Increased incidence of euthyroid and hyperthyroid goiters independently of thyrotropin in patients with acromegaly

The incidence of palpable goiters, the thyroid functional state and thyroid radioisotope uptake was analyzed retrospectively in 80 patients with acromegaly and 80 patients with prolactinomas. 71% of all patients with acromegaly had an enlargement of the thyroid (goiter); 49% of them had diffuse and 39% nodular goiters. The incidence of goiters in patients with prolactinomas from the same iodine deficient geographic region was only 35% (82% diffuse and 18% nodular). 17.5% of acromegalic patients underwent thyroid surgery before diagnosis of growth hormone excess. 17.5% of acromegalic patients with goiters had autonomous areas in their thyroids and 5% were clearly hyperthyroid. Goiters developed slightly more often in females (74%) than in males (67%). The mean preoperative growth hormone level was higher in acromegalic patients with goiter. The incidence of goiters was positively correlated with the documented time of elevated growth hormone concentration in serum. Two patients with exaggerated response of thyrotropin (TSH) (delta TSH greater than 20 mU/l) to the application of thyrotropin-releasing hormone (TRH) had no goiters. On the other hand most patients (61%) with goiters had a low TSH-response to TRH (delta TSH less than 10 mU/l) representing in part occult autonomy of thyroid function. No patient with prolactinoma has had previous thyroid surgery nor thyroid autonomy. One patient with prolactinoma suffered from Graves' disease and none of the acromegalic patients had this disease. We finally conclude that the elevation of growth hormone leads to increased incidence of euthyroid and hyperthyroid (autonomous) goiters independently of the influence of TSH.     

Ophthalmic Graves's disease: natural history and detailed thyroid function studies.

Of 27 patients with ophthalmic Graves''s disease (OGD) who had been clinically euthyroid three years previously, one became clinically hyperthyroid and seven overtly hypothyroid. Improvement in eye signs was associated with a return to normal of thyroidal suppression by triiodothyronine (T3) and of the response of thyroid-stimulating hormone (TSH) to thyrotrophin-releasing hormone (TRH). Of a further 30 patients with OGD who had not been studied previously, three were overtly hypothyroid. Of the combined series, 46 patients were euthyroid, 18 (40%) of whom had an impaired or absent TSH response to TRH, and 3(6-7%) an exaggerated response. Eleven out of 37 patients (29-7%) had abnormal results in the T3 suppression test. There was a significant correlation between thyroidal suppression by T3 and the TSH response to TRH. Total serum concentrations of both T3 and thyroxine (T4) were closely correlated with T3 suppressibility and TRH responsiveness. Free T4 and T3 (fT3) concentrations were normal in all but three patients, in whom raised fT3 was accompanied by abnormal TSH responses and thyroidal suppression. The presence of normal free thyroid hormone concentrations in patients with impaired or absent TSH responses to TRH is interesting and challenges the concept that free thyroid hormones are the major controlling factors in the feedback control of TSH.     

Clinical importance of reversibility in primary goitrous hypothyroidism.

Twenty seven hypothyroid patients with a serum concentration of thyroid stimulating hormone (TSH) of over 40 mU/1 were followed up for three to 20 weeks without replacement therapy. The serum thyroid hormone concentrations increased with a dramatic decrease in serum TSH values in 14 patients (reversible group) but there was no significant change in the other 13 (irreversible group). Fourteen out of 19 patients with goitre but none of the eight patients without goitre belonged to the reversible group. All of the 11 patients with a high uptake of iodide by the thyroid, three of the six with a normal uptake, and none of the 10 with a low uptake belonged to the reversible group. These observations indicate that patients with goitrous hypothyroidism with a preserved thyroid uptake of iodide are likely to become euthyroid spontaneously without replacement therapy.     

