Thyroid function and human reproductive health.

Via its interaction in several pathways, normal thyroid function is important to maintain normal reproduction. In both genders, changes in SHBG and sex steroids are a consistent feature associated with hyper- and hypothyroidism and were already reported many years ago. Male reproduction is adversely affected by both thyrotoxicosis and hypothyroidism. Erectile abnormalities have been reported. Thyrotoxicosis induces abnormalities in sperm motility, whereas hypothyroidism is associated with abnormalities in sperm morphology; the latter normalize when euthyroidism is reached. In females, thyrotoxicosis and hypothyroidism can cause menstrual disturbances. Thyrotoxicosis is associated mainly with hypomenorrhea and polymenorrhea, whereas hypothyroidism is associated mainly with oligomenorrhea. Thyroid dysfunction has also been linked to reduced fertility. Controlled ovarian hyperstimulation leads to important increases in estradiol, which in turn may have an adverse effect on thyroid hormones and TSH. When autoimmune thyroid disease is present, the impact of controlled ovarian hyperstimulation may become more severe, depending on preexisting thyroid abnormalities. Autoimmune thyroid disease is present in 5-20% of unselected pregnant women. Isolated hypothyroxinemia has been described in approximately 2% of pregnancies, without serum TSH elevation and in the absence of thyroid autoantibodies. Overt hypothyroidism has been associated with increased rates of spontaneous abortion, premature delivery and/or low birth weight, fetal distress in labor, and perhaps gestation-induced hypertension and placental abruption. The links between such obstetrical complications and subclinical hypothyroidism are less evident. Thyrotoxicosis during pregnancy is due to Graves' disease and gestational transient thyrotoxicosis. All antithyroid drugs cross the placenta and may potentially affect fetal thyroid function.

Is the management of thyroid nodules and differentiated thyroid cancer in accordance with recent consensus guidelines? - Results of a national survey.

OBJECTIVE: To assess approaches to patients with a potentially malignant thyroid nodule and patients with differentiated thyroid carcinoma and compare them with the European Consensus and Guidelines by the American Thyroid Association. DESIGN: A survey of the 388 active members of the Belgian Thyroid Club. METHODS: A questionnaire addressing the management of an index case and four clinical variations (including variations in the size of the tumour and histological type). The index case was a 40-year-old euthyroid woman with a 3-cm solitary thyroid nodule. Fine-needle aspiration (FNA) cytology showed cellular aspirates with numerous follicular cells and no colloid. RESULTS: The overall response rate was 41%. For the index case, respondents favoured a right lobectomy. Variations in size and histopathology of the nodule altered the management. In the case of a papillary thyroid carcinoma (PTC) of 3 cm in diameter, a total thyroidectomy and prophylactic central lymph node dissection was preferred. After a lobectomy showing a 3.5-cm follicular thyroid carcinoma (FTC), completion surgery followed by radioiodine administration was the most frequent proposal. For the follow-up of the index case with a low-risk disease, determination of serum thyroglobulin (Tg) after recombinant human TSH (rhTSH) administration was considered by the majority of respondents. For the follow-up of a clinical variation with residual disease, immediate planning of a new treatment was (mistakenly) not considered by a majority of respondents. CONCLUSIONS: In most cases, respondents were in accordance with the guidelines, although there were some unexpected variations.

[Status of iodine nutrition in France: prevention of iodine deficiency in pregnant and lactating women]. / Apport iodé en France: prévention de la carence iodée au cours de la grossesse et l'allaitement.

Iodine intake varies with age and physiological status: in pregnant and lactating women, recommended iodine intake ranges from 200 to 250 mg/day. Recent epidemiological studies in France demonstrate the presence of moderate iodine deficiency in the majority of pregnant and lactating women. This iodine deficiency induces maternal thyroid hyperplasia and then development of goiter in women, as well as impaired thyroid parameters. Maternal hypothyroxinemia during the first trimester of pregnancy can be associated with abnormal cognitive development and intellectual outcomes in the newborn and the children. According to the recent World Health Organization recommendations for the prevention and control of iodine deficiency in pregnant and lactating women, systematic iodine supplementation is indicated in France: 100 microg/day for women of reproductive age and 200 microg/day in pregnant and lactating women in order to eradicate iodine deficiency during pregnancy and lactation, and prevent the maternal and fetal consequences.

