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| Rowcaps |
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| Row 1: | I examined the MRI image of the thoracic region (test location) and didn't find the presence of an aneurysm. |
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| Row 2: | I examined the MRI image of the abdominal region (test location) and found an aneurysm in the left (Result LAT) renal artery (Result Loc). |
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| Row 3: | I examined the image of the abdominal region (test location) and found an aneurysm in the infrarenal aorta (Result Loc). |
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| Row 4: | I measured the diameter of the aneurysm in the left renal artery (test location). |
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| Row 5: | I measured the diameter of the aneurysm in the Infrarenal Aorta (test location). |
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| Dataset2 |
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Row | STUDYID | DOMAIN | USUBJID | CVSEQ | CVGRPID | CVTEST | CVORRES | CVORRESU | CVLOC | CVLAT | CVMETHOD | VISITNUM | VISIT | CVDTC |
| CVRESLOC
| CVRESLAT |
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| 1 | ABC | CV | ABC-456 | 1 |
| Aneurysm Indicator | N |
| Thoracic Region |
| CT SCANMRI | 1 | BASELINE | 2020-04-27 |
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| 2 | ABC | CV | ABC-456 | 2 | 1 | Aneurysm Indicator | Y |
| Abdominal Region |
| CT SCANMRI | 1 | BASELINE | 2020-04-27 |
| Renal Artery | Left |
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| 3 | ABC | CV | ABC-456 | 3 | 2 | Aneurysm Indicator | Y |
| Abdominal Region |
| CT SCANMRI | 1 | BASELINE | 2020-04-27 |
| Infrarenal Aorta |
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| 4 | ABC | CV | ABC-456 | 4 | 1 | Aneurysm Diameter | 3 | cm | Renal Artery | Left | CT SCANMRI | 1 | BASELINE | 2020-04-27 |
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| 5 | ABC | CV | ABC-456 | 5 | 2 | Aneurysm Diameter | 5 | cm | Infrarenal Aorta |
| CT SCANMRI | 1 | BASELINE | 2020-04-27 |
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I think what SDTM has not addressed with imaging results is that when you look at the images produced by a procedure, and if your task it to look for the occurrence of a suspected object, what should be considered as the anatomical location of the TEST since you are looking at a 2-dimentaional image/picture. My take is that the images are still representative of, and are about a specific section or part of the body, it allows you to view the entirety of a section or part of the body. In other words, you are looking for a suspected object within a section/part of the body that is made visible to you by the diagnostic procedure. So applying this logic, I outlined the modeling for coronary occlusion data.
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