Toxic multinodular goiter other imaging findings: Difference between revisions
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{{Toxic multinodular goiter}} | {{Toxic multinodular goiter}} | ||
{{CMG}}; {{Mazia}} | {{CMG}}; {{Mazia}} {{ARK}} | ||
==Overview== | ==Overview== | ||
[[Radioiodine]] uptake may be helpful in the diagnosis of multinodular goiter.Patchy pattern of increased [[radionuclide]] uptake in more than one [[nodule]] associated with decreased uptake in the surrounding extranodular thyroid tissue is characteristic of toxic multinodular goiter. | |||
==Thyroid Scintigraphy== | ==Thyroid Scintigraphy== | ||
* | *[[Radioiodine]] uptake may be helpful in the diagnosis of multinodular goiter.<ref name="pmid27741354">{{cite journal |vauthors=Haugen BR |title=2015 American Thyroid Association Management Guidelines for Adult Patients with Thyroid Nodules and Differentiated Thyroid Cancer: What is new and what has changed? |journal=Cancer |volume=123 |issue=3 |pages=372–381 |year=2017 |pmid=27741354 |doi=10.1002/cncr.30360 |url=}}</ref> | ||
*Findings on | *Findings on a thyroid nuclear scintigraphy suggestive of multinodular goiter include enlarged gland, with [[heterogeneous]] uptake that determines the activity of the gland. | ||
*Patchy pattern of increased radionuclide uptake in more than one nodule associated with decreased uptake in the surrounding extranodular thyroid tissue is characteristic of toxic multinodular goiter. | *Patchy pattern of increased [[Radionuclide imaging|radionuclide]] uptake in more than one nodule associated with decreased uptake in the surrounding extranodular thyroid tissue is characteristic of toxic multinodular goiter. | ||
*Commonly used isotopes are Tc-99m pertechnetate or radioiodine (I123).These isotopes are preferred over isotope sodium iodide-131 (Na 131 I) due to their shorter half-life and comparitively lower radiation exposure. | *Commonly used isotopes are [[Technetium-99m|Tc-99m pertechnetate]] or [[radioiodine]] ([[Iodine-123|I123]]).These [[isotopes]] are preferred over isotope [[Iodine-131|sodium iodide-131]] (Na 131 I) due to their shorter half-life and comparitively lower radiation exposure. | ||
*123 | *[[Iodine-123]] scanning is preferred over [[Technetium-99m|99m Tc scan]]. [[Technetium-99m|99m Tc]] scanning may provide misleading results as [[Technetium-99m|99m Tc]] is trapped in the [[thyroid]] but is not organified. Some [[nodules]] that appear hot or warm on [[Technetium-99m|99m TC scan]] results may be cold on [[Iodine-123|123 I scan]] results. | ||
*Based on uptake of radioactive isotope thyroid nodule can be divided into: | *Based on uptake of [[Radioactive isotopes|radioactive isotope]] [[thyroid nodule]] can be divided into: | ||
**Hot nodule: suggestive of autonomously functioning nodules. | **Hot nodule: suggestive of autonomously functioning nodules. | ||
**Warm nodule: indicates normal thyroid function. | **Warm nodule: indicates normal thyroid function. | ||
**Cold nodule: suggestive of hypofunctional or nonfunctional thyroid tissue. | **Cold nodule: suggestive of hypofunctional or nonfunctional thyroid tissue. | ||
*5-8% of warm or cold nodules are malignant, however hot nodules are rarely malignant. | *5-8% of warm or cold nodules are [[malignant]], however hot nodules are rarely [[malignant]]. | ||
===Differentiation based Functional (Nuclear) Imaging for Thyrotoxicosis=== | ===Differentiation based on Functional (Nuclear) Imaging for Thyrotoxicosis=== | ||
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| colspan="6" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF|'''Functional (Nuclear) Imaging for Thyrotoxicosis'''}} | | colspan="6" style="background: #4479BA; text-align: center;" | {{fontcolor|#FFF|'''Functional (Nuclear) Imaging for Thyrotoxicosis'''}} | ||
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==References== | ==References== | ||
{{Reflist|2}} | {{Reflist|2}} |
Latest revision as of 14:36, 13 October 2017
Toxic multinodular goiter Microchapters |
Differentiating Toxic multinodular goiter from other Diseases |
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Mazia Fatima, MBBS [2] Aravind Reddy Kothagadi M.B.B.S[3]
Overview
Radioiodine uptake may be helpful in the diagnosis of multinodular goiter.Patchy pattern of increased radionuclide uptake in more than one nodule associated with decreased uptake in the surrounding extranodular thyroid tissue is characteristic of toxic multinodular goiter.
Thyroid Scintigraphy
- Radioiodine uptake may be helpful in the diagnosis of multinodular goiter.[1]
- Findings on a thyroid nuclear scintigraphy suggestive of multinodular goiter include enlarged gland, with heterogeneous uptake that determines the activity of the gland.
- Patchy pattern of increased radionuclide uptake in more than one nodule associated with decreased uptake in the surrounding extranodular thyroid tissue is characteristic of toxic multinodular goiter.
- Commonly used isotopes are Tc-99m pertechnetate or radioiodine (I123).These isotopes are preferred over isotope sodium iodide-131 (Na 131 I) due to their shorter half-life and comparitively lower radiation exposure.
- Iodine-123 scanning is preferred over 99m Tc scan. 99m Tc scanning may provide misleading results as 99m Tc is trapped in the thyroid but is not organified. Some nodules that appear hot or warm on 99m TC scan results may be cold on 123 I scan results.
- Based on uptake of radioactive isotope thyroid nodule can be divided into:
- Hot nodule: suggestive of autonomously functioning nodules.
- Warm nodule: indicates normal thyroid function.
- Cold nodule: suggestive of hypofunctional or nonfunctional thyroid tissue.
- 5-8% of warm or cold nodules are malignant, however hot nodules are rarely malignant.
Differentiation based on Functional (Nuclear) Imaging for Thyrotoxicosis
Functional (Nuclear) Imaging for Thyrotoxicosis | |||||
Diagnosis | Degree of Thyrotoxicosis | Radioactive iodine Uptake | Scintigraphy Image | ||
---|---|---|---|---|---|
Toxic multinodular goiter | +/++ | Normal or +/++ | Enlarged gland with multiple "hot" or "cold" nodules | ||
Grave's disease | ++++ | ++++ | Enlarged gland with homogenous uptake | ||
Thyrotoxic phase of subacute thyroiditis | ++++ | <1% at 4 or 24 hr. | Absent isotope uptake | ||
Toxic adenoma | +/++ | Normal or +/++ | Dominant "hot" nodule with low or absent uptake in the surrounding normal gland. |
References
- ↑ Haugen BR (2017). "2015 American Thyroid Association Management Guidelines for Adult Patients with Thyroid Nodules and Differentiated Thyroid Cancer: What is new and what has changed?". Cancer. 123 (3): 372–381. doi:10.1002/cncr.30360. PMID 27741354.