Is systematic screening for thyroid disorders indicated in subfertile men?

CONTEXT: Data on the prevalence of thyroid disorders in male subfertility remain scarce. OBJECTIVE: To investigate the prevalence of thyroid dysfunction and thyroid autoimmunity in men with normal and abnormal semen characteristics. SETTING: Tertiary referral center for reproductive medicine of the University Hospital AZ-VUB, Brussels, Belgium. PATIENTS AND DESIGN: Two hundred and ninety-two men were stratified according to the presence of normal (group 1; n = 39) or abnormal (group 2; n = 253) semen characteristics. Thyroid function was assessed by serum thyrotropin (TSH) and free thyroxine (FT4), and thyroid peroxidase antibodies (TPO-Ab) for thyroid autoimmunity (TAI or TPO-Ab > 34 kU/l); both were correlated with semen characteristics. MAIN OUTCOME MEASURES: Semen characteristics were determined by World Health Organisation criteria (rapid + slow motility > or = 50% and concentration > or = 20 x 10(6)) and Kruger criteria (morphology > or = 14% normal cells). RESULTS: In group 1, the mean (+/- s.d.) age was 33 +/- 4 years; serum TSH was 1.6 (0.3-29.6) mU/l (median (range)) and FT4 was 12.2 (8.8-15.6) ng/l. In group 2, the mean age was 33 +/- 5 years, serum TSH was 1.3 (0.3-5.2) mU/l and FT4 was 12.5 (8.4-17.5) ng/l; (compared with group 1 P = 0.008 for TSH and P = 0.037 for FT4). In both groups, one patient had increased TSH (2.6% and 0.4%; P = not significant (ns)). In group 1, one patient had TAI and in group 2 twelve patients had TAI (2.6% compared with 4.7%; P = ns). FT4 was an independent determinant for semen characteristics. CONCLUSIONS: The prevalence of thyroid dysfunction and autoimmunity is comparable between men with normal and abnormal semen characteristics. On the basis of these data, we do not advise systematic screening for thyroid disorders in subfertile men consulting a tertiary referral center for reproductive medicine.

Thyroid autoimmunity and female infertility.

In infertile women, the prevalence of thyroid autoimmunity (TAI) is significantly higher compared to that in parous age-matched women. This is especially the case in women with endometriosis and the polycystic ovarian syndrome. TAI does not interfere with normal fetal implantation and comparable pregnancy rates have been observed after assisted reproductive technology (ART) in women with and without TAI. During the first trimester however, pregnant women with TAI carry a significantly increased risk for a miscarriage compared to women without TAI, even when euthyroidism was present before pregnancy. It has further been demonstrated that controlled ovarian hyperstimulation (COH) in preparation for ART has a significant impact on thyroid function, particularly in women with TAI. It is therefore advised to measure thyroid function and detect TAI in infertile women, before ART, and to follow-up these parameters after COH and during pregnancy when TAI was initially present. Women with thyroid dysfunction before or at early gestation stages should be treated with 1-thyroxine to avoid assisted pregnancy or further pregnancy complications. Whether thyroid hormones should be given prior to or during pregnancy in euthyroid women with TAI remains controversial and needs further investigation.

Feto-maternal repercussions of iodine deficiency during pregnancy. An update.

