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Supplement 145 Whole Slide Imaging

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Title: Supplement 145 Whole Slide Imaging


1
Supplement 145 Whole Slide Imaging background
and design decisions
  • Harry Solomon GE Healthcare

2
DICOM Basics
3
DICOM Image Information Object Definition
DICOM Composite Information Model Hierarchy
Patient Information
Study Information
Series Information
Image (Instance) Information
Dwight Simon
4
Data Element Encoding
Attributes are the logical concepts associated
with an information entity Data elements are how
attributes are encoded in an information object
Data Set
order of transmission
Data Elem.
Data Elem.
Data Elem.
Data Elem.
Data Element
ValueRepresen-tation
Similar to TIFF
Value
Tag
Value Field
Length
optional field - dependent on
negotiated Transfer Syntax
0020000Dhex
UI
1.2.840.1.113709.9.0.0.5743.14575602.1
26hex
Study InstanceUnique Identifier(0020,000D)
Instance UID encoded as dotted decimal
5
Part of a DICOM object
(0008,0005) CS 30 ISO 2022 IR 13\ISO 2022 IR 87
(0008,0008) CS 22 ORIGINAL\PRIMARY\AXIAL
(0008,0016) UI 26 1.2.840.10008.5.1.4.1.1.2
(0008,0018) UI 58 1.2.392.200036.9116.2.6.1.48.1211393615.1211874194.564494
(0008,0020) DA 8 20080527
(0008,0021) DA 8 20080527
(0008,0022) DA 8 20080527
(0008,0023) DA 8 20080527
(0008,0030) TM 10 163836.000
(0008,0031) TM 10 164306.390
(0008,0032) TM 10 164039.850
(0008,0033) TM 10 164040.397
(0008,0050) SH 8 5162581
(0008,0060) CS 2 CT
(0008,0070) LO 8 TOSHIBA

(7FE0,0010) OW 524288 00 00 00 00 ff ff ff ff 00 0f 4c 4a 49 46 00 01...
Tags in increasing numeric order Value length
always an even number Attributes related to
modules and information model levels all jumbled
up
6
Attributes
  • Logical concepts in the description of an
    Information Entity
  • May have 0, 1 or many Values
  • 0 (empty) means the creating application doesnt
    know the value of the attribute, e.g. Accession
    Number (0008,0050)
  • Multi-value example Specific Character Set
    (0008,0005)
  • Value Multiplicity (VM) specified in Part 6
    (possibly further constrained in Part 3)
  • Attribute value will be a complex data structure
    for a Sequence attribute

7
Sequence Attributes and Items
  • Sequence attribute has a value of a structure
    of subsidiary attributes
  • Sequence Attribute name typically includes word
    Sequence
  • Subsidiary attributes specified in Part 3 with gt
    character
  • Each instantiated set of attributes is a Sequence
    Item
  • Number of allowed Items specified in Part 3
  • For editorial convenience the attributes of a
    Sequence are often documented in a separate Table
    as a Macro
  • Include x Macro Table m-n
  • Facilitates reuse of structure in other sequence
    attributes

8
Example Scheduled Protocol Code Sequence
attribute
9
Scheduled Protocol Code Sequence attribute
Scheduled Protocol Code Sequence (0040,0008)
gtCode Value (0008,0100)
gtCoding Scheme Version (0008,0103)
gtCoding Scheme Designator (0008,0102)
gtCode Meaning (0008,0104)
gtProtocol Context Sequence (0040,0440)
gtgtValue Type (0040,A040)
gtgtConcept Name Code Sequence (0040,A043)
gtgtgtCode Value (0008,0100)
gtgtgtCoding Scheme Designator (0008,0102)
gtgtgtCoding Scheme Version (0008,0103)
gtgtgtCode Meaning (0008,0104)
gtgtDateTime (0040,A120)
gtgtPerson Name (0040,A123)
gtgtText Value (0040,A160)
gtgtConcept Code Sequence (0040,A168)
gtgtgtCode Value (0008,0100)

gtgtContent Item Modifier Sequence (0040,0441)
gtgtgtValue Type (0040,A040)
gtgtgtConcept Name Code Sequence (0040,A043)
gtgtgtgtCode Value (0008,0100)
gtgtgtgtCoding Scheme Designator (0008,0102)

