; the points shall be coplanar.
ThreeDimensionEllipse
An ellipse is defined by four (x,y,z) triplets; the first two triplets specify the endpoints of the major axis and the second two triplets specify the endpoints of the minor axis.
ThreeDimensionEllipsoid
A three-dimensional geometric surface whose plane sections are either ellipses or circles and contains three intersecting orthogonal axes, “a”, “b”, and “c”. The ellipsoid is defined by six (x,y,z) triplets; the first and second triplets specify the endpoints of axis “a”, the third and fourth triplets specify the endpoints of axis “b”, and the fifth and sixth triplets specify the endpoints of axis “c”.
ImagePlane
The class contains common imaging attributes in the DICOM Image Plane module. DICOM modalities that share the same module are CT, MR, RT, and PET.
GeneralImage
General Image specifies the Attributes that identify and describe an image within a particular series.
Classes Derived from Annotation Statement that are Common to Both ImageAnnotation and AnnotationOfAnnotation
CalculationEntityReferencesCalculationEntityStatement
A calculation result can reference another calculation result without using its referenced calculation outcome.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create a calculation result to store the left ventricular measurement.
- Create a calculation result to store the right ventricular measurement.
- Create CalculationEntityReferencesCalculationEntityStatement. It links left and right ventricular measurements.
CalculationEntityUsesCalculationEntityStatement
A calculation result can use another calculation result for its own computation purposes.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create a markup, which is a region of interest of type polygon.
- Create a calculation result to store the mean value.
- Create a calculation result to store the standard deviation (SD) result. Note that the mean value is used to calculate SD.
- Create CalculationEntityUsesCalculationEntityStatement. It uses SD calculation result as a subject and mean calculation result as an object of the statement.
ImagingObservationEntityHasCalculationEntityStatement
An image observation can have a calculation result associated with it.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create a makeup of type line measurement. The line measurement has a length as a result.
- Create a calculation result to store the length of the mass.
- Create ImagingObservationEntityHasCalculationEntityStatement to link between the imaging observation (subject) and calculation results (object).
ImagingObservationEntityIsFoundInImagingPhysicalEntityStatement
An image observation can be found in an imaging physical entity.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series and image instances.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create ImagingObservationEntityIsFoundInImagingPhysicalEntityStatement to link the imaging observation (subject) and imaging physical entity (object).
ImagingPhysicalEntityHasCalculationEntityStatement
An imaging physical entity can have a calculation result.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create an imaging physical entity containing liver, RID58, RadLex.
- Create a calculation result to store the size of the liver.
- Create ImagingPhysicalEntityHasCalculationEntityStatement to link the imaging physical entity (subject) with the calculation result (object).
ImagingPhysicalEntityHasImagingObservationEntityStatement
An image physical entity can have an imaging observation.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series and image instances.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create ImagingPhysicalEntityHasImagingObservationEntityStatement to link imaging physical entity (subject) with imaging observation (object).
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AnnotationEntityHasPerformedTaskContextEntityStatement
The class is used to record an activity or a performed task used to create an AIM instance. The AIM instance may contain zero or more performed tasks. Either the ImageAnnotation or AnnotationOfAnnotation class can be a subject of this statement.
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- Create ImageAnnotation.
- Create GeometricShapeEntity and record user makeup.
- Create TaskContextEntity and fill in the required information; e.g., task name and subtask. The task information must be related to markup activity.
- Create AnnotationEntityHasPerformedTaskContextStatement AnnotationEntityHasPerformedTaskContextEntityStatement to link ImageAnnotation (subject) with TaskContextEntity (object).
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AnnotationEntityHasPlannedTaskContextEntityStatement
The class is used to record a planned activity or task. The task is used to inform users or computer programs of what activity needs to be performed in order to create an AIM instance. The instance may be created from one or more planned tasks. Either the ImageAnnotation or AnnotationOfAnnotation class can be a subject of this statement.
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- Create ImageAnnotation.
- Create TaskContextEntityand fill in the required information; e.g., task name and subtask. Both subtasks below have the same task information; e.g., search for a lesion in an organ.
- Identify an imaging observation found on an image.
- Identify an anatomic entity location associated with the imaging observation.
- Create AnnotationEntityHasPerformedTaskContextStatement AnnotationEntityHasPerformedTaskContextEntityStatement to link ImageAnnotation (subject) with TaskContextEntity (object).
Classes Derived from AnnotationOfAnnotationStatement
AnnotationOfAnnotationHasAnnotationOfAnnotationStatement
An instance of AnnotationOfAnnotation has another instance of AnnotationOfAnnotation. An AnnotationOfAnnotation may be used to compare, evaluate or reference one or more instances of AnnotationOfAnnotation and/or ImageAnnotation.
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- Create a new annotation-of-annotation instance.
- Extract calculation result from annotation-of-annotation and other information to display to the user.