The main changes in thyroid function associated with the pregnant state are increased thyroid hormone requirements. These increased requirements can only be met by a proportional increase in hormone production, that directly depends upon the availability of dietary iodine. When the iodine intake is adequate, normal "physiological" adaptation takes place. When the intake is restricted, physiological adaptation is progressively replaced by pathological alterations, in parallel with the degree of iodine deprivation, leading to excessive glandular stimulation, hypothyroxinemia, and goiter formation. Thus, pregnancy acts typically as a revelator of underlying iodine restriction and gestation results in an iodine deficient status, even in conditions with only a moderately restricted iodine intake, characteristic of many European regions. Iodine deficiency during pregnancy has important repercussions for both mother and fetus, namely thyroid underfunction and goitrogenesis. Furthermore, iodine deficiency may be associated with alterations of the psychoneuro-intellectual outcome in the progeny. The risk of an abnormal progeny's development is further enhanced because mother and offspring are exposed to iodine deficiency, both during gestation and the postnatal period. Because iodine deficiency is still prevalent in many European regions and remains a subject of great concern, investigators have proposed, since several years, that iodine prophylaxis be introduced systematically during pregnancy, in order to provide mothers with an adequate iodine supply. In areas with a severe iodine deficiency, correcting the iodine lack has proved highly beneficial to prevent mental deficiency disorders. The many actions undertaken to eradicate severe iodine deficiency have allowed to prevent the occurrence of mental retardation in millions young infants throughout the world. In most public health programmes dealing with the correction of iodine deficiency disorders, iodized salt has been used as the preferred strategy in order to convey the iodine supplements to the household. Iodized salt, however, is not the ideal vector in the specific instance of pregnancy (or breastfeeding) or in young infants, because of the necessity to limit salt intake. Hence, particular attention is required in our countries to ensure that pregnant women have an adequate iodine intake, by administering multi-vitamin tablets containing iodide supplements (+125 micro g/d). Finally, it is with some concern that the results of a recent nutritional survey in the USA have disclosed that iodine deficiency, long thought to have been eradicated since many years, may actually show a resurgence, particularly in women in the child-bearing period. This issue needs to be considered seriously by the medical community and public health authorities.

Potential consequences of maternal hypothyroidism on the offspring: evidence and implications.

The adequate functioning of both the maternal and fetal thyroid glands plays important roles to ensure that the fetal neuropsychointellectual development progresses normally. Three sets of clinical disorders ought to be envisaged, potentially leading to impaired brain development: defective glandular ontogenesis (leading to congenital hypothyroidism), maternal hypothyroidism (usually related to chronic autoimmune thyroiditis), and finally iodine deficiency (affecting both the maternal and fetal thyroid functions). The present review will be focused mainly on maternal hypothyroidism, where both the severity and temporal occurrence of maternal thyroid underfunction drive the resulting repercussions for an impaired fetal neuronal development: such clinical situations may take place during early gestation (in women with known but untreated hypothyroidism) or appear only during later gestational stages (in women with thyroid antibodies, who remain euthyroid during the first half of gestation). Recent available evidence and its implications are discussed, as well as our present concepts relating to the complexities of the fetomaternal thyroid relationships, and the potential impact of maternal thyroid function abnormalities on the ideal offspring's development.

Pregnancy and iodine.

Hormonal changes and metabolic demands during pregnancy result in profound alterations in the biochemical parameters of thyroid function. For thyroid economy, the main events occurring during pregnancy are a marked increase in serum thyroxine-binding globulin levels; a marginal decrease in free hormone concentrations (in iodine-sufficient areas) that is significantly amplified when there is iodine restriction or overt iodine deficiency; a frequent trend toward a slight rise in basal thyrotropin (TSH) values between the first trimester and term; a transient stimulation of the maternal thyroid gland by elevated levels of human chorionic gonadotropin (hCG) resulting in a rise in free thyroid hormones and decrement in serum TSH concentrations during the first trimester; and finally, modifications of the peripheral metabolism of maternal thyroid hormones. Together, metabolic changes associated with the progression of gestation in its first half constitute a transient phase from preconception steady state to pregnancy steady state. In order to be met, these metabolic changes require an increased hormonal output by the maternal thyroid gland. Once the new equilibrium is reached, increased hormonal demands are maintained until term, probably through transplacental passage of maternal thyroid hormones and increased turnover of maternal thyroxine (T4), presumably under the influence of the placental (type 3) deiodinase. For healthy pregnant women with iodine sufficiency, the challenge of the maternal thyroid gland is to adjust the hormonal output in order to achieve the new equilibrium state, and thereafter maintain the equilibrium until term. In contrast, the metabolic adjustment cannot easily be reached during pregnancy when the functional capacity of the thyroid gland is impaired because of iodine deficiency. The ideal dietary allowance of iodine recommended by World Health Organization (WHO) is 200 microg of iodine per day for pregnant women. In conditions with iodine restriction, enhanced thyroidal stimulation is revealed by relative hypothyroxinernia and goitrogenesis. Goiters formed during gestation may only partially regress after parturition. Pregnancy, therefore, represents one of the environmental factors that may help explain the higher prevalence of goiter and thyroid disorders in women compared with men. An iodine-deficient status in the mother also leads to goiter formation in the progeny and neuropsycho-intellectual impairment in the offspring. When adequate iodine supplementation is given early during pregnancy, it allows for the correction and almost complete prevention of maternal and neonatal goitrogenesis. In summary, pregnancy is accompanied by profound alterations in the thyroid economy, resulting from a complex combination of factors specific to the pregnant state, which together concur to stimulate the maternal thyroid machinery. Increased thyroidal stimulation induces, in turn, a sequence of events leading from physiological adaptation of the thyroidal economy observed in healthy iodine-sufficient pregnant women to pathological alterations affecting both thyroid function and the anatomical integrity of the thyroid gland, when gestation takes place in conditions with iodine restriction or deficiency: the more severe the iodine deficiency, the more obvious, frequent, and profound the potential maternal and fetal repercussions.

