Changes occurring in the thyroid gland during pregnancy have been thoroughly studied in recent years and may be both morphological and functional.5 There are specific reference levels for both thyroid-releasing hormone (TSH) and other thyroid hormones during pregnancy, which should be taken into account and should be flagged by each laboratory to avoid erroneous interpretations.1,6,7 This is of paramount importance when monitoring patients with a history of differentiated thyroid cancer, as will be seen later.

Thyroid cancer should be suspected in any patient consulting for goiter. It should therefore be taken into account that, depending on iodine intake, thyroid volume may increase during pregnancy by 10% (in areas with normal-high iodine intake) to 40% (in low intake areas). A study was conducted on 35 pregnant women in Valle de Arán, an area where iodine deficiency is traditionally endemic. The authors measured thyroid volume during the first and third trimesters of pregnancy. Median thyroid volume increased in these women from 7.5 to 9.5mL during pregnancy (p<0.001). The difference was also seen to be greater in women with multiple pregnancies. In agreement with studies in other geographical areas, this Spanish study concluded that both iodine deficiency and multiparity are goitrogen factors during pregnancy.8

Thyroid nodule management during pregnancy is usually based on the standard diagnostic and treatment criteria for the condition. The special characteristics of pregnancy are associated with changes in nodule prevalence, size, and growth, and to indications for treatment, particularly surgery.

As in non-pregnant women, ultrasound examination is essential in any thyroid nodule. Ultrasonography provides valuable information regarding the benign or malignant nature of nodules9 (Table 1). In accordance with general criteria, cytological evaluation using fine needle aspiration (FNA) is indispensable in assessing thyroid nodules. Obviously, pregnancy has no effect on the cytological diagnosis of thyroid nodules. Table 2 summarizes the most commonly used classification, the Bethesda system.10

Both the appearance of new nodules and the volume of those already existing have been reported to increase during pregnancy.1 However, nodules usually return to their baseline size after delivery11 In a Spanish study, however, Jaén Díaz et al.12 found a 33.2% prevalence of thyroid nodules during the first trimester of pregnancy, which was slightly lower than the prevalence seen in controls (38.5%), although the difference was not statistically significant. This suggests that pregnancy does not promote the occurrence of thyroid nodules, in contrast to findings in studies in other countries.11,13,14 However, the high prevalence of thyroid nodules in pregnant women found in the Jaén Díaz et al. study12 is also noteworthy because it was markedly higher than that reported in the majority of similar studies, where it ranged from 3% to 12%.

• 1.

  Does pregnancy cause any morphological disorder in the thyroid gland?

Most research studies suggest that pregnancy increases the risk of developing new thyroid nodules and also promotes an increase in the size of previously existing nodules.1 The size of pre-gestational nodules may increase by up to 50%, and a de novo nodule occurs during pregnancy in up to 20% of patients. This risk is also enhanced both by age and a higher number of pregnancies (multiparity is associated with a 10–15% increase).

• 2.

  What precautions may be taken to prevent the occurrence of thyroid nodules during pregnancy?

Epidemiological data suggest that low iodine intake predisposes to the development of thyroid nodules. It is therefore highly recommended that potassium iodide supplements be taken throughout pregnancy. This supplementation also protects against the occurrence of hypothyroidism in the mother and fetus, in addition to providing the fetus with the iodine needed for thyroid hormone synthesis.

• 3.

  How should thyroid nodules be managed in pregnant women?

If a thyroid nodule is found during pregnancy, a thorough clinical history and physical examination should be performed. The history should include: (a) any family history of thyroid diseases (autoimmune and nodular) and carcinomas (medullary thyroid cancer, multiple endocrine neoplasia 2A, and colon cancer); (b) personal history, especially iodine intake, prior neck irradiation, and obstetric history; (c) signs and symptoms of thyroid dysfunction, especially changes over time in the thyroid nodule, must also be investigated; and (d) careful neck examination (Table 3).

The general recommendation to perform thyroid function tests in any patient with thyroid nodules also applies to pregnant women.15 Thus, a pregnant woman with a thyroid nodule should undergo a functional study including tests to measure TSH and free T4 levels.