- Create AnnotationOfAnnotationHasAnnotationOfAnnotationStatement to link the newly created annotation-of-annotation first (subject) with the existing annotation-of-annotation (object).
- Compare the results of the existing annotation-of-annotation with the user’s own measurement and evaluation.
- Create and store the calculation entity after comparing the difference between the two sizes from existing annotation-of-annotation and new measurements.
- Create an inference entity to store the result, such as smaller or larger to the question: "Is the size getting larger or smaller?"
- Create AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with the calculation entity (object).
AnnotationOfAnnotationHasAnnotationRoleEntityStatement
A given instance of type AnnotationOfAnnotation can have an assigned role. Examples of roles can be baseline, follow-up, referenced case, etc. They are captured in the model as coded terms in the AnnotationRoleEntity class. Some of these roles have been defined in the DICOM standard part 16, Content Mapping Resource. For example:
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- Create an annotation-of-annotation instance.
- Create an annotation role entity containing Baseline Category, 112016, DCM.
- The annotation-of-annotation has a statement referencing image annotations with the non-target lesion.
- Create AnnotationOfAnnotationHasAnnotationRoleEntityStatement to link the annotation-of-annotation (subject) to the annotation role entity (object).
AnnotationOfAnnotationHasCalculationEntityStatement
An instance of AnnotationOfAnnotation can have one or more calculation results. The instance can reference one calculation at a time in a statement. For example, if there are three calculation results, there must be three AnnotationOfAnnotationHasCalculationEntityStatements.
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- Create an annotation-of-annotation instance.
- Create three AnnotationOfAnnotationHasImageAnnotationStatements linking annotation-of-annotation (subjects) to image annotations (objects).
- Extract the mass size from each image annotation and calculate an average.
- Create CalculationEntity and store the average result calculation and other required information.
- Create AnnotationOfAnnotationHasCalculationEntityStatement to link the annotation-of-annotation (subject) to the calculation entity (object).
AnnotationOfAnnotationHasImageAnnotationStatement
An instance of AnnotationOfAnnotation can reference existing image annotations. Results from image annotations can be used for further analysis, computation, comparison, reference, etc.
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- Create an annotation-of-annotation instance.
- Create three AnnotationOfAnnotationHasImageAnnotationStatements to link the annotation-of-annotation (subject) with each instance of image annotation (object).
- The adjudicator may want to create additional imaging physical entity statements and imaging observation entity statements, etc.
AnnotationOfAnnotationHasImagingObservationEntityStatement
An instance of AnnotationOfAnnotation can have one or more imaging observations associated with the instance. AnnotationOfAnnotationHasImagingObservationEntityStatement expresses a relationship between the instance of AnnotationOfAnnotation and an imaging observation.
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- Create an annotation-of-annotation instance.
- Create three AnnotationOfAnnotationHasImageAnnotationStatements linking annotation-of-annotation (subject) to image annotations (objects).
- Create an ImagingObservationEntity and store the related question, the imaging observation result, and optional information. See ImagingObservationEntity.
- Create an AnnotationOfAnnotationHasImagingObservationEntityStatement to link annotation-of-annotation (subject) to the imaging observation entity (object).
AnnotationOfAnnotationHasImagingPhysicalEntityStatement
An instance of AnnotationOfAnnotation can reference an imaging physical entity, an anatomical part, or a physical object that can be identified on an image.
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- Create an annotation-of-annotation instance.
- Create three AnnotationOfAnnotationHasImageAnnotationStatements linking annotation-of-annotation (subject) to image annotations (objects).
- Create ImagingPhysicalEntity and store the related question, the imaging physical entity result, and optional information. See ImagingPhysicalEntity.
- Create an AnnotationOfAnnotationHasImagingPhysicalEntityStatement to link the annotation-of-annotation (subject) to the imaging physical entity (object).
AnnotationOfAnnotationHasInferenceEntityStatement
An instance of AnnotationOfAnnotation can have a conclusion derived by interpreting images and/or other supplemental information related to the images. The conclusion is stored in InferenceEntity.
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- Create an annotation-of-annotation instance.
- Create three AnnotationOfAnnotationHasImageAnnotationStatements linking annotation-of-annotation (subject) to image annotations (object).
- Create an InferenceEntity and store the related question and medical conclusion. See InferenceEntity.
- Create AnnotationOfAnnotationHasInferenceEntityStatement to link the annotation-of-annotation (subject) to the inference entity (object).
AnnotationOfAnnotationIsComparedWithAnnotationOfAnnotationStatement
An instance of AnnotationOfAnnotation can be compared to another instance of AnnotationOfAnnotation. AIM users can further create CalculationEntityIsComparedWithCalculationEntityStatement to compare a calculation result from the subject AnnotationOfAnnotation instance with a calculation result from the object AnnotationOfAnnotation.
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- Create an annotation-of-annotation instance.