Effects of l-thyroxine administration, TSH-receptor antibodies and smoking on the risk of recurrence in Graves' hyperthyroidism treated with antithyroid drugs: a double-blind prospective randomized study.

OBJECTIVE: In Graves' hyperthyroidism treated with antithyroid drugs (ATD), the overall relapse rate reaches 30-50% following ATD discontinuation. Conflicting results have previously been reported with regard to the usefulness of combining ATD with thyroxine (l-T4), and thereafter maintaining l-T4 treatment after ATD withdrawal. Also, clinicians are in search of useful parameters to predict the risk of a recurrence of hyperthyroidism after ATD treatment. DESIGN: Eighty-two consecutive patients (70 women and 12 men; mean age 36 years) with a first episode of Graves' hyperthyroidism were investigated prospectively; they were treated with ATD for a total of 15 months, combined with l-T4 (for at least 12 months) after they had reached euthyroidism, with the aim of maintaining serum TSH below 2.5 mU/l during the combined therapy. Following ATD discontinuation, the patients were randomly assigned (double-blind placebo-controlled trial) to taking 100 microg/day l-T4 (vs placebo) for an additional year. METHODS: The following determinations were carried out at initial diagnosis: serum total T4 and tri-iodothyronine (T3), free T4 and T3, TSH, TSH-receptor antibodies (TSHR-Ab), thyroid scintigraphy and echography. During ATD treatment, serum free T4 and T3 and TSH concentrations were recorded after 1 (optional), 2, 4, 6, 9, 12 and 15 months, and echography at the end of ATD treatment. During the randomized trial, serum free T4 and T3 and TSH concentrations were checked every 3 months (or until a recurrence). TSHR-Ab titers were measured at initial diagnosis, after 6 months with ATD, and at the end of ATD treatment. RESULTS: l-T4 administration, both during and after ATD treatment, did not improve the final outcome and recurrence rates were similar in placebo and l-T4-treated patients (30%). Two parameters were identified that might be useful to help predict recurrence risks after ATD: (i) positive TSHR-Ab (at the end of ATD treatment) was significantly associated with a greatly increased recurrence risk; and (ii) despite the relatively small number of patients who were smokers, regular cigarette smoking was shown, for the first time, to be significantly associated with an increased recurrence risk. Also, the deleterious effect of smoking was shown to manifest its impact independently of TSHR-Ab titers at the end of ATD treatment. Thus, compared with the overall 30% recurrence risk, non-smoking patients with a negative TSHR-Ab (at the end of ATD) had a lower (18%) recurrence risk; smoking patients with negative TSHR-Ab (at the end of ATD) had a 57% recurrence risk; non-smoking patients with positive TSHR-Ab (at the end of ATD) had a high (86%) recurrence risk; the recurrence risk was 100% in those few patients who both smoked and maintained a positive TSHR-Ab at the end of ATD treatment. CONCLUSIONS: The present study confirmed that l-T4 administration during and after ATD withdrawal did not improve remission rate. Two factors, namely positive TSHR-Ab at the end of ATD treatment and regular smoking habits may represent clinically useful (albeit not absolute) predictors of the risk of recurrence in patients with Graves' hyperthyroidism treated with ATD. However, due to the relatively small number of smoking patients in the present cohort, this conclusion needs to be confirmed by a larger study.

[Clinical epidemiology of Basedow's disease in Belgium]. / Epidémiologie clinique de la maladie de Basedow en Belgique.