10
Sequence attribute encoding
  • Sequence Items are the values of Sequence
    attributes
  • Structure placed in the Data Element Value Field
  • Item structure is a nested data set of
    attributes
  • Attributes in each Item in tag order
  • Item wrapped using special data elements
    specified in Part 5
  • Sequence attributes and wrappers may have an
    undefined length flag
  • Length of Sequence or Item terminated by explicit
    Delimiter data elements

May be undefined length
Sequence Data Element
ValueRepresen-tation SQ
Value
Tag
Value Field
Length
Item Introducer
Attribute 1
Attribute 2
Item Delimiter
Item Introducer
Attribute 1
Attribute 2
Item Delimiter
Sequence Delimiter
Specifies length of Item, or may say undefined
length
Required if undefined length Item
Required if undefined length Sequence Attribute
11
Image Compression
  • Pixel data can be monochrome, color (RGB or
    YCbCr), or palette color (monochrome colorized
    through LUT)
  • No definitions yet for hyperspectral, but it has
    been discussed
  • Pixel data can be native DICOM (with color
    by-plane or by-pixel)
  • Pixel data can be compressed using standard
    compression schemes, and compressed stream put in
    pixel data element
  • JPEG, JPEG-LS, JPEG2000 (each lossy or lossless)
  • MPEG2
  • Run-Length Encoding (Packbits)
  • Private compression schemes can also be used

12
Compressed Image Encoding
  • Uses structure similar to Sequence attribute
  • Allows undefined length attribute eliminates
    232 byte limitation
  • 1st Item is Basic Offset Table - pointers to
    individual frames of a multi-frame image
    (optional)
  • JPEG and JPEG2000Part1 encode each frame of a
    multi-frame image in a separate Encapsulated
    Stream Fragment
  • JPEG2000Part2 (multicomponent) allows arbitrary
    mapping of frames to stream fragments to allow
    component collections (inter-frame compression)

May be undefined length
Pixel Data Element
ValueRepresen-tation OB
Tag
Value
Value Field
Length
(7FE0,0010)
Item Introducer
Basic Offset Table
Sequence Delimiter
Item Introducer
Encapsulated Stream Fragment 1
Item Introducer
Encapsulated Stream Fragment 2
Specifies length of Basic Offset Table
Specifies length of Stream Fragment
Required if undefined length Pixel Data
Attribute
13
Multiframe Images
14
Enhanced Multi-frame paradigm
  • Basic concept used for all new multiframe IODs
  • MR (Image and Spectroscopy), CT, XA, US, PET
  • Multi-frame object to support 1000 image studies
  • Dynamic image header supports functional or
    acquisition attributes changing during scan
  • Dimensions allow multiple views of data
  • File size flexibility through concatenations

15
Single-frame to MultiFrame
N Objects, N Headers
N Frames, One Header
16
Functional Groups and the Per-Frame Header
17
Functional Groups
  • Collection of set of closely related attributes
  • A mini Module
  • Structured as a sequence of (usually 1) item
    under a main Sequence attribute
  • Invoked as a Macro in either Shared Functional
    Groups Sequence or Per-Frame Functional Groups
    Sequence
  • Keeps items together in encoding under the main
    Sequence attribute

18
Dimensions properties that may change
echo
cardiac phase
b-value
orientation
time
position
volume
time
19
Multi-phase / Multi-slice
Phase (Time) Position Index
1
2
3
Slice Order for phase 1
Phase order for slice 2
Frame number 1-6
Frame number 7-12
Frame number 13-18
Image frames can be sorted/displayed independent
of encoded frame order
20
Concatenations
  • What is a concatenation?
  • set of image objects
  • in the same series
  • with the same dimension indexes
  • uniquely identified with a Concatenation UID
    (0020,9161)
  • contained image objects must have the same
    Instance Number
  • Why?
  • file system limits e.g., 600 MB CD-R
  • pseudo real-time transfer of a stream of images
  • workstation needs to post process images in near
    real time to figure out when the scan is to be
    terminated

21
Concatenations
An object may be split up into two or more SOP
Instances, using the same concatenation UID
22
Image Retrieval
23
DICOM Query/Retrieve
  • Allows a system to query another system for a
    list of available images (query)
  • Also allows a system to request another system to
    send images (retrieve)