- Create two AnnotationOfAnnotationHasAnnotationOfAnnotationStatements linking a newly created annotation-of-annotation (subject) to the two existing annotation-of-annotations (objects).
- Create an AnnotationOfAnnotationIsComparedWithAnnotationOfAnnotationStatement to link baseline (subject) and follow-up (object) instances.
- Extract a calculation result from the baseline and the first follow-up annotation-of-annotation instances.
- Compare results.
- Create and store the calculation entity if comparing the difference between two sizes.
- Create an inference entity to store the result, such as smaller or larger, to the question "Is the size getting larger or smaller?"
- Create an AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with the calculation entity (object).
- Create an AnnotationOfAnnotationHasInferenceEntityStatement to associate the annotation-of-annotation (subject) with an inference entity (object).
AnnotationOfAnnotationIsComparedWithImageAnnotationStatement
An instance of AnnotationOfAnnotation can be compared with an instance of ImageAnnotation. AIM users can further create a CalculationEntityIsComparedWithCalculationEntityStatement to compare a calculation result from the subject AnnotationOfAnnotation instance with a calculation result from the object ImageAnnotation.
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- Create an annotation-of-annotation instance.
- Create an AnnotationOfAnnotationHasAnnotationOfAnnotationStatement linking the annotation-of-annotation (subject) to the baseline annotation-of-annotation (object).
- Create an AnnotationOfAnnotationHasImageAnnotationStatement linking the annotation-of-annotation (subject) to the first follow-up image annotation (object).
- Create AnnotationOfAnnotationIsComparedWithImageAnnotationStatement to link the baseline annotation-of-annotation (subject) with the follow-up image annotation (object).
- Extract a calculation result from the baseline annotation-of-annotation and first follow-up image annotation.
- Compare results.
- Create and store the calculation entity if comparing the difference between two sizes.
- Create an inference entity to store the result, such as smaller or larger,to the question "Is the size getting larger or smaller?"
- Create an AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with a calculation entity (object).
- Create an AnnotationOfAnnotationHasInferenceEntityStatement to associate the annotation-of-annotation (subject) with inference entity (object).
CalculationEntityIsComparedWithCalculationEntityStatement
When an AIM user wants to compare two calculation results, the user can use CalculationEntityIsComparedWithCalculationEntityStatement to identify a subject and object of calculation results.
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- Create an annotation-of-annotation instance.
- Create AnnotationOfAnnotationHasAnnotationOfAnnotationStatement linking the annotation-of-annotation (subject) to the baseline annotation-of-annotation (object).
- Create an AnnotationOfAnnotationHasImageAnnotationStatement linking the annotation-of-annotation to the first follow-up image annotation (object).
- Create an AnnotationOfAnnotationIsComparedWithImageAnnotationStatement to link the baseline annotation-of-annotation (subject) with the follow-up image annotation (object).
- Create CalculationEntityIsComparedWithCalculationEntityStatement to link the calculation from the baseline annotation-of-annotation (subject) with the calculation from the image annotation (object).
- Extract a calculation result from the baseline annotation-of-annotation and the first follow-up image annotation.
- Compare the results.
- Create and store the calculation entity if comparing the difference between two sizes.
- Create an inference entity to store the result, such as smaller or larger, to the question "Is the size getting larger or smaller?"
- Create an AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with a calculation entity (object).
- Create an AnnotationOfAnnotationHasInferenceEntityStatement to associate the annotation-of-annotation (subject) with an inference entity (object).
ImageAnnotationHasAnnotationRoleEntityStatement
This class is used to assign an annotation role to an image annotation. For example, an image annotation can be a baseline in one study but a follow-up in another study.
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- Create an annotation-of-annotation instance.
- Create an annotation role entity containing Baseline Category, 112016, DCM.
- Create an AnnotationOfAnnotationHasImageAnnotationStatement to link an annotation-of-annotation (subject) with an image annotation (object).
- Create an ImageAnnotationHasAnnotationRoleEntityStatement to link the image annotation (subject) to the annotation role entity (object).
ImageAnnotationIsComparedWithImageAnnotationStatement
An instance of ImageAnnotation is compared with another instance of ImageAnnotation. AIM users can further create CalculationEntityIsComparedWithCalculationEntityStatement to compare a calculation result from the subject ImageAnnotation instance with a calculation result from the object ImageAnnotation.
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- Create an annotation-of-annotation instance.
- Create two AnnotationOfAnnotationHasImageAnnotationStatement annotation-of-annotation statements to link the annotation-of-annotation (subject) to each image annotation instance (object).
- Create an ImageAnnotationIsComparedWithImageAnnotationStatement to link baseline (subject) and follow-up (object) instances.
- Extract calculation results from the baseline and the first follow-up image annotation instances.
- Compare the results.
- Create and store the calculation entity if comparing the difference between two sizes.
- Create an inference entity to store the result, such as smaller or larger, to the question "Is the size getting larger or smaller?", PRV-SIZE01 and Private.