Effect of repeated stimulation by thyrotropin-releasing hormone (TRH) on thyrotropin and prolactin secretion in perfused euthyroid and hypothyroid rat pituitary fragments

The previously reported refractoriness of pituitary response to thyrotropin-releasing hormone (TRH) stimuli was investigated here in an in vitro perfusion system using pituitary tissue from euthyroid and hypothyroid rats. Thyroid-stimulating hormone (TSH) and prolactin (PRL) responses to TRH (28 pmol) were significantly greater in hypothyroid tissue compared with euthyroid. Hypothyroid tissue showed a reduction in response to two consecutive stimuli in both TSH and PRL, however the TSH decline in response was more marked than PRL. Euthyroid tissue showed no significant decline in response to TRH. An increase in the dose of TRH (112 pmol), administered to euthyroid tissue, resulted in increased TSH and PRL response, but no decline in response to sequential stimuli was observed. Three consecutive stimuli by TRH (28 pmol) of hypothyroid tissue resulted in a consistent decline in TSH response. The decline in PRL response only reached statistical significance by the third stimulation. Euthyroid and hypothyroid pituitary tissue was subjected to sequential depolarising stimulation with KCl (50 mumol). Euthyroid tissue showed no decline in response in either TSH or PRL. In hypothyroid tissue only, the decline in TSH response reached statistical significance. This decline in TSH response was significantly smaller than the decline in response observed in hypothyroid tissue stimulated with TRH. Refractoriness of hypothyroid pituitary tissue to repeated TRH stimuli is reported here. Our data suggest that the decline in hormonal response cannot be explained solely on the basis of tissue depletion.     

Transient hypothyroidism associated with increased anti-microsomal antibodies.

An unusual case of transient hypothyroidism during the course of chronic thyroiditis was reported. A 25 years old female noticed the remarkable enlargement of thyroid gland 3 months after paturition and was developed to be hypothyroidism with decreased blood thyroid hormone and increased serum TSH. The patient recovered to be euthyroid spontaneously in association with the decrement of goiter size. Anti-thyroid microsomal antibody increased concomitantly with hypothyroid period and decreased parallel with the recovery of thyroid function. The ratio of TSH potency estimated by bioassay to that by immunoassay changed during the course. Possible etiologic factors of this transient changes were discussed.     

Dominant role of thyrotropin-releasing hormone in the hypothalamic-pituitary-thyroid axis

Hypothalamic thyrotropin-releasing hormone (TRH) stimulates thyroid-stimulating hormone (TSH) secretion from the anterior pituitary. TSH then initiates thyroid hormone (TH) synthesis and release from the thyroid gland. Although opposing TRH and TH inputs regulate the hypothalamic-pituitary-thyroid axis, TH negative feedback is thought to be the primary regulator. This hypothesis, however, has yet to be proven in vivo. To elucidate the relative importance of TRH and TH in regulating the hypothalamic-pituitary-thyroid axis, we have generated mice that lack either TRH, the beta isoforms of TH receptors (TRbeta KO), or both (double KO). TRbeta knock-out (KO) mice have significantly higher TH and TSH levels compared with wild-type mice, in contrast to double KO mice, which have reduced TH and TSH levels. Unexpectedly, hypothyroid double KO mice also failed to mount a significant rise in serum TSH levels, and pituitary TSH immunostaining was markedly reduced compared with all other hypothyroid mouse genotypes. This impaired TSH response, however, was not due to a reduced number of pituitary thyrotrophs because thyrotroph cell number, as assessed by counting TSH immunopositive cells, was restored after chronic TRH treatment. Thus, TRH is absolutely required for both TSH and TH synthesis but is not necessary for thyrotroph cell development.     

Congenital iodide organification defect accompanied by a large nodular goiter: a case report

A girl who had a nontoxic diffuse goiter with a congenital organification defect of iodide was first seen at the age of 8 years, and since then she has been followed up for a long period. The nodularity of the thyroid gland had gradually progressed, because of intermittent failure of ingestion of thyroid hormone preparation which was followed by excess TSH secretion. 18 years later, a nodular goiter developed and the patient underwent subtotal thyroidectomy. In order to prevent the development of nodular change in the thyroid gland in this disorder, supplemental thyroid hormone medication should be started as soon as the diagnosis is confirmed, and the therapy should be carried out regularly.     

The use of intramuscularly administered methyl-TRH to evaluate the pituitary-thyroid axis.