24
Hierarchical Query
  • DICOM query is not a full SQL-type feature
  • Limited attributes, no Join capability
  • Directed toward production imaging department
    requirements
  • Hierarchical data structure
  • (Patient), Study, Series, Image levels
  • Patient attributes typically subsumed in Study
    level
  • Query at any level requires specification of
    unique entity at each higher level

25
Typical Hierarchical Query
26
Classical Hierarchical Retrieve
  • Retrieve can be at any hierarchical level
  • (Patient), Study, Series, Image
  • Retrieve at any level requires unique ID of
    entity at each higher level
  • Object transfer can be on separate Association
    (C-MOVE) or on same Association (C-GET)
  • C-MOVE object transfer can be directed to third
    party
  • Examples
  • Retrieve all objects under Study UID
    1.2.789.87.11
  • Retrieve all objects under Study UID
    1.2.789.87.11 / Series UID 1.2.405.31.1
  • Retrieve single object Study UID 1.2.789.87.11 /
    Series UID 1.2.405.31.1 / Instance UID
    1.2.405.31.1.99.1
  • Retrieved objects sent and confirmed as wholes

27
Interactive JPIP Retrieve
  • Image Store SCU and SCP can negotiate a JPEG 2000
    Interactive Protocol (JPIP) Transfer Syntax
  • Image header (i.e., entire object minus pixel
    data) transferred and confirmed as usual
  • Pixel data replaced by URL to JPIP service for
    this image
  • Limitations
  • Pixel data must be in JPEG 2000 format
  • Storage Commitment not allowed
  • Duration of availability of JPIP not specified or
    guaranteed
  • Capabilities
  • Retrieve subset of image (ROI)
  • Retrieve at a lower resolution (e.g., for quick
    navigation)

28
Frame-based retrieve
New in 2009Supplement 119
  • Retrieve subset of frames from a multi-frame
    image
  • Selected frames of a volumetric stack (ROI)
  • Decimated volume (e.g., every 10th slice)
  • Single dimension of a multi-dimensional image
  • Time snippet of motion image (video)
  • SCU SCP negotiate Instance Root Retrieve SOP
    Class
  • SCU specifies selected frames or time interval
  • SCP creates new multi-frame image with derivation
    attributes
  • Frame Derivation Module and Contributing
    Equipment Sequence
  • Correct subset of Functional Group Sequence Items

29
Vocabulary and Structured Reporting
30
Vocabulary-intensive messaging
  • Theres a lot of things we want to say about
    imaging that cannot be pre-defined in fixed DICOM
    attributes
  • E.g., specimen processing
  • How do we define message attributes to handle
    what we need to say?

31
Name-value pairs
lt BodyPartExamined ABDOMENPELVIS /gt
ltelgt ltname BodyPartExamined /gt ltvalue
ABDOMENPELVIS /gt lt/elgt
ltelgt ltname code00180015 systemDICOM
meaningBody Part Examined /gt ltvalue
codeR-FAB57 systemSNOMED meaningAbdomen and
pelvis /gt lt/elgt
Why would we want to do this?
32
External coded/concept terminologies
  • Flexibility and extensibility
  • Leverage externally defined/maintained concepts
  • Semantic rigor through referenced dictionary/
    ontology
  • General structure higher layer of abstraction
  • Allows generalized messaging applications
  • Shared vocabulary across disparate systems

33
SNOMED
  • Systematized Nomenclature of Medicine
  • Most comprehensive clinical healthcare
    terminology
  • 375,000 concepts 900,000 relationships between
    concepts
  • Multi-hierarchically organized
  • Primary external vocabulary system for DICOM
  • Anatomy
  • Procedures (including radiographic views and
    methods)
  • Clinical findings
  • Originally developed by the College of American
    Pathologists, now managed by an international
    consortium of governmental agencies (IHTSDO)

34
LOINC
  • Logical Observation Identifier Names and Codes
  • Standard coding system for laboratory and
    clinical observations
  • Hosted by Regenstrief Institute
  • Supported by National Library of Medicine
  • Particularly focused on names of laboratory and
    clinical tests
  • 50,000 codes over 275,000 relationships
  • Major external code system for DICOM and HL7

