Multinodular goiter

Multinodular

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Multinodular

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Multinodular

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Multinodular

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Multinodular

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Multinodular goiter (MNG) is defined as an enlarged thyroid gland (i.e. goiter) due to multiple nodules which may have normal, decreased or increased function.

Terminology

When increased activity and hyperthyroidism are present then the condition is referred to as a toxic multinodular goiter or Plummer disease.

Multinodular goiter has been criticized as being a somewhat unhelpful term as some multinodular thyroids are not enlarged, resulting in the unwieldy term "multinodular non-enlarged thyroid" .

Clinical presentation

Multinodular goiter is seen more commonly in females (M:F=1:3) in the 35-50 years age range, who present with nodular enlargement in the midline of the neck. Patients are usually euthyroid, but the nodules may also be hypo- or hyperfunctioning, resulting in systemic symptoms from hypothyroidism or hyperthyroidism, respectively.

Pathology

Multinodular goiters develop from simple goiters as a result of repeated instances of stimulation and involution .

Most of the nodules are hyperplastic or adenomatous with varying degree of cystic/liquefactive degeneration. Presence of serous/colloid fluid may be noted.

A nodule in multinodular goiter may harbor malignancy. A family history of malignancy and prior neck radiation exposure are known risk factors .

Radiographic features

Ultrasound

Sonography remains the first radiological investigation to screen the nodules and look for any suspicion of malignant change in the nodules which is not uncommon.

Usually, the benign nodules in a multinodular goiter show the following features:

iso-hyperechoic
surrounding hypoechoic halo
spongiform/honeycomb pattern
- anechoic areas may contain colloid fluid which may show echogenic foci with comet tail artifacts
- see: colloid nodule
peripheral (eggshell) or coarse calcifications
Doppler: peripheral vessels are usually noted, may show intranodular vascularity (mostly in hyperfunctioning nodules)

It is important to screen for the presence of malignant features (if any) in any of the nodules and subsequent FNA can be done from the suspicious nodule.

Malignant sonographic features

hypoechoic solid
intranodular blood flow
large size: the cut-off is often taken as 10 mm to warrant an FNA
presence of microcalcifications: almost always warrants an FNA

Benign sonographic features

large cystic component
hyperechoic solid
comet tail artifact
halo

See main article assessment of thyroid lesions for further details.

Nuclear medicine

Tc-99m pertechnetate or radioiodine (I-123) demonstrate an enlarged gland, with heterogeneous uptake
thyroid uptake scan determines the activity of the gland

Plain radiograph

goiter is in the differential for an anterior/superior mediastinal mass and is associated with the cervicothoracic sign
associated with deviation of the trachea

CT

not a primary modality for diagnosis, but may be seen incidentally
CT may be useful for fully characterizing the extent of substernal (retrosternal) goiter
an enlarged and heterogeneous thyroid gland suggests the diagnosis, which is confirmed by ultrasound or scintigraphy

Treatment and prognosis

Treatment of multinodular goiter may be pursued if the thyroid is hyperfunctioning, or if the goiter is causing local mass effect. There is no standard treatment and choice of treatment depends on local practice patterns, the activity of the goiter, and the results of FNA of any suspicious nodules.

surgery: partial or complete resection
radioiodine: occasionally used
- dose = (thyroid weight x planned radioiodine delivery to thyroid) / radioiodine uptake
- hypothyroidism may occur as an adverse event

Conservative management is also an option as some goiters decrease their rate of growth or may even decrease in size .

Practical points

patients with multinodular goiter are at increased risk of iodinated contrast-induced thyrotoxicosis (although this is rare in itself)