The present study was carried out to evaluate the effectiveness of intramuscular administration of methyl-TRH, a potent analogue of thyrotropin-releasing hormone, for assessing pituitary reserve of TSH and prolactin and for distinguishing euthyroid, hypothyroid and hyperthyroid individuals. Serum samples were taken for 24 hours after intramuscular injection of methyl-TRH, 200 microgram, in 19 euthyroid subjects, 9 hypothyroid men and 9 hyperthyroid men. The mean serum prolactin and TSH concentrations were significantly elevated over baseline levels at 30 min in the euthyroid individuals and remained elevated for 3 to 4 hours. The serum TSH, T3 and T4 responses after intramuscular methyl-TRH in euthyroid subjects were clearly distinguishable from those of hyperthyroid and hypothyroid patients. Significant elevation of the serum T3 and T4 concentrations at 24 hours after intramuscular injection of methyl-TRH shows the sustained effect of this TRH analogue in euthyroid subjects.     

Effect of lithium on hypothalamic-pituitary-thyroid function in patients with affective disorders.

Hypothalamic-pituitary-thyroid (H.P.T.) function was assessed in 17 patients on maintenance doses of lithium carbonate for a mean period of 21 months (range 1-67 months) and by serial studies on four patients from the start of lithium treatment for a maximum of six months. An exaggerated thyrotrophin (TSH) response to intravenous thyrotrophin-releasing hormone (TRH) occurred in 14 of the 17 patients on maintenance treatment, though basal TSH levels were raised in only three. Two of the three patients were clinically and biochemically hypothyroid and showed a delayed recovery of normal H.P.T. function after lithium was stopped. There were no significant differences in thyroid hormone or basal TSH levels between the euthyroid lithium-treated.     

Diagnostic value of thyrotrophin releasing hormone tests in elderly patients with atrial fibrillation.

A prospective study was carried out to compare clinical and biochemical thyroid states with responses of thyroid stimulating hormone (TSH) to thyrotrophin releasing hormone (TRH) in elderly patients with either atrial fibrillation (n = 75; mean age (SD) 79.3 (6.0) years) or sinus rhythm (n = 73; mean age 78.4 (5.6) years) admitted consecutively to the department of geriatric medicine. No patient in either group had symptoms or signs of hyperthyroidism. Overall, the TSH responses to TRH did not differ significantly between the two groups. Ten (13%) of the patients with atrial fibrillation (of whom four had raised thyroid hormone concentrations) and five (7%) of the patients with sinus rhythm showed no TSH response to TRH while 26% of each group (20 and 19 patients, respectively) showed a much reduced response. Only one of 13 patients with apparently isolated atrial fibrillation showed no TSH response to TRH, and none of these 13 patients was hyperthyroid. In particular, three patients (two with atrial fibrillation and one with sinus rhythm) who showed no TSH response to TRH at presentation exhibited a return of TSH response to TRH at follow up six weeks later. In conclusion, reduced or absent TSH responses to TRH are common in sick elderly patients whether they have atrial fibrillation or sinus rhythm and whether they are euthyroid or hyperthyroid biochemically. An absence of response is therefore an uncertain marker of hyperthyroidism in these groups of patients, and diagnosis and ablative treatment should be based at least on the presence of raised circulating free triiodothyronine or free thyroxine concentrations, or both.     

Clinical usefulness and limitations of serum thyrotropin measurement by 'ultrasensitive' methods. Comparisons of five kits