35
Code Sequences
DICOMPart 3
Triplet coding code value, scheme,
meaning (version seldom used)
36
Context Groups (Value Sets)
DICOMPart 3
DICOMPart 16
37
Content Items
  • Generic NameValue pair using external coding for
    Name concept
  • Encoded as Item in Sequence attributes
  • Acquisition Context Sequence (in image IODs)
  • Protocol Context Sequence (in Modality Worklist)
  • Content Sequence (in Structured Reporting IODs)
  • Specimen Preparation Step Sequence (in Specimen
    Module)

Person Name Value (0040,A123)
DateTime Value (0040,A120)
Referenced SOP Sequence(0008,1199)
Text Value (0040,A160)
UID Value (0040,A124)
SOP Class UID(0008,0050)
SOP Instance UID(0008,0055)
Content Item
Concept Name Sequence (0040,A043)
Value Type (0040,A040)
Concept Value Sequence (0040,A168)
Numeric Value (0040,A30A)
Measurement Units Sequence(0040,08EA)
Code(0008,0100)
Scheme(0008,0102)
Meaning(0008,0104)
Code(0008,0100)
Scheme(0008,0102)
Meaning(0008,0104)
Code(0008,0100)
Scheme(0008,0102)
Meaning(0008,0104)
38
Templates
  • Structure for Content Items - like Modules are a
    structure for Attributes
  • Specified in DICOM Part 16

Coding Scheme Code Value Code Meaning HL7 v3 ActClass equivalent
SRT P3-02000 Specimen collection SPECCOLLECT
SRT P3-05013 Specimen receiving CONTREG
SRT P3-4000A Sampling of tissue specimen PROC
SRT P3-00003 Staining SPCTRT
SRT P3-05000 Specimen processing SPCTRT
DCM 111729 Specimen storage STORE
39
Annotation and Segmentation
40
DICOM annotation principles
  • Annotations are conveyed in information objects
    separate from the original image
  • Annotations may be created at a time much later
    than the image acquisition, and in a completely
    different environment
  • Multiple annotation objects can reference the
    same image
  • Selection of an annotation object for display
    implicitly invokes display of the referenced image

41
Annotation types
  • Presentation States
  • Structured Reporting
  • Segmentation

42
Presentation State
  • Softcopy Presentation States define how
    referenced image(s) will be displayed
  • Transforms to device independent grayscale/color
    space (LUTs)
  • Selection of display area (ROI) of the image
  • Image rotate or flip
  • Graphical and textual annotations, overlays,
    shutters
  • Grayscale, color, and pseudo-color SPSs
  • Blending SPS overlays a pseudo-color image on a
    grayscale image
  • E.g., for PET/CT
  • Blending on grayscale originals (currently no
    standard for blending of color originals)

43
Structured Reporting
  • Presentation State annotations are for human
    reading, not interoperable for automated
    applications
  • No controlled and coded vocabulary, no structural
    semantics (relationships between annotations)
  • SR important for (semi-)automated imaging
    analysis and review processes

44
Key Image Note
  • SR-type object that provides a classification and
    a textual comment for a referenced object
  • Formally known as Key Object Selection, but
    commonly denoted Key Image Note after IHE use
    case and profile
  • Classifications typically identify intended
    subsequent use of referenced objects
  • For Referring Provider, For Research, For
    Report Attachment
  • Rejected for Quality Reasons, Signed Complete
    Study Content

45
Segmentation
  • Derived image object
  • Uses enhanced multi-frame mechanism
  • Multiple segments per object
  • Each segment linked to a categorization
  • Pixels show presence of category at pixel
    location
  • Binary (1-bit/pixel) or fractional (probability
    or occupancy)
  • Segmentation object is typically in same Frame of
    Reference as source image
  • Segments can be displayed as overlays on source
    image

46
Segmentation Example
47
Pathology in DICOM Specimen and Workflow
48
Whats NOT in Sup145
  • All the modules already standardized
  • Patient, Study, Series, Equipment, General Image
  • Multi-Frame Functional Groups and Dimensions
  • Sup122 Specimen Module
  • Explicit description of workflow
  • Use of Modality Worklist, Modality Performed
    Procedure Step, Image Availability Notification,
    etc.

