Toxic Adenoma other imaging findings: Difference between revisions

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{{CMG}} ; {{AE}} {{ADG}}
{{CMG}} ; {{AE}} {{ADG}}
==Overview==
==Overview==
[[Radionuclide]] imaging and quantitative [[Radioisotopic labeling|radioisotopic uptake]] studies are always required to establish the diagnosis of toxic adenoma or toxic nodular goiter. [[Radionuclide imaging]] can be performed with radioactive [[iodine-123]] or with [[technetium-99m]]. In patients with [[hyperthyroidism]] caused by a toxic adenoma, there is a characteristic restriction of radionuclide uptake to the responsible hyperfunctioning nodule with suppression of radionuclide uptake in the remainder of the gland.
[[Radionuclide]] imaging and quantitative [[Radioisotopic labeling|radioisotopic uptake]] studies are always required to establish the diagnosis of toxic adenoma or toxic nodular goiter. [[Radionuclide imaging]] can be performed with radioactive [[iodine-123]] or with [[technetium-99m]]. In patients with [[hyperthyroidism]] caused by a toxic adenoma, there is a characteristic restriction of [[Radionuclides|radionuclide]] uptake to the responsible hyperfunctioning [[nodule]] with suppression of [[Radionuclides|radionuclide]] uptake in the remainder of the [[gland]].


==Other Imaging Findings==
==Other Imaging Findings==
*Radionuclide imaging and quantitative [[Radioisotopic labeling|radioisotopic uptake]] studies are always required to establish the diagnosis of toxic adenoma or toxic nodular goiter.<ref name="pmid4110446">{{cite journal |vauthors=Hurley PJ, Maisey MN, Natarajan TK, Wagner HN |title=A computerized system for rapid evaluation of thyroid function |journal=J. Clin. Endocrinol. Metab. |volume=34 |issue=2 |pages=354–60 |year=1972 |pmid=4110446 |doi=10.1210/jcem-34-2-354 |url=}}</ref>
*[[Radionuclide imaging]] and quantitative [[Radioisotopic labeling|radioisotopic uptake]] studies are always required to establish the diagnosis of [[toxic adenoma]] or toxic nodular goiter.<ref name="pmid4110446">{{cite journal |vauthors=Hurley PJ, Maisey MN, Natarajan TK, Wagner HN |title=A computerized system for rapid evaluation of thyroid function |journal=J. Clin. Endocrinol. Metab. |volume=34 |issue=2 |pages=354–60 |year=1972 |pmid=4110446 |doi=10.1210/jcem-34-2-354 |url=}}</ref>
*Radionuclide imaging can be performed with radioactive [[iodine-123]] or with [[technetium-99m]].<ref name="pmid15162989">{{cite journal |vauthors=Smith JR, Oates E |title=Radionuclide imaging of the thyroid gland: patterns, pearls, and pitfalls |journal=Clin Nucl Med |volume=29 |issue=3 |pages=181–93 |year=2004 |pmid=15162989 |doi= |url=}}</ref><ref name="pmid24001133">{{cite journal |vauthors=Bianco AC, Anderson G, Forrest D, Galton VA, Gereben B, Kim BW, Kopp PA, Liao XH, Obregon MJ, Peeters RP, Refetoff S, Sharlin DS, Simonides WS, Weiss RE, Williams GR |title=American Thyroid Association Guide to investigating thyroid hormone economy and action in rodent and cell models |journal=Thyroid |volume=24 |issue=1 |pages=88–168 |year=2014 |pmid=24001133 |pmc=3887458 |doi=10.1089/thy.2013.0109 |url=}}</ref>  
*[[Radionuclide imaging]] can be performed with [[radioactive]] [[iodine-123]] or with [[technetium-99m]].<ref name="pmid15162989">{{cite journal |vauthors=Smith JR, Oates E |title=Radionuclide imaging of the thyroid gland: patterns, pearls, and pitfalls |journal=Clin Nucl Med |volume=29 |issue=3 |pages=181–93 |year=2004 |pmid=15162989 |doi= |url=}}</ref><ref name="pmid24001133">{{cite journal |vauthors=Bianco AC, Anderson G, Forrest D, Galton VA, Gereben B, Kim BW, Kopp PA, Liao XH, Obregon MJ, Peeters RP, Refetoff S, Sharlin DS, Simonides WS, Weiss RE, Williams GR |title=American Thyroid Association Guide to investigating thyroid hormone economy and action in rodent and cell models |journal=Thyroid |volume=24 |issue=1 |pages=88–168 |year=2014 |pmid=24001133 |pmc=3887458 |doi=10.1089/thy.2013.0109 |url=}}</ref>  
*Radionuclide imaging performed with [[iodine-123]] or  [[technetium-99m]], are trapped by the [[sodium-iodide symporter]] in functioning [[Thyroid gland|thyroid tissue]], although only radioiodine is subsequently organified.
*[[Radionuclide imaging]] performed with [[iodine-123]] or  [[technetium-99m]], are trapped by the [[sodium-iodide symporter]] in functioning [[Thyroid gland|thyroid tissue]], although only [[radioiodine]] is subsequently organified.
*In patients with [[hyperthyroidism]] caused by a toxic adenoma, there is a characteristic restriction of radionuclide uptake to the responsible hyperfunctioning nodule with suppression of radionuclide uptake in the remainder of the gland.
*In patients with [[hyperthyroidism]] caused by a toxic adenoma, there is a characteristic restriction of radionuclide uptake to the responsible hyperfunctioning [[nodule]] with suppression of radionuclide uptake in the remainder of the [[gland]].
*In a patient with a low serum [[TSH]] concentration, not only does the scan appearance support the diagnosis of toxic adenoma, but in almost all cases it also excludes malignancy in the [[nodule]].  
*In a patient with a low serum [[TSH]] concentration, not only does the scan appearance support the diagnosis of toxic adenoma, but in almost all cases it also excludes [[malignancy]] in the [[nodule]].  
*If some thyroid nodules are hypo functioning, it is necessary to rule out cancer by fine-needle aspiration cytology.
*If some [[thyroid]] [[nodules]] are hypo-functioning, it is necessary to rule out [[cancer]] by [[Fine-needle aspiration|fine-needle aspiration cytology]].
{| class="wikitable"
{| class="wikitable"
!Differential for thyrotoxicosis
!Differential for thyrotoxicosis
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|40-95
|40-95
|Diffuse  
|Diffuse  
(Homogeneous within thyroid)
([[Homogeneous]] within [[thyroid]])
|-
|-
|[[Toxic Adenoma|Toxic adenoma]]
|[[Toxic Adenoma|Toxic adenoma]]
|20-60
|20-60
|Restricted to autonomous regions in thyroid
|Restricted to autonomous regions in [[thyroid]]
|-
|-
|[[Subacute thyroiditis]]
|[[Subacute thyroiditis]]
Line 38: Line 38:
|minimal uptake
|minimal uptake
|-
|-
|Iodine-induced thyrotoxicosis
|[[Iodine]]-induced [[thyrotoxicosis]]
|<2
|<2
|minimal uptake
|minimal uptake
Line 49: Line 49:
|[[Struma ovarii]]
|[[Struma ovarii]]
|<2
|<2
|Uptake in ovary
|Uptake in [[ovary]]
|-
|-
|[[Follicular carcinoma of the Thyroid|Follicular carcinoma]]
|[[Follicular carcinoma of the Thyroid|Follicular carcinoma]]
|<2
|<2
|Uptake in cancer metastasis
|Uptake in [[cancer]] [[metastasis]]
|-
|-
|Thyroid-stimulating hormone–induced [[thyrotoxicosis]]
|[[Thyroid]]-stimulating hormone–induced [[thyrotoxicosis]]
|30-80
|30-80
|Diffuse  
|Diffuse  
(Homogeneous within thyroid)
(Homogeneous within [[thyroid]])
|}
|}