If morphological changes found at examination are confirmed, thyroid ultrasound examination should be performed and, if required, work-up should be completed with FNA. Pregnancy is not a contraindication for FNA, which may be performed at any time during pregnancy. The ultrasonographic findings suggesting the need for cytological analysis are summarized as follows: (a) any nodule greater than 1cm in size; (b) nodules with ultrasonographic characteristics suggesting malignancy; (c) the rapid growth or clinical suspicion of malignancy; (d) the discovery by ultrasonography of potentially metastatic neck adenopathies; and (e) the presence of risk factors such as a family history of thyroid cancer or a history of cervical radiotherapy. However, if ultrasonographic findings suggest a benign condition, FNA of nodules may be performed after delivery.

Scintigraphy is contraindicated during pregnancy. However, according to the available information, an involuntary scintigraphy performed before week 12 of pregnancy does not appear to damage the fetal thyroid gland.1

The presence of thyroid cancer does not usually cause impaired thyroid gland function. The measurement of circulating thyroglobulin levels is of no diagnostic or prognostic interest in this setting. There is no adequate information regarding the convenience of measuring calcitonin levels during pregnancy, unless there is a family history of medullary thyroid carcinoma. Pentagastrin stimulation is contraindicated in pregnancy.

• 4.

  Should pregnant women be screened for thyroid changes?

There is increasing evidence to support the advisability of thyroid function screening and physical examination of the neck as soon as the patient knows that she is pregnant.16 The benefit of correcting thyroid dysfunctions detected during the first trimester of pregnancy clearly outweighs the cost of screening.17

Few studies are available on the relationship between thyroid nodules and autoimmunity during pregnancy, and there are thus no recommendations regarding the advisability of measuring thyroid antibodies during pregnancy. Moreover, because of immune privilege during pregnancy, circulating levels of thyroid antibodies decrease during pregnancy, which may complicate the interpretation of the results.18

• 5.

  What reference levels of thyroid hormones should be considered sufficient during pregnancy?

For the abovementioned reasons, circulating TSH levels should range from 0.1 to 2.5mU/L during the first trimester of pregnancy. During the second and third trimesters, levels should be 0.2–3.0 and 0.3–3.0mU/L respectively.1

• 6.

  How should benign nodules be monitored during pregnancy?

No special monitoring is required during pregnancy for thyroid nodules suspected of being benign based on ultrasound characteristics or found to be benign at cytological study and causing no compressive symptoms.

Repeat ultrasound examination should be performed if a nodule grows rapidly. Both in these cases and when ultrasonographic changes suggesting malignancy occur, FNA should be repeated.

Once clinical, ultrasonographic, or cytological diagnosis has been made, benign thyroid nodules require no treatment.

• 7.

  Is levothyroxine suppression treatment useful during pregnancy?

The treatment of nodular goiter with supraphysiological doses of levothyroxine is not recommended, because the suppression of TSH secretion may induce untoward adverse effects in both the mother and the fetus.19

• 8.

  When is surgery indicated for a thyroid nodule?

If ultrasonographic or cytological changes occur in previously benign nodules or the course of the nodule casts doubt on its nature, surgery is recommended. Surgery is also indicated when compressive symptoms occur.

Nodules with indeterminate (Bethesda categories 3, 4, and 5) or malignant (category 6) FNA results should undergo surgery (Table 2). Specific indications for surgery are addressed in question 12.

• 9.

  How should hyperfunctioning thyroid nodules be treated?

The treatment of hyperthyroidism in pregnant women is complex. Recommendations for the management of this condition are beyond the scope of these guidelines and have been reviewed in another publication.4 It should, however, be noted that treatment with radioactive iodine is contraindicated throughout pregnancy.

Differentiated thyroid cancer is the second leading malignant tumor during pregnancy after breast cancer, with a prevalence of 14 per 100,000births.20 In addition, 10% of all thyroid cancers occurring during childbearing age are diagnosed during pregnancy or within one year of delivery, and the most common histological type is papillar.21 The management of differentiated thyroid cancer during pregnancy poses a number of diagnostic and therapeutic challenges for both the mother and fetus.

• 10.

  Is there an increased frequency of thyroid cancer in pregnant women with thyroid nodules?

Three retrospective studies have reported an increased risk of malignancy in pregnant women with thyroid nodules. However, these studies had a patient selection bias, because they were conducted in tertiary reference hospitals where women with cancer may be overrepresented.22–24

Pregnancy may however be expected to promote the occurrence and growth of malignant nodules because of the relative iodine deficiency experienced by the mother, increased growth factors, the appearance of hormones with a stimulating activity similar to that of TSH, and high estrogen levels. The management of these patients therefore requires special consideration.

• 11.

  Does pregnancy affect the prognosis of thyroid cancer?