- Create an AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with a calculation entity (object).
- Create an AnnotationOfAnnotationHasInferenceEntityStatement to associate the annotation-of-annotation (subject) with an inference entity (object).
ImageAnnotationIsComparedWithAnnotationOfAnnotationStatement
An instance of ImageAnnotation is compared with another instance of AnnotationOfAnnotation. AIM users can further create CalculationEntityIsComparedWithCalculationEntityStatement to compare a calculation result from the subject AnnotationOfAnnotation instance with a calculation result from the object ImageAnnotation.
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- Create an annotation-of-annotation instance.
- Create an AnnotationOfAnnotationHasAnnotationOfAnnotationStatement to link the annotation-of-annotation (subject) with the referenced annotation-of-annotation (object).
- Create an AnnotationOfAnnotationHasImageAnnotationStatement to link the annotation-of-annotation (subject) with the instance of image annotation (object).
- Create an ImageAnnotationIsComparedWithAnnotationOfAnnotationStatement to link the image annotation (subject) with the referenced annotation-of-annotation (object).
- Extract the calculation results from annotation-of-annotation and image annotation.
- Compare results.
- Create and store the calculation entity after comparing the difference between the two sizes.
- Create an inference entity to store the result, such as smaller or larger, to the question "Is the size getting larger or smaller?"
- Create an AnnotationOfAnnotationHasCalculationEntityStatement to associate the annotation-of-annotation (subject) with calculation entity (object).
- Create an AnnotationOfAnnotationHasInferenceEntityStatement to associate the annotation-of-annotation (subject) with inference entity (object).
Classes derived from ImageAnnotationStatement
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DicomImageReferenceEntityHasCalculationEntityStatement
A DICOM image can have a calculation associated with the image.
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- Create an image annotation instance.
- Create DICOMImageReferenceEntity DicomImageReferenceEntity containing an image with a mass.
- Create ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement to link the image annotation (subject) to the DICOM image reference entity (object).
- The user creates the ROI of the mass.
- Compute area of the mass.
- Create CalculationEntity and store the ROI result.
- Create DICOMImageReferenceEntityHasCalculationEntityStatement DicomImageReferenceEntityHasCalculationEntityStatement to link the DICOM image (subject) with the calculation entity (object).
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DicomImageReferenceEntityHasImagingObservationEntityStatement
A DICOM image, captured in DICOMImageReferenceEntity DicomImageReferenceEntity, can be associated with an imaging observation, captured in ImagingObservationEntity, to describe an observation on the image.
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- Create an image annotation instance.
- Create DICOMImageReferenceEntity DicomImageReferenceEntity containing an image with a mass.
- Create an ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement to link the image annotation (subject) to the DICOM image reference entity (object).
- The user creates ROI of the mass.
- The user provides an imaging observation with the values of mass, RID3874, RadLex.
- Create ImagingObservationEntity and store the value above.
- Create DICOMImageReferenceEntityHasImagingObservationEntityStatement DicomImageReferenceEntityHasImagingObservationEntityStatement to link the DICOM image (subject) with the imaging observation entity (object).
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DicomImageReferenceEntityHasImagingPhysicalEntity
A DICOM image, captured in DICOMImageReferenceEntity DicomImageReferenceEntity, can associate with an image physical entity, captured in ImagingPhysicalEntity, to describe an observation on the image.
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- Create an image annotation instance.
- Create DICOMImageReferenceEntity DicomImageReferenceEntity containing an image with a mass.
- Create ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement to link the image annotation (subject) to the DICOM image reference entity (object).
- The user creates the ROI of the mass.
- The user provides an imaging physical entity with the values of left upper lobe, RID1327, RadLex.
- Create ImagingPhysicalEntity and store the value above.
- Create DICOMImageReferenceEntityHasImagingPhysicalEntity DicomImageReferenceEntityHasImagingPhysicalEntity to link DICOM image (subject) with the imaging physical entity (object).
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DicomSegmentationEntityHasImagingObservationEntityStatement
A DICOM segmentation object can have an imaging observation to further describe the segmentation object.
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- Create an image annotation instance.
- Create DICOMImageReferenceEntity DicomImageReferenceEntity containing images with a mass.
- Create ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement to link the image annotation (subject) to the DICOM image reference entity (object).
- The user designates the ROI of the mass.
- The system creates a DICOM segmentation object.
- Create DICOMSegmentationEntity DicomSegmentationEntity with the required information from step 5.
- The user provides an imaging observation with values of mass, RID3874, RadLex.
- Create ImagingObservationEntity and store the value above.
- Create DICOMSegmentationEntityHasImagingObservationEntityStatement DicomSegmentationEntityHasImagingObservationEntityStatement to link DICOM segmentation entity (subject) with the imaging observation entity (object).
ImageAnnotationHasCalculationEntityStatement
An image annotation can have a calculation result associated with it.