UNLABELLED: Graves' disease (GD) patients treated with antithyroid drugs (ATD) have overall relapse rates of 30-50% after ATD discontinuation. Conflicting data have been reported with regard to the usefulness of adding thyroxine (I-T4) during and after ATD treatment. Also, clinicians are still in search of useful factors to predict remission/recurrence after ATD withdrawal. Eighty two consecutive patients were treated with ATD for 15 months, combined with 12 months of I-T4. Then, patients were randomized (placebo-controlled double blind protocol) to continuing I-T4 versus a placebo for one year. RESULTS: I-T4 administration during and after ATD treatment did not affect favorably the outcome, the final recurrence rate being 31%, in both placebo and I-T4 groups. Two factors were identified as independent and synergistic markers of a significantly increased risk of recurrence after ATD withdrawal: smoking and TSH receptor antibodies (TSHR-Ab) remaining positive at the end of ATD. Non smoking patients with a negative TSHR-Ab (end ATD) had a low (18%) recurrence risk, while smoking patients also with a negative TSHR-Ab had a higher (57%) recurrence risk. Non smoking patients with a positive TSHR-Ab (end ATD) had a 86% recurrence risk. Finally, smoking patients with a positive TSHR-Ab (end ATD) all recurred within 6 months. CONCLUSIONS: 1) T4 administration after ATD withdrawal does not improve recurrence rates; 2) two parameters, smoking and positive TSHR-Ab (at end ATD), were valid--albeit not absolute-predictors of the risk of recurrence in ATD-treated patients with Graves' disease.

The potential repercussions of maternal, fetal, and neonatal hypothyroxinemia on the progeny.

The adequate functioning of both the maternal and fetal thyroid glands play an important role to ensure that the fetal neuropsycho-intellectual development progresses normally. Three sets of clinical disorders are considered, that may eventually lead to impaired brain development. Firstly, in infants with a defect of glandular ontogenesis (congenital hypothyroidism), the participation of maternal thyroid hormones to the fetal circulating thyroxine environment is normal and, therefore, risk of brain damage results exclusively from the insufficient hormone production by the abnormal fetal thyroid gland. Secondly, when it is only the maternal thyroid gland that is functionally deficient (autoimmune hypothyroidism), the severity and temporal occurrence of maternal underfunction will both drive the resulting consequences for impaired fetal neuronal development. Clinical situations of this type may obviously take place already during early gestation (in women with known but untreated hypothyroidism) or appear only during later gestational stages (in women who have AITD and remain euthyroid during the first half of gestation). Lastly, in conditions with iodine deficiency, both maternal and fetal thyroid functions are affected and, therefore, it is primarily the degree and precocity of the maternal hypothyroxinemia due to iodine deficiency during pregnancy that will drive the potential repercussions for fetal neurological development. In the present review, we summarize available data and develop our present concepts concerning the complex feto-maternal thyroid relationships and the potential impacts of thyroid function abnormalities on the ideal development of the offspring.

Clinical aspects of early and late hypocalcaemia afterthyroid surgery.