Most studies suggest that pregnancy does not worsen the prognosis of women diagnosed with differentiated thyroid cancer.25–31 Only one of the seven studies published addressing this issue found an increased risk of disease persistence/recurrence in women diagnosed during pregnancy or within one year of delivery.30 This finding was related to the presence of high estrogen receptor expression levels in thyroid tumor cells. However, the patient sample in this study was small and poorly representative.

In conclusion, no adequate evidence which could lead us to conclude that pregnancy worsens the prognosis of thyroid cancer is currently available. Consequently, thyroidectomy may be delayed in most pregnant patients until the postpartum period without this affecting the risk of recurrence or mortality.1

The impact of pregnancy in women with anaplastic or medullary carcinoma has not been analyzed.

• 12.

  How should differentiated thyroid cancer diagnosed during pregnancy be managed?

It should be taken into account that a conflict between the optimum treatment of the mother and fetal well-being very often exists. There is therefore an ethical dilemma. The decision as to which is the best therapeutic option should preferably be taken by a multidisciplinary team consisting of an endocrinologist, a surgeon, an obstetrician, a nuclear medicine specialist, and a neonatologist.

There are two special considerations that should be taken into account in the management of women with differentiated thyroid cancer diagnosed during pregnancy: the absolute contraindication of the administration of radioactive iodine and the choice of the time of thyroidectomy. As noted above, it is usually advisable to delay surgery until the postpartum period, as there is no adequate evidence showing that pregnancy worsens cancer prognosis.1

Thyroidectomy is recommended in the second trimester in the following cases: (a) aggressive or locally advanced histology (e.g. anaplastic or poorly differentiated carcinoma), (b) metastatic cervical lymph nodes (diagnosed by cytology), (c) severe compressive symptoms (e.g. tracheal obstruction), and (d) the significant growth of a malignant nodule (>50% in volume or >20% in diameter in two dimensions) before week 24 of pregnancy (Table 4).

If the malignant nodule does not meet the above conditions or is diagnosed toward the end of the second half of pregnancy, surgery may be delayed until the postpartum period. In such cases, it is recommended that levothyroxine suppression treatment aimed at maintaining TSH levels in the lower normal limit (0.1–1.5mU/L) be started.

Circulating TSH and free T4 levels should be monitored every month, and ultrasound examination and thyroglobulin tests should be performed every three months (Fig. 1).

• 13.

  What are the perioperative risks for the mother and fetus of thyroidectomy during pregnancy?

Figure 1.

Algorithm for the management of differentiated thyroid cancer diagnosed during pregnancy. Ca: carcinoma; US: thyroid ultrasound examination; mts: metastases; TG: thyroglobulin.

(0.22MB).

Surgery in the first trimester involves an unacceptable risk of miscarriage and impaired organogenesis. On the other hand, surgery during the third trimester is associated with an increased risk of preterm delivery. Thyroidectomy during the second trimester does therefore involve the lowest risk for the mother and fetus.32 However, if surgery is performed during pregnancy, the risk of postoperative maternal hypothyroidism (and potential hypoparathyroidism) should be taken into account.

Specific considerations are required in the management of women with a history of differentiated thyroid cancer who want to become pregnant again. Table 5 summarizes these considerations.

• 14.

  What information should be given to women with a history of differentiated thyroid cancer who desire pregnancy?

Women should be informed that pregnancy should be avoided in the 6–12months following the administration of the therapeutic dose of radioactive iodine in order to achieve the stabilization of the levothyroxine dose and to verify disease remission.2,33–35

• 15.

  What are the potential risks in women previously receiving radioiodine therapy?

Studies conducted on women previously given radioiodine for the treatment of differentiated thyroid cancer have not reported an increased risk of complications such as infertility, miscarriage, newborn mortality, congenital malformation, premature delivery, low birthweight, death in the first year of life, or cancer development.36,37

• 16.

  Can a new pregnancy increase the risk of recurrence in women with a history of thyroid cancer?

Often, the patient is mainly interested in knowing whether cancer recurrence may or may not occur as a consequence of a new pregnancy.