Five different ultrasensitive thyrotropin (TSH) assay kits (Boots-Celltech, Immunotech, ORIS-CIS, Travenol and Boehringer) have been used for TSH measurements in various conditions. All the kits were based on an immunometric method but differed with regard to components and procedure. The sensitivity appeared essentially the same for the five kits (0.10 microU/ml) as well as the intraassay precision (coefficient of variation less than 12%). In contrast, the interassay coefficients of variation in the low TSH range varied from 12.8 to 21.3%. Discrepancies from kit to kit were observed and accounted for by differences in the components and procedure of the kits. Basal serum TSH was determined in normal subjects (n = 261) and in patients with thyroid dysfunction (n = 392). No overlap was shown between normals and patients with overt hypothyroidism. In contrast, an overlap existed between normals and hyperthyroids for all the kits but one. Measurements in patients with nontoxic goiter showed that TSH may be undetectable in clinically euthyroid patients, whatever the kit used. After TRH stimulation, 95% of the 375 patients tested associated either an absence of response to TRH with undetectable basal TSH values, or a blunted response with low basal TSH levels or normal response with normal basal TSH concentrations. However, 9 patients with suppressed TSH showed a response to TRH and 7 patients with normal basal TSH levels presented an exaggerated response to TRH. Taken together, these results demonstrate that even though ultrasensitive measurements of TSH do not meet the expectation of completely discriminating euthyroid from hyperthyroid patients, ultrasensitive TSH assay kits represent a powerful tool in the diagnosis of thyroid dysfunction, which would eliminate, in most instances, the need for TRH test and diminish thyroid hormone assay requests.     

Impaired serum thyrotropin response to hypothyroidism in mice with disruption of neuromedin B receptor

Neuromedin B (NB), a neuropeptide highly concentrated in pituitary, has been proposed to be an inhibitor of thyrotropin (TSH) secretion. Previous study showed that mice with disruption of neuromedin B receptor (NBR-KO) have higher TSH release in response to thyrotropin-releasing hormone (TRH), although TSH seems to have decreased bioactivity. Here we examined in NBR-KO mice the response of TSH to thyroid hormone (TH) deprivation, obtained by methimazole treatment, or excess, obtained by acute and chronic TH administration. In response to hypothyroidism NBR-KO mice exhibited a lower magnitude increase in serum TSH compared to wild-type (WT) mice (1.7 vs. 3.3-times increase compared to euthyroid values, respectively, P<0.001). One hour after a single T4 injection (0.4 microg/100 g BW), WT and NBR-KO hypothyroid mice presented similar degree of serum TSH reduction (54%, P<0.05). However, 3 h after T4 administration, WT mice presented serum TSH similar to hypothyroid baseline, while NBR-KO mice still had decreased serum TSH (30% reduced in comparison to hypothyroid baseline P<0.05). T3 treatment of euthyroid mice for 21 days, with progressively increasing doses, significantly reduced serum TSH similarly in WT and NBR-KO mice. Also, serum T4 exhibited the same degree of suppression in WT and NBR-KO. In conclusion, disruption of neuromedin B receptor did not interfere with the sensitivity of thyroid hormone-mediated suppression of TSH release, but impaired the ability of thyrotroph to increase serum TSH in hypothyroidism, which highlights the importance of NB in modulating the set point of the hypothalamus-pituitary-thyroid axis at hypothyroidism.     

Further data supporting episodic degenerative discharge of thyroid hormone from nodular goiters

To elucidate the features of thyroid hormone secretion under conditions of impaired circulation, blood samples were withdrawn at operation from thyroid and peripheral veins of 23 patients with thyroidal and non-thyroidal diseases. They were taken from the respective veins simultaneously, when the arterial supply to the thyroid tissue was partially occluded by surgical manipulation. It was found that triiodothyronine was preferentially, as compared with thyroxine, secreted from the thyroid, irrespective of the disease. Serum levels of thyroglobulin were also markedly elevated in the thyroid vein. These results suggest that episodic degenerative discharge of thyroid hormone from nodular goiters may be a cause of impaired or blunted TSH response to TRH, frequently observed in patients with common nontoxic nodular goiters.     

Regulation of in vivo TSH secretion by leptin

Leptin, the product of the ob gene, is a hormone secreted by adipocytes that regulates food intake and energy expenditure. The hypothalamus-pituitary-thyroid axis is markedly influenced by the metabolic status, being suppressed during food deprivation.The aim of the present study was to assess whether leptin can act as a metabolic signal connecting the adipose tissue with the pituitary-thyroid axis. We studied the effect of leptin administration (10 microg, i.c.v.) on spontaneous TSH secretion and TSH responses to TRH in euthyroid and hypothyroid food-deprived rats. Spontaneous TSH secretion was assessed over 6 h with samples taken every 7 min. Administration of leptin to food-deprived euthyroid rats led to a reversal of the inhibitory effect exerted by fasting on spontaneous TSH secretion. This stimulatory effect of leptin on spontaneous TSH appears to be dependent on the thyroid status since it could not be observed in hypothyroid rats. This data suggests that blunted spontaneous TSH secretion in food-deprived rats is a functional and reversible state, and that the decreased leptin concentrations could be the primary event responsible for the suppression of the hypothalamic-pituitary-thyroid-axis in food-deprived rats.     