49
Sup 122 Specimen Identification
  • Support for pathology lab workflow,
    specimen-based imaging
  • Gross specimens, blocks, vials, slides
  • Image-guided biopsy samples
  • Specimen Module at image level of hierarchy
  • Identification, processing history
  • May be used with current Visible Light image
    object definitions
  • Update to Modality Worklist to convey Specimen
    Module
  • Enables automated slide scanning devices to fully
    populate header
  • Update to Modality Performed Procedure Step to
    identify imaged specimen
  • Allows LIS/APLIS to track images for specimens

50
Specimen Imaging Information Model
Disambiguates specimen and container Container is
target of image Container may have more than one
specimen Specimens have a physical derivation
(preparation) from parent specimens When more
than one specimen in an imaged container, each
specimen is distinguished (e.g., by position or
color-coding)
Basic DICOM Information Model
51
Preparation Step
  • 0-n Preparation Steps per Specimen
  • Each Preparation Step described by 1-n structured
    Content Items (namevalue pairs)
  • Acquisition Context plus structuring into steps
  • DICOM Template 8001 Specimen Preparation

Coding Scheme Code Value Code Meaning HL7 v3 ActClass equivalent
SRT P3-02000 Specimen collection SPECCOLLECT
SRT P3-05013 Specimen receiving CONTREG
SRT P3-4000A Sampling of tissue specimen PROC
SRT P3-00003 Staining SPCTRT
SRT P3-05000 Specimen processing SPCTRT
DCM 111729 Specimen storage STORE
52
Preparation steps example
53
Managed Workflow Concepts (IHE)
ORDER A request for departmental service
REQUESTED PROCEDURE Unit of work resulting in
one Report with associated codified, billable
acts
  • PROCEDURE STEP The smallest unit of managed
    work in the workflowScheduled Procedure Step
    A unit of work to doPerformed Procedure Step
    A unit of work done

54
Simple Workflow
  • One Order One Procedure One Study One Report

Imaging Department
ORDER A request for DepartmentalService
Set of Codifiable, Billable, Acts
Report
Requested Procedure
Charles Parisot - IHE
55
Multiple Modality Steps
Imaging Department
ORDER A request for DepartmentalService
Set of Codifiable, Billable, Acts
Requested Procedure
56
Anatomic Pathology Imaging Workflow
Slide preparation
Workstation
Gross specimen accessioning
Whole Slide Scanner
Surgical or biopsy procedure
57
Sup145 Whole Slide Imaging Proposal
58
Sup145 multi-frame tiling concept
Use multi-frame image objects (not object per
tile)
Single frame image
Thumbnail Image
Multi-frame image (single object)
Intermediate Image Tiles
Multi-frame image (single object)may include
multipleZ-planes, color planes
Baseline Image Tiles
In 1 or more DICOM Series
59
Alternate approach (not in draft!)
Remove 64k2 image matrix restriction Can leverage
JPEG2000 Part2 multi-component compressionUse
JPEG Interactive Protocol capabilities
JPIP low-res view of baseline image
JPIP medium-res view of baseline image
Baseline Image
Multi-frame (Z-planes, colors) image (single
object)
60
Total Pixel Matrix
Total Pixel Matrix Origin
  • Total pixel matrix origin at top left hand corner
    of imaged volume
  • Frame (tile) rows and columns align with total
    pixel matrix rows and columns
  • Frames limited to 216 columns and rows
  • Total pixel matrix limited to 232 columns and
    rows

Columns ?
Rows
?
Frame Pixel Matrix Origin
61
Z-planes
  • Z-planes are identified as nominal physical
    height of image focal plane above reference
    surface (µm)
  • Z-plane information is used for relative spatial
    positioning of image planes, and nominal
    inter-plane distance
  • An image plane may track variable specimen
    thickness / surface contour, but only one Z-value
    used

? Z
Cover slip
? Z
Specimen
Slide substrate (glass)
62
Z planes track curved surface
  • Z plane 1, Z plane 2, Z plane 3, Z plane 4

Viktor Sebestyén Varga 3DHISTECH Ltd.
63
Organization of tiles into objects
  • All valid

Single Multi-frame image
Multi-frame image per Z-plane
Multi-frame image per spatial region
64
Sparse tiling
Multi-frame med-res image
Multi-frame hi-res image
  • Only selected tiles encoded
  • Full image matrix might be encoded at lower
    resolution

