Note the below modeling approach applies to all body-system domains when abnormalities are identified through examination of an image produced by an imaging procedure.
Dataset wrap |
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title | cv.xpt |
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Name | Body-System Domain |
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Rowcaps |
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Row 1: | Shows one or more lesions have been identified in the lower limb region at Visit 1. |
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Row 2: | Shows lesion 1 is found in the left popliteal artery, below the knee. |
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Row 3: | Shows lesion 2 is found in the right femoral artery. |
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Row 4: | Shows one or more lesions have been identified in the lower limb region at Visit 4 |
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Row 5: | Shows after treatment, lesion 1 is not detected, hence RESLOC is not populated, suggesting the treatment had worked. |
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Row 6: | Shows lesion 2 is still present at the right femoral artery. |
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Row 7: | Shows there are no more lesions identified in the lower limb region at Visit 8. |
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Row 8: | Shows after treatments, lesion 1 is not detected, hence RESLOC is not populated, suggesting the treatment had worked. |
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Row 9: | Shows after treatments, lesion 2 is not detected, hence RESLOC is not populated, suggesting the treatment had worked. |
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Dataset2 |
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Row | STUDYID | DOMAIN | USUBJID | --SEQ | --LNKID | --TEST | --LOC | --ORRES | --STRESC | --Result LOC | --Result LAT | --Result LOCDTL | METHOD | EVEL | VISITNUM | VISIT | DTC |
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1 |
| any body system domain | 40912 | 1 |
| Abnormality Indicator | LOWER LIMB REGION | Y | Y |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 2 | VISIT 1 | 2007-02-07 | 2 |
| any body system domain | 40912 | 2 | Lesion 1 | Examination for Abnormality | LOWER LIMB REGION | lesion (or aneurysm, etc) | lesion | POPLITEAL ARTERY | LEFT | BELOW THE KNEE | CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 2 | VISIT 1 | 2007-02-07 | 3 |
| any body system domain | 40912 | 3 | Lesion 2 | Examination for Abnormality | LOWER LIMB REGION | lesion | lesion | FEMORAL ARTERY | RIGHT |
| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 2 | VISIT 1 | 2007-02-07 | 4 |
| any body system domain | 40912 | 4 |
| Abnormality Indicator | LOWER LIMB REGION | Y | Y |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 5 | VISIT 4 | 2007-04-07 | 5 |
| any body system domain | 40912 | 5 | Lesion 1 | Examination for Abnormality | LOWER LIMB REGION | lesion not detected | lesion not detected |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 5 | VISIT 4 | 2007-04-07 | 6 |
| any body system domain | 40912 | 6 | Lesion 2 | Examination for Abnormality | LOWER LIMB REGION | lesion | lesion | FEMORAL ARTERY | RIGHT |
| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 5 | VISIT 4 | 2007-04-07 | 7 |
| any body system domain | 40912 | 7 |
| Abnormality Indicator | LOWER LIMB REGION | N | N |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 9 | VISIT 8 | 2007-10-08 | 8 |
| any body system domain | 40912 | 8 | Lesion 1 | Examination for Abnormality | LOWER LIMB REGION | lesion not detected | lesion not detected |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 9 | VISIT 8 | 2007-10-08 | 9 |
| any body system domain | 40912 | 9 | Lesion 2 | Examination for Abnormality | LOWER LIMB REGION | lesion not detected | lesion not detected |
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| CT PERIPHERAL ANGIOGRAPHY | INVESTIGATOR | 9 | VISIT 8 | 2007-10-08 |
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Pros: | - Reusibility of the result location variables in other domains when needed.
- Simplicity: there is only one location for (Test)LOC for the Lesion/abnormality Location Identification process. Imaging location is treated as the general location for --LOC, and all result locations are under the RESLOC variable.
- The ability to represent different "types" of abnormalities in ORRES, i.e. aneurysm, calcified annulus or calcified valvular leaflets, stenosis, or an actual cardiovascular lesion (plaque causing stenosis), etc. This approach enables us to avoid creating "abnormality-type" specific --TESTs, such as aneurysm indicator, calcification indicator, etc.
- The ability to create a negative record when the abnormality is no longer observed.
- This approach aligns the most with what happens in reality (the assessment of an image to find abnormalities).
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Cons: | - We currently have DIR, LAT, PORTOT, Loc Detail, how many more LOC-related variables might we need if there are more complicated locations info that we need to represent. For example, the graft use-case where we need to indicate a location being a graft, or transplant, we created a NSV for that.
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Additional concerns to address:
- Controlled terminology: finalize the details for the test = Examination for Abnormality.
- Team needs to think about the implication of this approach. The CV-imaging common data element contained many "indicator" values such as the following: aneurysm indicator, Cusp Prolapse Indicator, Cardiac Muscle Hypertrophy Indicator, Aortic Coarctation Indicator, Mitral valve stenosis Indicator, Mitral valve regurgitation indicator, pleural effusion indicator, etc, where the responses are "Y/N". At the time CDISC treated this type of data as "pre-specified findings" and the modeling approach was to create "XXX Indicator" type of questions. However, the question has always been: are there really "pre-specified findings" from observing an image? Did you plan to find an aneurysm from the chest CT scan? Did you plan to find pleural effusion in the pleural cavity? What was planned was a imaging procedure, such as a chest CT scan, and during this diagnostic procedure, abnormalities were identified. The observed abnormalities are results from an examination of the image, then is it correct to treat them as TEST values by creating pre-specified finding indicator questions, i.e. aneurysm indicator?
- If what we proposed below is the way forward, CDISC will move away from creating "Indicator" type of questions for findings resulted from examination of an image.
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