Thyroid dysfunction in adult long-term survivors after hemapoeitic stem-cell transplantation (HSCT).

Thyroid function was evaluated in 72 adult survivors (41 females and 31 males) at 16 to 56 years of age, 1.5 years mean time (range 0.2 - 9.8) after hemapoeitic stem cell transplantation (HSCT) with no known prior history of thyroid dysfunction. Thyroid stimulating hormone (TSH) and free thyroxin levels (FT4) were determined before and after stimulation with thyrotropin releasing hormone (TRH). Conditioning regimens for HSCT did not include TBI. Overt hypothyroidism (basal TSH > 8 microIU/ml, FT4 < 0.8 ng/dl) was observed in 6% of male patients and 5% of female patients; subclinical hypothyroidism (basal TSH 4 - 8 microIU/ml, low normal FT4 0.8 - 1.9 ng/dl) was observed in 13% of males and 5% of females. A significant number of euthyroid patients (40% males and 54% females) with normal basal TSH and FT4 levels overresponded to TRH stimulation; the finding being statistically significant (p < 0.005). A heavy TSH response after TRH stimulation indicates compensated subclinical dysfunction of the thyroid gland. Chemotherapy-only conditioning regimens may have an adverse effect on thyroid gland function not always detected by determination of basal TSH and FT4 levels. This finding warrants long-term evaluation of thyroid function in HSCT patients.     

Application of improved coupling assay method for peroxidase of diseased thyroids: report of three cases

Recently we have developed an assay method for peroxidase-catalyzed coupling of iodotyronine residues of thyroglobulin, which is applicable to human diseased thyroid tissues. In the present study, the assay method as well as usual peroxidase assay methods were applied to thyroids of three patients (No. 1: familial goiter with impaired thyroglobulin synthesis, No. 2: mild chronic thyroiditis, No. 3: dyshormonogenetic goiter) who showed organification of iodine with high TSH levels and low thyroid hormone levels in sera. In general, these patients showed relatively high activities measured by guaiacol oxidation assay, iodide oxidation and coupling assay compared with those of control thyroids. Iodothyronine content in thyroglobulin was very low except thyroxine in No. 2. These results indicate that factors other than peroxidase may be responsible for the cause of the hypothyroid state. The coupling assay method used here is therefore useful for the detection of the 'coupling defect' in patients in a hypothyroid state.     

Thyroid hormone modulation of TRH precursor levels in rat hypothalamus, pituitary, thyroid and blood

In the present study we have examined the in vivo effects of thyroid hormones and TRH on tissue and blood levels of TRH and TRH-Gly (pGlu-His-Pro-Gly), a TRH precursor. Using specific radioimmunoassays (RIAs), we measured TRH immunoreactivity (TRH-IR) and TRH-Gly-IR concentrations in blood, hypothalamus, anterior and posterior pituitary, and thyroid in euthyroid, hypothyroid and thyroxine (T4)-treated 250 g male Sprague-Dawley rats. TRH-Gly-IR and TRH-IR were detected in all of these tissues. Highly significant positive correlations between whole blood TRH-Gly-IR levels and the corresponding serum TSH values (p less than 0.01), whole blood TRH-IR versus serum TSH (p less than 0.01) and whole blood TRH-Gly-IR versus whole blood TRH-IR (p less than 0.01) are consistent with cosecretion of TRH and TRH precursor peptides into the circulation. Euthyroid rats injected with TRH IP (1 microgram/100 g b.wt.) and hypothyroid rats had 4-fold higher whole blood TRH-Gly-IR levels compared to euthyroid controls (p less than 0.0005). Injection of TRH into euthyroid rats significantly increased the TRH-Gly-IR concentration in the hypothalamus, anterior and posterior pituitary and thyroid. The increase in blood TRH-Gly-IR following intravenous TRH may be due, in part, to partial saturation of TRH-degrading enzymes in blood and cell membranes. The ratio of TRH-Gly to TRH was significantly increased in the anterior pituitary by hypothyroidism and TRH injection, suggesting that thyroid hormones and TRH regulate the alpha-amidation of TRH-Gly to form TRH in this tissue. TRH-Gly levels of pooled pituitary and thyroid extracts quantitated by a combination of TRH-Gly RIA and high performance liquid chromatography (HPLC) revealed several-fold increases following incubation at 60 degrees C. Heating at this temperature may block the alpha-amidation activity in extra-hypothalamic tissues but not the "trypsin-like" enzymes which cleave prepro-TRH into TRH-Gly-immunoreactive peptides.     

