Adrenocortical carcinoma other imaging studies: Difference between revisions
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*MIBG scan | *MIBG scan | ||
*[[Bone scan]]s are used to visualize bone [[metastasis]] | *[[Bone scan]]s are used to visualize bone [[metastasis]] | ||
ACC typically presents as a large, heterogeneous mass | |||
with intense FDG uptake greater than liver background | |||
(Figure 4). In a study of 77 patients with surgically proven | |||
diagnosis of ACA or ACC, [18F]FDG PET/CT had a sensitivity | |||
of 100% and specificity of 88% in distinguishing | |||
benign from malignant lesions by using cutoff value above | |||
1.45 for adrenal to liver maximum standardized uptake | |||
value (SUV). In the same study using a cutoff value of 3.4 | |||
for adrenal maximum SUV, the sensitivity was 100% and | |||
specificity70%(108). Assessment of morphological characteristics | |||
such as tumor size, heterogeneity, and irregular | |||
margins as well as attenuation value and metabolic activity | |||
is likely to improve accuracy. [18F]FDG PET/CT, however, | |||
cannot distinguish ACC from metastases, lymphoma, | |||
or pheochromocytoma, which also exhibit high | |||
metabolic activity (109). In a meta-analysis of published | |||
data to determine the diagnostic utility of [18F]FDG | |||
PET/CT for distinguishing benign from malignant adrenal | |||
tumors, [18F]FDG PET/CT had sensitivity of 97% and | |||
specificity of 91% (109). No significant difference in accuracy | |||
was found between visual analysis, SUV analysis, | |||
and standardized uptake ratio (defined as ratio of adrenal | |||
SUV activity to liver SUV activity) analysis. | |||
[18F]FDG PET/CT is a useful modality for stagingACC | |||
and evaluating local recurrence. In a study on 22 patients | |||
with ACC, sensitivity of [18F]FDG PET/CT was 90% for | |||
diagnosis of metastases as compared with 88% for diagnostic | |||
CT. However, they should be considered complementary | |||
imaging modalities because 12% and 10% of | |||
lesions were seen only by [18F]FDG PET/CT or CT, respectively | |||
(110). [18F]FDG PET/CT has low sensitivity for | |||
characterization of smaller lesions, particularly for those lesions less than 10 mm in diameter (111). Intensity of | |||
FDGuptake was found to be related to survival in patients | |||
with ACC, with a maximum SUV of _10 indicating poor | |||
prognosis (111). In a study of 12 patients with previously | |||
resectedACC,[18F]FDGPET/CTcorrectly identified local | |||
tumor recurrence in all patients (112). [18F]FDG is not a | |||
tumor-specific tracer, and increased uptake may be seen in | |||
benign conditions including postoperative changes. | |||
Functional imaging by positron emission tomography | |||
(PET) with [18F]fluorodeoxyglucose (FDG) and [11C]me-tomidate (MTO) or [123I]MTO (where available) may be | |||
used to confirm diagnosis of a malignant lesion or establish | |||
the adrenocortical origin of a tumor. NP59 ([131I]- | |||
iodocholesterol) scans are no longer available. | |||
==References== | ==References== | ||
{{Reflist|2}} | {{Reflist|2}} | ||
Revision as of 15:23, 20 September 2017
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Adrenocortical carcinoma Microchapters |
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Differentiating Adrenocortical carcinoma from other Diseases |
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Diagnosis |
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Adrenocortical carcinoma other imaging studies On the Web |
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American Roentgen Ray Society Images of Adrenocortical carcinoma other imaging studies |
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Risk calculators and risk factors for Adrenocortical carcinoma other imaging studies |
Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Ahmad Al Maradni, M.D. [2]
Overview
Adrenal angiography,venography, positron emission tomography and MIBG may be used in the diagnosis of adrenocortical carcinoma.
Other Imaging Studies
Other Imaging studies that may be used in diagnosis of adrenocortical carcinoma are:[1]
- Adrenal angiography
- Adrenal venography
- PET scan (positron emission tomography scan)
- MIBG scan
- Bone scans are used to visualize bone metastasis
ACC typically presents as a large, heterogeneous mass
with intense FDG uptake greater than liver background
(Figure 4). In a study of 77 patients with surgically proven
diagnosis of ACA or ACC, [18F]FDG PET/CT had a sensitivity
of 100% and specificity of 88% in distinguishing
benign from malignant lesions by using cutoff value above
1.45 for adrenal to liver maximum standardized uptake
value (SUV). In the same study using a cutoff value of 3.4
for adrenal maximum SUV, the sensitivity was 100% and
specificity70%(108). Assessment of morphological characteristics
such as tumor size, heterogeneity, and irregular
margins as well as attenuation value and metabolic activity
is likely to improve accuracy. [18F]FDG PET/CT, however,
cannot distinguish ACC from metastases, lymphoma,
or pheochromocytoma, which also exhibit high
metabolic activity (109). In a meta-analysis of published
data to determine the diagnostic utility of [18F]FDG
PET/CT for distinguishing benign from malignant adrenal
tumors, [18F]FDG PET/CT had sensitivity of 97% and
specificity of 91% (109). No significant difference in accuracy
was found between visual analysis, SUV analysis,
and standardized uptake ratio (defined as ratio of adrenal
SUV activity to liver SUV activity) analysis.
[18F]FDG PET/CT is a useful modality for stagingACC
and evaluating local recurrence. In a study on 22 patients
with ACC, sensitivity of [18F]FDG PET/CT was 90% for
diagnosis of metastases as compared with 88% for diagnostic
CT. However, they should be considered complementary
imaging modalities because 12% and 10% of
lesions were seen only by [18F]FDG PET/CT or CT, respectively
(110). [18F]FDG PET/CT has low sensitivity for
characterization of smaller lesions, particularly for those lesions less than 10 mm in diameter (111). Intensity of
FDGuptake was found to be related to survival in patients
with ACC, with a maximum SUV of _10 indicating poor
prognosis (111). In a study of 12 patients with previously
resectedACC,[18F]FDGPET/CTcorrectly identified local
tumor recurrence in all patients (112). [18F]FDG is not a
tumor-specific tracer, and increased uptake may be seen in
benign conditions including postoperative changes.
Functional imaging by positron emission tomography
(PET) with [18F]fluorodeoxyglucose (FDG) and [11C]me-tomidate (MTO) or [123I]MTO (where available) may be
used to confirm diagnosis of a malignant lesion or establish
the adrenocortical origin of a tumor. NP59 ([131I]-
iodocholesterol) scans are no longer available.
References
- ↑ National Cancer Institute. Physician Data Query Database 2015. http://www.cancer.gov/types/adrenocortical/patient/adrenocortical-treatment-pdq#section/_1