65
Localizer Image Flavor
  • Thumbnail image (single frame) plus
    multi-resolution navigation links
  • Each tile of other resolution images has its
    corresponding area identified in thumbnail
  • Full description of target tiles
  • Object UID and frame
  • Resolution
  • Z-plane
  • Multiple target frames can overlap
  • Different resolution, Z-plane, color, etc.
  • Presentation and any interactive behavior is not
    defined in standard

66
Label Image Flavor
  • Purpose is to capture slide label
  • Any specimen captured is irrelevant
  • Image IOD includes Slide Label Module
  • Barcode (if deciphered)
  • Label Text (if deciphered)
  • Burned In Annotation (0028,0301) might be NO if
    the label includes only a specimen identifier and
    not patient identifying data

67
C.8.12.2 Slide Coordinates
  • Used in VL Slide-Coordinates Microscopic Image
    IOD
  • Single frame image, typically from
    microscope-mounted camera
  • Used to localize center of VL SCM Image
  • DICOM Frame of Reference associated with slide
    corner origin
  • Reproducibility not guaranteed across different
    mountings of slide, even on same equipment

Label
? Y
Specimen
VL SCM Image area
X ?
Slide Coordinates Origin
Cover slip
? Z
Specimen
Slide substrate (glass)
68
C.7.4.1 Frame Of Reference Module
  • When a Frame of Reference is identified, it is
    not important how the imaging target is
    positioned relative to the imaging equipment or
    where the origin of the Frame Of Reference is
    located. It is important that the position of the
    imaging target and the origin are constant in
    relationship to a specific Frame Of Reference
  • The Position Reference Indicator may or may not
    coincide with the origin of the fixed frame of
    reference related to the Frame of Reference UID.
    The Position Reference Indicator shall be used
    only for annotation purposes and is not intended
    to be used as a mathematical spatial reference.

69
WSI Image Pixel Matrix
Columns ?
  • Image Matrix not necessarily aligned to slide
    edge, nor to Slide-Coordinates
  • Image Matrix origin (top left hand corner)
    located relative to Slide-Coordinates Frame of
    Reference origin (X,Y in mm)
  • Direction of rows and columns given as cosines in
    Slide-Coordinates Frame of Reference
  • Each tile (frame) TLHC located relative to Image
    Matrix origin (column, row)
  • Each tile center located relative to
    Slide-Coordinates origin (X,Y in mm)

Rows ?
X ?
? Y
Image Matrix Origin
Slide-Coordinates Origin
Cover slip
? Z
Specimen
Slide substrate (glass)
70
Optical paths
  • Each combination of light source, lenses,
    illumination method, detected wavelengths, etc.
    used in an acquisition is an optical path
  • Each path described in an Item of the Optical
    Path Sequence
  • Examples
  • Full spectrum light, transmission, RGB color
    sensors
  • uV light, excitation, blue monochrome sensor
  • Each frame may specify a different optical path
  • Allows different colors in a single object,
    including hyperspectral (n monochrome planes)
  • Identified in Optical Path Functional Group by
    reference to Optical Path Sequence Item

71
Optical paths
  • What parameters are needed?
  • To be added in Part 16 Context Groups
  • Is a macro image simply a selected optical path?

Illumination Color(s) Intensity Type (laser)
Filters Color(s) Polarization
Lens
Illumination Method Transmission Reflection Scatt
er Excitation
Lens
Filters Color(s) Polarization
Sensor Color(s)
72
WSI Functional Groups
  • Standard
  • Pixel Measures (pixel spacing, layer thickness)
    shared
  • Frame Content (datetime, dimensional location)
    per-frame
  • Referenced Image, Derivation (if required for
    individual frames)
  • WSI Specific
  • Plane Position (relative to total matrix and to
    SCM FoR)
  • Optical Path
  • Specimen Reference (if multiple specimens on
    slide are automatically distinguishable)