Evidence that thyroxine inhibits either basal or TRH-induced TSH secretion only after conversion to triiodothyronine

When TRH was administered every 15 min for 2 hr in euthyroid rats, equivalent modestly supraphysiologic doses of either T4 or T3 suppressed TRH-induced TSH secretion after 45 min. Pretreatment with iopanoic acid blocked the ability of T4 but not of T3 to suppress TRH-induced TSH secretion 2 hr after administration of the respective thyroid hormone. Pretreatment with iopanoic acid also blocked the ability of T4, but not of T3, to depress the elevated basal plasma TSH concentration of hypothyroid rats within 2 hr. Propylthiouracil did not significantly inhibit the ability of T4 to depress TRH-induced TSH secretion and only slightly depressed the ability of T4 to reduce the elevated plasma TSH of hypothyroid rats. Our data support the concept that although equivalent physiologic doses of T4 or T3 inhibit basal or TRH-induced TSH secretion equally rapidly, TSH inhibition produced by T4 is probably dependent on its rapid conversion to T3, either within the pituitary or peripherally. T3 thus seems to be exerting almost all the negative feedback effects on TSH secretion under the conditions of our experiments.     

Effect of bromocryptine on the secretion of thyrotropic hormone (TSH), prolactin (Pr), human growth hormone (HGH), thyroxine (T4) and triiodothyroxine (T3) in hypothyroidism.

Bromocryptine (CB-154) virtually abolished the rise of serum Pr after TRH stimulation in hypothyroid and euthyroid subjects. The response of serum TSH to TRH stimulation was significantly depressed in hypothyroid but not in euthyroid subjects. No significant changes of serum HGH, T4 and T3 after CB-154 were observed. The dual mode of action of CB-154 in pituitary and hypothalamus is discussed.     

TSH and prolactin secretions in Hashimoto's thyroiditis following withdrawal of thyroid hormone therapy

Changes in the pituitary-thyroid axis in patients with Hashimoto's thyroiditis following withdrawal of thyroid suppressive therapy were analyzed. The group of patients with thyroid adenoma served as control (group I). Patients with Hashimoto's thyroiditis were divided into 2 groups on the basis of serum TSH levels 8 weeks after discontinuing the exogenous thyroid hormone (group II, less than 10 microunits/ml; group III, more than 10 microunits/ml). During treatment with L-T4(200 micrograms/day) or L-T3(50 micrograms/day), there was no significant difference in serum T4-I and T3 levels among the three groups. Following L-T4 withdrawal, basal serum TSH levels were higher at 2 to 8 weeks in groups II and III than in group I. Serum TSH response to TRH was greater at 4 to 8 weeks in groups II and III than in group I. Following L-T3 withdrawal, basal serum TSH levels were higher at 1 and 2 weeks in group II than in group I, while those of group III were consistently higher during the study. Higher TSH responses to TRH were observed at 1 to 8 weeks in groups II and III. Neither basal nor TRH-induced prolactin (PRL) secretion differed significantly among the three groups. We have demonstrated that pituitary TSH secretion in patients with Hashimoto's thyroiditis is affected more by withdrawal of thyroid hormone therapy than in patients with thyroid adenoma. In addition, the present findings suggest a difference between the sensitivity of thyrotrophs and lactotrophs in Hashimoto's thyroiditis after prolonged thyroid therapy is discontinued.