AIM: This study aimed to evaluate hypocalcaemia (time-course) and need for calcium administration after thyroid surgery in 135 consecutive cases (69 bilateral subtotal thyroidectomies, 50 unilateral lobectomies, 13 total thyroidectomies and three isthmectomies) for benign lesions and for differentiated carcinoma in 89% and 11% respectively. RESULTS: In unilateral lobectomy, two parathyroid glands were identified and preserved in 72%, and one gland in 28% of the patients; calcaemia decreased by 10% on average in the early post-operative period (P<0.001). Calcium treatment (average: 2.3 days) was administered to 34% of the patients, these patients had lower nadir post-operative calcaemia than those who did not receive calcium: 2.03 vs 2.14 mmol/l (P<0.001). Their calcaemias reverted to normal within 1 week after surgery and remained normal thereafter without further calcium administration. In bilateral procedures, four parathyroid glands were preserved in 40%, three in 42%, two in 16%, and only one in 2% of the cases. Calcaemia decreased by 15% on average (P<0.001), and early hypocalcaemia was common and severe in some patients: nadir post-operative calcaemia <2.0 mmol/l in 61%, and <1.75 mmol/l in 6% of the cases. Post-operative hypocalcaemia was more pronounced after total than subtotal thyroidectomy (1.86+/-0.19 vs 1.98+/-0.14 mmol/l P=0.014), and also after lymph node dissection (1.83+/-0.11 mmol/l). Serum parathormone (PTH) decreased from 36 ng/l before surgery to 17 ng/l in the week thereafter (P=0.001). There was a linear relationship between the number of preserved parathyroid glands and early hypocalcaemia. The percentage of patients requiring calcium treatment was: 24 h (15%), 2-7 days (26%), 8-180 days (33%), >1 year (9%). DISCUSSION: The number of parathyroid glands preserved in situ did not help predict the duration of post-surgical calcium treatment, nor the final outcome of hypocalcaemia. However, when total calcium levels were compared in patients having had one or two glands preserved vs three or four parathyroid glands, it was possible to show that despite prolonged calcium administration, late calcaemias remained significantly lower during the first 6 months in patients with a smaller number of parathyroid glands. Hypoparathyroidism, defined functionally on the basis of requirement of calcium supplementation 1 year after surgery, occurred in 8.6% of patients after bilateral lobectomy (despite measurable but inappropriately low-PTH concentration). This outcome could have been predicted earlier (after 3 to 6 months) and the patients perhaps given the benefit of definitive vitamin D treatment earlier, in order to avoid late and prolonged hypocalcaemia. Evaluation after 1 year showed that only one patient out of 82 bilateral lobectomies (1.2%) had permanent hypoparathyroidism and needed calcium whereas hypocalcaemia was persistent in one out of four patients who had undergone a staged procedure (i.e. heterolateral lobectomy years after a previous operation).

Trends in diagnostic and therapeutic criteria in Graves' disease in the last 10 years.

A questionnaire describing a typical clinical case of Graves' disease and 10 variations on it was mailed to 70 Spanish units of endocrinology with the aim of assessing the new diagnostic and therapeutic trends for hyperthyroidism caused by Graves' disease in Spain and to compare the results obtained from previous studies carried out in Europe and Spain 10 years previously. Responses indicated that thyrotrophin (98%) and free thyroxine (88%) were the most used tests in the in vitro diagnosis of Graves' disease with a significant decrease in the use of total thyroxine, total triiodothyronine, and thyroglobulin in comparison with the surveys conducted 10 years previously in Europe and Spain. The presence of antibodies against the thyrotrophin receptor was the most frequently used immune marker in the diagnosis (78%) and the new use of antithyroperoxidase antibodies (36%) in diagnosis is noteworthy. Antithyroid drugs remain the treatment of choice (98%). Surgery was used mainly for large size goitres (33%) and radioiodine for recurrences after medical (61%) or surgical (80%) treatment. In conclusion, the responses obtained from this questionnaire provide insight into current specialist diagnostic and therapeutic practices with respect to Graves' disease and which could be of value to non-specialist units of endocrinology.

Parity as a thyroid size-determining factor in areas with moderate iodine deficiency.

Among the factors that may influence thyroid size, pregnancy and its goitrogenic effect have been widely investigated, but thyroid volume and pregnancy have never been compared retrospectively, and there are no data on the possible relationship between thyroid size and parity. The purpose of this work was to evaluate the effects of pregnancy on thyroid volume in a moderate iodine deficiency area, to assess the possibility of a relationship between thyroid size and parity status in healthy females. A group of 208 nongoitrous healthy women underwent thyroid volume estimation by ultrasound examination. All subjects were euthyroid and negative for thyroid autoantibodies. They were assigned to different groups, according to the number of completed pregnancies. Five groups were formed (0, 1, 2, 3, 4 or more term pregnancies). Mean thyroid volume increased progressively among the groups: group 0 (14.8 +/- 0.7 mL); group I (16.0 +/- 0.9 mL); group II (17.1 +/- 0.6 mL); group III (18.2 +/- 0.6 mL); group IV (20.3 +/- 0.9 mL). The increment in thyroid volume was statistically significant between group 0 and groups III (P: < 0.01) and IV (P: < 0.001), and also between group I and group IV (P: < 0. 05). No independent effect of body weight and age on thyroid volume was seen. Our results indicate that, in an area with moderate iodine deficiency, the goitrogenic effect of pregnancy is not fully reversible. Moreover, the statistically significant increase in thyroid volume, observed in relation to parity, is the first clinical demonstration of a cumulative goitrogenic effect of successive pregnancies, providing a strong argument to increase the iodine supply during pregnancy, even in conditions with moderate iodine deficiency.