From the pathophysiological viewpoint, it should be noted that both HCG and estrogens induce changes in serum TSH, FT4, and thyroglobulin levels during pregnancy.7,38 Some studies have reported that estrogens may stimulate thyroglobulin gene expression, particularly during the third trimester, increasing potential thyroglobulin production in differentiated thyroid cancer. This occurs without stimulating proto-oncogene c-Myc and without promoting rapid cell proliferation.39,40 Moreover, some clinical studies suggest that circulating thyroglobulin levels may increase in the absence of a concomitant tumor, which may be a confounding factor.40.41

Several studies, three of them published in the past five years, have assessed the impact of pregnancy in women with a history of differentiated thyroid cancer.40,42–44 Leboeuf et al.40 studied 36 women who had become pregnant a mean of 4.3 years after initial treatment for differentiated thyroid cancer. After delivery, eight of these women had thyroglobulin levels 20% greater than those found before pregnancy. Three of these women had active disease, and five had no evidence of disease. However, no recurrence was found in the early postpartum period in women with negative neck ultrasound whose serum thyroglobulin levels were less than 3.2ng/mL.

Data from these studies suggest that pregnancy involves no risk of recurrence in women with no evidence of biochemical or structural disease before pregnancy. However, as previously noted (question 11), it has not been completely ruled out that pregnancy may represent a stimulus in patients with active disease.1

In any woman with hypothyroidism, it is crucial to maintain thyroid hormone levels within the specific reference intervals throughout pregnancy. Various studies have shown that even mild hypothyroidism is associated with adverse effects for the mother and fetus.45 Thyroid hormone replacement requirements usually increase by 20–40%, which makes adjustment indispensable in the first eight weeks.46,47 In addition, other routinely used supplements, such as iron and calcium, may alter levothyroxine absorption.

• 17.

  How should the levothyroxine dose be adjusted?

Thyroid hormone levels should always be measured when pregnancy is documented. Thyroid function tests should initially be repeated every four weeks until week 16–20, and then once between weeks 26 and 32. If an adjustment of the levothyroxine dose is required, thyroid hormones should be assessed again four weeks later.1

To provide guidance, it may be noted that mean increases in levothyroxine dose as compared to the pregestational dose over the three trimesters of pregnancy are 9%, 21%, and 26% respectively.

• 18.

  Should TSH suppression be maintained during pregnancy?

Goal TSH levels during pregnancy do not change as compared to before pregnancy. In low risk patients (T1-T2, N0, M0, with no aggressive histology), the goal is to achieve TSH levels ranging from 0.3 to 1.5mU/L. In patients with no evident biochemical or structural disease but with risk factors at diagnosis (T3-T4, N1, M1, or with an aggressive histology), the goal is to maintain circulating TSH levels ranging from 0.1 to 0.5mU/L. It should be noted, however, that if the risk of disease before pregnancy makes the maintenance of suppressed circulating TSH levels advisable, the same caution should be exercised during pregnancy, the levothyroxine dose being adjusted as appropriate.1 A study conducted on 25,765 women, 433 of whom had subclinical hyperthyroidism, was very illustrative of the adverse effects of this measure. Low TSH levels did not correlate to adverse effects in any of the women.48

• 19.

  Should iodine supplements be used?

Despite prior thyroidectomy, patients with a history of thyroid cancer, like all other pregnant women, should take at least 250μg/day of iodine during pregnancy and breast-feeding.49 In these cases, iodine supplements are administered to the mother to cover the requirements of the fetal thyroid.1

• 20.

  How should monitoring be performed?

Most pregnant women with low-risk differentiated thyroid cancer only require monitoring of circulating TSH levels and adjustments of treatment, when needed, as well as an examination every three months.45 Neither thyroglobulin measurement nor ultrasonography is required.1

However, women with high thyroglobulin levels before pregnancy or with morphological evidence of disease should be monitored with thyroglobulin tests and neck ultrasound in every trimester of pregnancy.1

• 21.

  What considerations should be taken into account during breast-feeding?

Breast-feeding may be safe in women with a history of differentiated thyroid cancer.15 It should, however, be noted that radioiodine should not be administered during lactation and until at least four weeks after its discontinuation,2 because the lactating breast concentrates a significant amount of iodine.15 However, it is advisable to delay radioiodine administration until three months after breast-feeding has been stopped to ensure the normalization of the increased activity of the sodium-iodine symporter caused by lactation.50 If urgent treatment is needed, 123I scintigraphy may be performed to assess breast residual uptake. Treatment should be delayed if a higher than normal radioactivity level is found.

Involution of the lactating breast is variable, and there is evidence that bromocriptine is able to accelerate it.51 This drug may be prescribed in special cases “outside of its specified indications for use”.15 Breast-feeding cannot, of course, be resumed after radioiodine administration.