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- Create an image annotation instance.
- Create a markup to measure the size of a mass.
- Extract the mass size.
- Create CalculationEntity and store the result and other required information from step 3.
- Create ImageAnnotationHasCalculationEntityStatement to link the image annotation (subject) to the calculation entity (object).
ImageAnnotationHasChildImageAnnotationStatement
An image annotation can have a child image annotation. This represents a hierarchical structure between images. A child image implicitly has a parent image. A use case of this type of statement is a diagnostic mammogram image that has another magnification image associated with the diagnostic image. Another use case is a whole slide image with a 10X magnification factor that may have a section of the image magnified and stored as a separate image. Both images can have a parent-child relationship.
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A user wants to link a mammography image with a corresponding magnification image.
Assumption:
- There is a DICOMImageReferenceEntity DicomImageReferenceEntity containing the original image.
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- Create an image annotation instance.
- User views a left mediolateral oblique (MLO)
- User creates a magnification view of the ROI and save it as a DICOM secondary captured image.
- Create DICOMImageReferenceEntity DicomImageReferenceEntity containing the secondary captured image.
- Create ImageAnnotationHasChildImageAnnotationStatement to link the image annotation (subject) to an instance of DICOMImageReferenceEntity DicomImageReferenceEntity containing secondary captured image (object).
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ImageAnnotationHasDicomImageReferenceEntityStatement
An instance of image annotation can have DICOM images of the same series.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement to link image annotation (subject) and DICOM image reference (object).
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ImageAnnotationHasDicomSegmentationEntityStatement
An image annotation can have one or more DICOM segmentation objects. An ImageAnnotationHasDICOMSegmentationEntityStatement ImageAnnotationHasDicomSegmentationEntityStatement statement represents a direct relationship between an image annotation and a DICOM segmentation entity. If the image annotation has three DICOM segmentation entities, there needs to be three ImageAnnotationHasDICOMSegmentationEntityStatements ImageAnnotationHasDicomSegmentationEntityStatements.
A use case:
A user found two nodules in a CT axial series. The user used a workstation to create two DICOM segmentation objects. The user annotated and stored the findings in AIM format with segmentation information.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- An image annotation has the set of CT images in the series. We need to create a statement that associates image annotation with DICOM images.
** Use ImageAnnotationHasDICOMImageReferenceEntityStatement ImageAnnotationHasDicomImageReferenceEntityStatement
** The statement has the image annotation instance as subject and DICOM image reference instance as object.
- Create two DICOM segmentation entity instances. Each instance references DICOM segmentation object from step 2.
- Create two statements of type ImageAnnotationHasDICOMSegmentationEntityStatement ImageAnnotationHasDicomSegmentationEntityStatement. Each statement has the same image annotation (subject) but different DICOM segmentation entity (object).
ImageAnnotationHasImagingObservationEntityStatement
An image annotation can have an imaging observation associated with it.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create ImageAnnotationHasImagingObservationEntityStatement to link the imaging annotation (subject) with imaging observation (object).
ImageAnnotationHasImagingPhysicalEntityStatement
An image annotation can have an imaging physical entity associated with it.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create ImageAnnotationHasImagingPhysicalEntityStatement to link the imaging annotation (subject) and imaging physical entity (object).
ImageAnnotationHasInferenceEntityStatement
An image annotation can have a conclusion derived by interpreting images and/or other supplemental information related to the images.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create InferenceEntity and store the related question and medical conclusion. See InferenceEntity.
- Create ImageAnnotationHasInferenceEntityStatement to link an image annotation (subject) to the inference entity (object).
ImageAnnotationHasTextAnnotationEntityStatement
An image annotation can have a text annotation associated with it.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create a text markup on a mass.
- Create TextAnnotationEntity to store information in step 3.
- Create ImageAnnotationHasTextAnnotationEntityStatement to link the image annotation (subject) with the text annotation entity (object).
ImageAnnotationHasThreeDimensionGeometricShapeEntityStatement
One or more three-dimensional graphic drawings may be associated with an instance of an image annotation. ImageAnnotationHasThreeDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of image annotation and a drawing. If you have two drawings on an image, you will need to create two statements.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create a three-dimensional polyline markup on a mass.
- Create ThreeDimensionPolyline to store information in step 3.
- Create ImageAnnotationHasThreeDimensionGeometricShapeEntityStatement to link the image annotation (subject) with the ThreeDimensionPolyline entity (object).
ImageAnnotationHasTwoDimensionGeometricShapeEntityStatement
An instance of image annotation may have one or more two-dimensional graphical drawings associate with it. ImageAnnotationHasTwoDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of image annotation and a drawing. If you have two drawings on an image, create two statements.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create a two-dimension polyline markup on a mass.
- Create TwoDimensionPolyline to store information in step 3.