Successful outcome of pregnancy in a thyroidectomized-parathyroidectomized young woman affected by severe hypothyroidism.

Severe hypothyroidism was discovered in a young woman in her 29th week of pregnancy. Previously, at the age of 12 years, she had undergone thyroid surgery for Graves' disease that resulted in persistent hypothyroidism and hypoparathyroidism. After surgical excision, the patient started levothyroxine replacement therapy and had regular control of thyroid function with normal findings throughout the years. The dose of levothyroxine had not been adjusted when the pregnancy started, and at the 29th week of gestation the patient had a thyrotropin (TSH) of 72.4 microU/mL. Ultrasound studies were performed in order to monitor fetal development. The fetal parameters analyzed before the adjustment of levothyroxine therapy showed growth retardation of various degrees. All analyzed fetal parameters (biparietal diameter, cranial and abdominal circumference, humerus and femur length) improved during the last 6 weeks of gestation, showing a good correlation with the newly achieved euthyroid state of the mother. The infant was clinically euthyroid at birth and was found normal at all evaluations of the neonatal hypothyroidism screening program (1, 5, 30 days).

What happens to the normal thyroid during pregnancy?

Hormonal changes and metabolic demands during pregnancy result in profound alterations in the biochemical parameters of thyroid function. For the thyroidal economy, the main events occurring during pregnancy are: a marked increase in serum thyroxine-binding globulin levels; a marginal decrease in free hormone concentrations (in iodine-sufficient conditions) that is significantly amplified when there is iodine restriction or overt iodine deficiency; a frequent trend toward a slight increase in basal thyrotropin (TSH) values between the first trimester and term; a direct stimulation of the maternal thyroid gland by elevated levels of human chorionic gonadotropin (hCG), which occurs mainly near the end of the first trimester and can be associated with a transient lowering in serum TSH; and finally, modifications of the peripheral metabolism of maternal thyroid hormones. Together, metabolic changes associated with the progression of gestation in its first half constitute a transient phase from a preconception steady-state to the pregnancy steady-state. In order to be met, these metabolic changes require an increased hormonal output by the maternal thyroid gland. Once the new equilibrium is reached, increased hormonal demands are maintained until term, probably through transplacental passage of thyroid hormones and increased turnover of maternal thyroxine (T4), presumably under the influence of the placental (type III) deiodinase. For healthy pregnant women with iodine sufficiency, the challenge of the maternal thyroid gland is to adjust the hormonal output in order to achieve the new equilibrium state, and thereafter maintain the equilibrium until term. In contrast, the metabolic adjustment cannot easily be reached when the functional capacity of the thyroid gland is impaired (such as in autoimmune thyroid disease and hypothyroidism) or when pregnancy takes place in healthy women residing in areas with a deficient iodine intake. The ideal dietary allowance of iodine recommended by the World Health Organization (WHO) is 200 microg iodine per day for pregnant women. In conditions with iodine restriction, enhanced thyroidal stimulation is revealed by relative hypothyroxinemia and goitrogenesis. Goiters formed during gestation may only partially regress after parturition. Pregnancy, therefore, represents one of the environmental factors that may explain the higher prevalence of goiter and thyroid disorders in the female population. An iodine-deficient status in the mother also leads to goiter formation in the progeny. When adequate iodine supplementation is given early during pregnancy, it allows for the correction and almost complete prevention of maternal and neonatal goitrogenesis. In summary, pregnancy is accompanied by profound alterations in the thyroidal economy, resulting from a complex combination of factors specific to the pregnant state, which together concur to stimulate the maternal thyroid machinery. Increased thyroidal stimulation induces, in turn, a sequence of events leading from physiological adaptation of the thyroidal economy observed in healthy iodine-sufficient pregnant women, to pathological alterations, affecting both thyroid function and the anatomical integrity of the thyroid gland, when gestation takes place in conditions with iodine restriction or deficiency: the more severe the iodine deficiency, the more obvious, frequent, and profound the potential maternal and fetal repercussions.