==References==
==References==
{{reflist|2}}
{{reflist|2}}

Latest revision as of 17:24, 19 October 2017

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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] ; Associate Editor(s)-in-Chief: Aditya Ganti M.B.B.S. [2]

Overview

Radionuclide imaging and quantitative radioisotopic uptake studies are always required to establish the diagnosis of toxic adenoma or toxic nodular goiter. Radionuclide imaging can be performed with radioactive iodine-123 or with technetium-99m. In patients with hyperthyroidism caused by a toxic adenoma, there is a characteristic restriction of radionuclide uptake to the responsible hyperfunctioning nodule with suppression of radionuclide uptake in the remainder of the gland.

Other Imaging Findings

Differential for thyrotoxicosis Fractional Uptake

of Radioactive Iodine in

24 hrs (%)

Radioactive iodine

Distribution

Graves’ disease 40-95 Diffuse

(Homogeneous within thyroid)

Toxic adenoma 20-60 Restricted to autonomous regions in thyroid
Subacute thyroiditis <2 minimal uptake
Silent thyroiditis <2 minimal uptake
Iodine-induced thyrotoxicosis <2 minimal uptake
Factitious or

iatrogenic thyrotoxicosis

<2 minimal uptake
Struma ovarii <2 Uptake in ovary
Follicular carcinoma <2 Uptake in cancer metastasis
Thyroid-stimulating hormone–induced thyrotoxicosis 30-80 Diffuse

(Homogeneous within thyroid)

References

  1. Hurley PJ, Maisey MN, Natarajan TK, Wagner HN (1972). "A computerized system for rapid evaluation of thyroid function". J. Clin. Endocrinol. Metab. 34 (2): 354–60. doi:10.1210/jcem-34-2-354. PMID 4110446.
  2. Smith JR, Oates E (2004). "Radionuclide imaging of the thyroid gland: patterns, pearls, and pitfalls". Clin Nucl Med. 29 (3): 181–93. PMID 15162989.
  3. Bianco AC, Anderson G, Forrest D, Galton VA, Gereben B, Kim BW, Kopp PA, Liao XH, Obregon MJ, Peeters RP, Refetoff S, Sharlin DS, Simonides WS, Weiss RE, Williams GR (2014). "American Thyroid Association Guide to investigating thyroid hormone economy and action in rodent and cell models". Thyroid. 24 (1): 88–168. doi:10.1089/thy.2013.0109. PMC 3887458. PMID 24001133.