- Create ImageAnnotationHasTwoDimensionGeometricShapeEntityStatement to link the image annotation (subject) with the TwoDimensionPolyline entity (object).
ImageAnnotationHasUriImageReferenceEntityStatement
An image annotation can have a URI reference that directs to the actual storage location of the image used in the image annotation.
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3. Create ImageAnnotationHasUriImageReferenceEntityStatements to link the image annotation (subject) with each UriImageReferenceEntity (object).
ImagingObservationEntityIsIdentifiedByThreeDimensionGeometricShapeEntityStatement
An instance of imaging observation entity can be identified by one or more three-dimensional graphical drawings associate with it. ImageObservationEntityIsIdentifiedByThreeDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of imaging observation entity and a markup. If you have two markups on an image, create two statements.
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- Create an imaging observation entity instance.
- Create a DICOM image reference instance and its associated image study, image series and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create a three-dimensional polyline markup on a mass.
- Create ThreeDimensionPolyline to store information in step 3.
- Create ImagingObservationEntityIsIdentifiedByThreeDimensionGeometricShapeEntityStatement to link the imaging observation entity (subject) with the ThreeDimensionPolyline entity (object).
ImagingObservationEntityIsIdentifiedByTwoDimensionGeometricShapeEntityStatement
An instance of imaging observation entity can be identified one or more three-dimensional graphical drawings associated with it. ImageObservationEntityIsIdentifiedByThreeDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of an imaging observation entity and a markup. If you have two markups on an image, create two statements.
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- Create an imaging observation entity instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create a two-dimensional polyline markup on a mass.
- Create TwoDimensionPolyline to store information in step 3.
- Create ImagObservationIsIdentifiedByTwoDimensionGeometricShapeEntityStatement to link the imaging observation entity (subject) with the TwoDimensionPolyline entity (object).
ImagingObservationEntityIsIdentifiedByTextAnnotationEntityStatement
An imaging observation can be identified by a text annotation.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create a text markup on a mass.
- Create a text annotation entity based on information from step 4.
- Create an ImagingObservationEntityIsIdentifiedByTextAnnotationEntityStatement to link the imaging observation (subject) with the text annotation entity (object).
ImagingPhysicalEntityHasThreeDimensionGeometricShapeEntityStatement
An instance of imaging physical entity may have one or more three-dimensional drawings associate with it. ImagePhysicalEntityHasThreeDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of an imaging physical entity and a markup. If you have two markups on an image, you create two statements.
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- Create an imaging physical entity instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create a three-dimensional polyline markup on a mass.
- Create ThreeDimensionPolyline to store information in step 3.
- Create ImagingPhysicalEntityHasThreeDimensionGeometricShapeEntityStatement to link the imaging physical entity (subject) with the ThreeDimensionPolyline entity (object).
ImagingPhysicalEntityHasTwoDimensionGeometricShapeEntityStatement
An instance of imaging physical entity may have one or more two-dimensional drawings associate with it. ImagePhysicalEntityHasTwoDimensionGeometricShapeEntityStatement represents a direct relationship between an instance of an imaging physical entity and a markup. If you have two markups on an image, you create two statements.
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- Create an imaging physical entity instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create a two-dimensional polyline markup on a mass.
- Create a TwoDimensionPolyline to store information in step 3.
- Create ImagingPhysicalEntityHasTwoDimensionGeometricShapeEntityStatement to link the imaging observation entity (subject) with the TwoDimensionPolyline entity (object).
ImagingPhysicalEntityHasTextAnnotationEntityStatement
An image physical entity can have a text annotation.
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- Create an image annotation instance.
- Create a DICOM image reference instance and its associated image study, image series, and image instances using DICOMImageReferenceEntity DicomImageReferenceEntity.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create a text markup on a mass.
- Create TextAnnotationEntity to store information from step 4.
- Create ImagingPhysicalEntityHasTextAnnotationEntityStatement to link the imaging physical entity (subject) with the text annotation entity (object).
ThreeDimensionGeometricShapeEntityIsComprisedOfThreeDimensionGeometricShapeEntityStatement
Two or more drawings captured as ThreeDimensionGeometricShapeEntity instances have a direct relationship to other drawings when these drawings are placed on the same physical entity or thing.
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- Create an image annotation instance.
- Create a markup of the first area of a mass.
- Create ThreeDimensionGeometricShapeEntity to store information in step 2.
- Calculate area from step 3 (optional).
- Create a markup of the second area of the same mass.
- Create a ThreeDimensionGeometricShapeEntity to store information in step 5.
- Calculate the area from step 5.
- Create ThreeDimensionGeometricShapeEntityIsComprisedOfThreeDimensionGeometricShapeEntityStatement to link the first markup (subject) to the second markup (object).
ThreeDimensionGeometricShapeEntityExcludesThreeDimensionGeometricShapeEntityStatement
Two or more graphical drawings captured as ThreeDimensionGeometricShapeEntity instances have a direct relationship with other drawings when these drawings are placed on the same physical entity or thing.