73
Pixel Measures functional group
Attribute Name Tag Type Attribute Description
Pixel Measures Sequence (0028,9110) 1 Identifies the physical characteristics of the pixels of this frame. Only a single Item shall be permitted in this sequence.
gtPixel Spacing (0028,0030) 1C Physical distance in the imaging target (patient, specimen, or phantom) between the centers of each pixel, specified by a numeric pair - adjacent row spacing (delimiter) adjacent column spacing in mm. See 10.7.1.3 for further explanation of the value order. Note In the case of CT images ... Required if Volumetric Properties (0008,9206) is other than DISTORTED or SAMPLED. May be present otherwise.
gtSlice Thickness (0018,0050) 1C Nominal reconstructed slice thickness (for tomographic imaging) or depth of field (for optical imaging) in mm. See C.7.6.2.1.1  and C.7.6.16.2.3.1 for further explanation. Required if Volumetric Properties (0008,9206) is VOLUME or SAMPLED. May be present otherwise.
Redefinition
74
Plane Position (Slide) functional group
Attribute Name Tag Type Attribute Description
Plane Position (Slide) Sequence (gggg,nn1A) 1 Describes position of frame in the Total Pixel Matrix and in the Slide Coordinate System Frame of Reference. Only a single Item may be present in this Sequence.
gtPosition In Image Pixel Matrix  (gggg,nn1F) 1 The coordinate of the top left pixel of the frame in the Total Pixel Matrix (see C.8.12.X3.1.1), given as column\row. Column is the horizontal position and row is the vertical position. The coordinate of the top left pixel of the Total Pixel Matrix is 1\1.
gtImage Center Point Coordinates Sequence  (0040,071A) 1 Identifies the coordinates of the center point of this frame in the Slide Coordinate System Frame of Reference. Only a single Item shall be permitted in this sequence. See Section C.8.12.2.1.1 for further explanation. Note This attribute allows simplified transformation of a single frame of a multi-frame VL WSI SOP Instance into an instance of the VL Slide Coordinates Microscopy SOP Class.
gtgtX Offset in Slide Coordinate System (0040,072A) 1 The X offset in millimeters from the Origin of the Slide Coordinate System. See Figure C.8-16.
gtgtY Offset in Slide Coordinate System (0040,073A) 1 The Y offset in millimeters from the Origin of the Slide Coordinate System. See Figure C.8-16.
gtZ Offset in Slide Coordinate System (0040,074A) 1 The Z offset in microns from the Origin of the Slide Coordinate System, nominally the surface of the glass slide substrate. See Figure C.8-17 Note Required even if only a single focal plane was acquired.
Do we need to separate to two attributes to
support independent dimensions?
Do we really need this sequence introducer
(consistency w/ C.8.12.2)? Could just specify X
and Y as center point coordinates
75
Dimensions
  • Based on attributes in functional groups (i.e.,
    values that change on a per-frame basis)
  • Typical dimensions for WSI
  • Total Matrix Column Origin
  • Total Matrix Row Origin
  • Z-Plane
  • Optical Path (color/polarization)
  • Attributes used for Dimensions specified in
    Multi-frame Dimension Module
  • Each frame specifies its dimensional indexes in
    Frame Content functional group
  • Index values (ordinals) mapped to dimensional
    attribute values
  • E.g., with (Column, Row) dimensions, and 40962
    pixel frames, frame with index value (2,3) would
    have origin column\row values of 8193\12289

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Annotations of WSI - Segmentations
  • Segmentations can be created frame-by-frame /
    pixel-by-pixel against selected frames of
    original image
  • Reference through Derivation Image Functional
    Group
  • 1-bit/source-pixel, or 8-bits/source-pixel
  • Segmentations can be created against arbitrary
    areas within a specified Frame of Reference
  • Requires Plane Position and Plane Orientation
    Functional Groups may not be usable with slide
    coordinates Frame of Reference
  • Display of segmentation can implicitly invoke a
    non-standardized overlay or blending with source
    image
  • Segmentation can specify its preferred color

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Annotations of WSI - Presentation States
  • Color Presentation State supports annotation of a
    source image
  • Displayed Area Selection allows up to 231-1
    rows/columns, currently relative to frame-based
    rows/columns
  • Proposed enhancement (with new attribute and new
    enumerated value) to allow Displayed Area
    Selection and annotation location relative to WSI
    total matrix, rather than to frame
  • Implicitly applies to all dimensions (Z-planes,
    colors), only constrained by explicit frame
    numbers should there be a general mechanism to
    limit by dimension (as is done for segments)?
  • Placement of annotations limited to 24-bit
    precision (IEEE 754 32-bit float)
  • May be image relative or selected display area
    relative
  • Allows sub-pixel resolution up to 8M rows/columns
    for image relative