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- Create an image annotation instance.
- Create a markup of the first area of a mass.
- Create ThreeDimensionGeometricShapeEntity to store information from step 2.
- Calculate the area from step 3 (optional).
- Create a markup of the second area of the same mass.
- Create ThreeDimensionGeometricShapeEntity to store information in step 5.
- Calculate the area from step 5.
- Create ThreeDimensionGeometricShapeEntityExcludesThreeDimensionGeometricShapeEntityStatement to link the first markup (subject) to the second markup (object).
TwoDimensionGeometricShapeEntityIsComprisedOfTwoDimensionGeometricShapeEntityStatement
Two or more graphical drawings captured as TwoDimensionGeometricShapeEntity instances have a direct relationship with other graphical drawings when these drawings are placed on the same physical entity or thing.
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- Create an image annotation instance.
- Create a markup of the first area of a mass.
- Create TwoDimensionGeometricShapeEntity to store information from step 2.
- Calculate the area from step 3 (optional).
- Create a markup of the second area of the same mass.
- Create TwoDimensionGeometricShapeEntity to store information in step 5.
- Calculate the area from step 5.
- Create TwoDimensionGeometricShapeEntityIsComprisedOfTwoDimensionGeometricShapeEntityStatement to link the first markup (subject) to the second markup (object).
TwoDimensionGeometricShapeEntityExcludesTwoDimensionGeometricShapeEntityStatement
Two or more graphical drawings captured as TwoDimensionGeometricShapeEntity instances have a direct relationship with other drawings when these drawings are placed on the same physical entity or thing.
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- Create an image annotation instance.
- Create a markup of the first area of a mass.
- Create TwoDimensionGeometricShapeEntity to store information from step 2.
- Calculate the area from step 3 (optional).
- Create a markup of the second area of the same mass.
- Create TwoDimensionGeometricShapeEntity to store information from step 5.
- Calculate the area from step 5.
- Create TwoDimensionGeometricShapeEntityExcludesTwoDimensionGeometricShapeEntityStatement to link the first markup (subject) to the second markup (object).
UriImageReferenceEntityHasImagingObservationEntityStatement
A URI image reference can have an imaging observation. It is used in conjunction with UriImageReferenceHasImagingPhysicalEntityStatement.
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- Create an image annotation instance.
- Create UriImageReferenceEntity instance with the image location.
- Create an imaging observation containing mass, RID3874, RadLex.
- Create UriImageReferenceEntityHasImagingObservationEntityStatement to link the UriImageReferenceEntity (subject) with imaging observation (object).
UriImageReferenceEntityHasImagingPhysicalEntityStatement
An URI image reference can have an imaging physical entity associated with it.
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- Create an image annotation instance.
- Create a UriImageReferenceEntity instance with the image location.
- Create an imaging physical entity containing left upper lobe, RID1327, RadLex.
- Create UriImageReferenceEntityHasImagingPhysicalEntityStatement to link the UriImageReferenceEntity (subject) with the imaging physical entity (object).
UriImageReferenceEntityHasCalculationEntityStatement
A URI image reference can have a calculation associated with it.
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- Create an image annotation instance.
- Create a UriImageReferenceEntity instance with the image location.
- Create a markup to measure the size of a mass.
- Create CalculationEntity and store the size of the mass.
- Create UriImageReferenceEntityHasCalculationEntityStatement to link the UriImageReferenceEntity (subject) with the calculation entity (object).
Renamed Classes
AnatomicEntity was renamed as ImagingPhysicalEntity
ImagingPhysicalEntity is an entity or object that can be identified on an image. For medical imaging, it may represent anatomical location of an organ or body structure. Terms from controlled vocabulary such as RadLex, SNOMED CT, DCIOM, etc. are used to record the type of entity.
AnatomicEntityCharacteristic was renamed as ImagingPhysicalEntityCharacteristic
An ImagingPhysicalEntityCharacteristic is a characteristic of imaging physical entities. It is in contradistinction to ImagingObservationCharacteristic. In a medical area, for example, "dilated" might be an imaging physical entity characteristic of the "colon" imaging physical entity.
ImagingObservation was renamed ImagingObservationEntity
An ImagingObservationEntity is the description of things that are seen in an image. "Mass", "Pleural Effusion", "Foreign Body", and "Artifact", are all examples of imaging observation entity.
Inference was renamed InferenceEntity
A conclusion derived by interpreting images and/or other supplemental information related to the images such as medical history, geographic history, etc.
AnnotationRole was renamed AnnotationRoleEntity
AnnotationRoleEntity describes the role of referenced annotation.
ImageReference was renamed ImageReferenceEntity
ImageReference is an abstract class that references the image which is being annotated.
WebImageReference was renamed UriImageReferenceEntity
UriImageReferenceEntity is a source image for the annotation. It can be accessed via Intranet, Internet, local computer and/or file sharing systems.