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Presentation State - Displayed Area Selection
Attribute Name Tag Type Attribute Description
Displayed Area Selection Sequence (0070,005A) 1 A sequence of Items each of which describes the displayed area selection for a group of images or frames. Sufficient Items shall be present to describe every image and frame listed in the Presentation State Relationship Module. One or more Items shall be present.
gtReferenced Image Sequence (0008,1140) 1C
gtgtInclude Image SOP Instance Reference Macro Table 10-3 gtgtInclude Image SOP Instance Reference Macro Table 10-3 gtgtInclude Image SOP Instance Reference Macro Table 10-3 gtgtInclude Image SOP Instance Reference Macro Table 10-3
gtPixel Origin Interpretation (gggg,bb01) 1C For a referenced multi-frame image, specifies whether the Displayed Area Top Left Hand Corner (0070,0052) and Displayed Area Bottom RIght Hand Corner (0070,0053) are to be interpreted relative to the individual frame pixel origins, or relative to the Total Pixel Matrix origin (see C.8.12.X3.1.1). Required if the Referenced Image Sequence (0008,1140) gtReferenced SOP Class UID (0008,1150) value is 1.2.840.10008.5.1.4.1.1.xxx (VL Whole Slide Microscopy Image). May be present otherwise. Enumerated Values FRAME VOLUME If not present, TLHC and BRHC are defined relative to the frame pixel origins.
gtDisplayed Area Top Left Hand Corner (0070,0052) 1
gtDisplayed Area Bottom Right Hand Corner (0070,0053) 1

79
Presentation State - Graphic Annotation Units
Attribute Name Tag Type Attribute Description
Graphic Annotation Sequence (0070,0001) 1 A sequence of Items each of which represents a group of annotations composed of graphics or text or both. One or more Items shall be present.

gtgtBounding Box Annotation Units (0070,0003) 1C Units of measure for the axes of the text bounding box. Defines whether or not the annotation is Image or Displayed Area relative. Both dimensions shall have the same units. Enumerated Values PIXEL Image relative position specified with sub-pixel resolution such that the origin at the Top Left Hand Corner (TLHC) of the TLHC pixel is 0.0\0.0, the Bottom Right Hand Corner (BRHC) of the TLHC pixel is 1.0\1.0, and the BRHC of the BRHC pixel is Columns\Rows (see figure C.10.5-1). The values must be within the range 0\0 to Columns\Rows. DISPLAY Fraction of Specified Displayed Area where 0.0\0.0 is the TLHC and 1.0\1.0 is the BRHC. The values must be within the range 0.0 to 1.0. MATRIX Image relative position specified with sub-pixel resolution such that the origin at the Top Left Hand Corner (TLHC) of the TLHC pixel of the Total Pixel Matrix is 0.0\0.0, the Bottom Right Hand Corner (BRHC) of the TLHC pixel is 1.0\1.0, and the BRHC of the BRHC pixel of the Total Pixel Matrix is Total Pixel Matrix Columns\Total Pixel Matrix Rows (see C.8.12.X3.1.3). The values must be within the range 0\0 to Total Pixel Matrix Columns\Total Pixel Matrix Rows. This value is valid only if the Referenced Image Sequence (0008,1140) gtReferenced SOP Class UID (0008,1150) value is 1.2.840.10008.5.1.4.1.1.xxx (VL Whole Slide Microscopy Image). Required if Bounding Box Top Left Hand Corner (0070,0010) or Bounding Box Bottom Right Hand Corner (0070,0011) is present.
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Modality Worklist
  • Scheduled Specimen Sequence added to MWL in
    Sup122
  • Allows query by Container ID (slide barcode)
  • Allows return from SCP of complete Specimen
    Module (slide processing history to be used for
    imaging set up and/or inclusion in WSI header
  • Other parameters can be passed in Protocol
    Context Sequence
  • Template specification for Content Items
  • Proposed Protocol Optical Paths Sequence
  • Parallel to Protocol Context Sequence
  • General VL attributes
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