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DicomImageReference was renamed
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DicomImageReferenceEntity
DICOMImageReferenceEntity DicomImageReferenceEntity is a source image for the annotation.
Annotation was renamed AnnotationEntity
AnnotationEntity captures information that can be described, measured, calculated, and drawn on images either by a human or machine observer.
TextAnnotation was renamed TextAnnotationEntity
TextAnnotationEntity represents the text and the markup of text intended to be rendered on the image.
GeometricShape was renamed GeometricShapeEntity
GeometricShapeEntity is the shape of a region of interest (ROI).
Segmentation was renamed
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DicomSegmentation
DICOMSegmentation DicomSegmentation is a multi-frame image representing a classification of pixels in one or more referenced images. Segmentations are either binary or fractional. See DICOM part 3 Segmentation IOD for more information.
PresentationState was renamed
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ReferencedDicomObject
ReferencedDICOMObject ReferencedDicomObject is a collection of related DICOM objects created from the image(s), e.g. presentation state, SR document, radiotherapy objects, waveform, encapsulated document, etc.
The old association between PresentationState and DICOMImageReferenceEntity DicomImageReferenceEntity was removed. It was replaced by an association between ReferencedDICOMObject ReferencedDicomObject and ImageStudy.
Deleted Classes
Four classes were deleted since AIM statements and new classes cover the concepts represented by the deleted classes.
ReferencedGeometricShape is represented by ImagingObservationEntityIsIdentifiedByGeometricShapeEntityStatement.
AimStatus is represented by AuditTrail.
ReferencedAnnotation is represented by AnnotationOfAnnotationHasAnnotationRoleEntityStatement and ImageAnnotationHasAnnotationRoleEntityStatement.
ReferencedCalculation is represented by CalculationEntityReferencesCalculationEntityStatement.
New Attributes
New attributes have been added to the following classes.
Inference
- questionTypeCode is used to collect coded entry data that describes the question being asked that is related to the typeCode attribute.
- isPresent, a Boolean value indicating whether or not an inference exists in the observed images.
- label, a human readable description of the inference.
- questionIndex is used to store an index value that identifies the order of the question in an AIM Template.
- comment is a free text about inference.
GeometricShapeEntity
- label is a human readable description of the geometric shape.
- description is a free text about the geometric shape, not intended for rendering.
- questionTypeCode is used to collect coded entry data that describes the question being asked that is related to the typeCode attribute.
- questionIndex is used to store an index value that identifies the order of the question in an AIM Template.
- interpolationMethod is used to create new data points from a discrete set of data points, such as linear, polynomial, spline and piecewise constant interpolation.
- comment is free text about a geometric shape entity.
ImageSeries
- modality is the equipment used to acquire images of subjects or things, such as human and animal bodies.
CalculationEntity
- questionTypeCode is used to collect coded entry data that describes the question being asked that is related to the typeCode attribute.
- imageIdentifierReference is a number that refers to an existing image identifier from ImageReference.
- questionIndex is used to store an index value that identifies the order of the question in an AIM Template.
ImageStudy
- procedureDescription is information about the procedure being performed on a subject.
Scale
- type represents different types of scales that are Nominal, Ordinal or Ratio.
AnnotationRole
- questionTypeCode is used to collect coded entry data that describes the question being asked that is related to the typeCode attribute.
ImageReference
- imageIdentifier is a unique number within an ImageAnnotation object that uniquely identifies this object.
ImagingObservation
- imageIdentifierReference is a number that refers to an existing image identifier from ImageReference.
- questionIndex is used to store an index value that identifies the order of the question in an AIM template.
Annotation
- templateUid is a UID that references to an AIM template used to capture semantic meaning of pixel data, markup and calculation.
CalculationResult
- dataType is coded entry data used to describe or capture a type of parameter. A coded data type can be a primitive programming data type such as integer, double, etc. as well as other data types such as URI.
Equipment
- deviceSerialNumber is manufacturer’s serial number of the equipment that produced the sources.
ImagingPhysicalEntity
- questionIndex is used to store an index value that identifies the order of the question in an AIM Template.
Quantile
- bins is a number representing the dividing ordered data into an equal-sized data subsets. For example, maxValue is 100. It's divided by four. Four is the value for the bins.
- selectedBin is an integer value of the selected bin.
- minValue is a minimum value of the lowest value in a range.
- maxValue is a maximum value of the largest value in a range.
CharacteristicQuantification
- comment is free text about characteristic quantification.
- valueLabel is a value that associates with the label.
- valueDescription is a human readable description.
ImagingPhysicalEntity
- comment is free text about imaging physical entity.
ImagingPhysicalEntityCharacteristic
- comment is free text about imaging physical entity characteristic.
Attribute Name Change
The typeCode attribute replaces a set of coded term attributes as a single attribute in a class. The replaced attributes include:
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