Pituitary resistance to thyroid hormone--a case report

Pituitary resistance to thyroid hormone is a very rare cause of hyperthyroidism. It is characterized by normal, or elevated TSH concentration with high concentration of T3 and T4. Here, we present a case of a 24-year-old woman who suffered from mild thyrotoxicosis and diffuse goiter for several years. She had elevated fT3 and fT4 with slightly elevated TSH concentration. Pituitary adenoma was excluded as magnetic resonance imaging showed normal pituitary gland, alpha subunit was within normal range and TSH concentration increased after TRH administration. Sonography revealed normoechogenic, slightly enlarged thyroid gland. Previously, she was given thiamazole, but without any significant amelioration. Thus, the diagnosis of the syndrome of pituitary resistance to thyroid hormone was established. The patient was given bromocriptine at a dose of 10 mg per day. After 2 months of treatment she achieved a state of constant euthyrosis and following next few months thyroid volume diminished.     

Pitfalls in the interpretation of thyroid function tests in old age and non-thyroidal illness

In hyperthyroidism, measurement of the serum thyroxine (T4) index or free concentration often suffices to establish the diagnosis. In hyperthyroidism, including 3,3',5-triiodothyronine (T3) toxicosis, thyrotrophin (TSH) response to thyrotrophin-releasing hormone (TRH) is blunted. Sensitive measurement of serum TSH may in the future be the first-line screening test not only for primary hypothyroidism but also for hyperthyroidism. In non-thyroidal illness serum T4, reverse T3 and T3 levels change in relation to severity of disease. In mild disease, T4 is initially increases as the severity of the non-thyroidal illness increases. Reverse T3 increases and serum T3 decreases when the patients become more ill. Serum TSH response to TRH is often blunted. In old age similar changes in serum iodothyronine concentrations may take place, probably related to existing non-thyroidal illness. Also many drugs may have different effects on serum parameters of thyroid function. In acute psychiatric diseases increased serum total and free T4 levels and a blunted TRH test may be encountered.     

Erythrocyte carbonic anhydrase I concentration in patients receiving thyroxine.

We recently reported that the red blood cell (RBC) carbonic anhydrase I (CAI) concentration in patients with hyperthyroidism is reduced and reflects the patient's mean thyroid hormone level over the preceding months. In this study, RBC CAI concentrations were measured in patients with thyroid nodules who were receiving suppressive doses of thyroxine (group I) and compared with those obtained in patients with primary hypothyroidism receiving replacement doses of thyroxine (group 2). Of the 17 patients in group 1, 16 (94%) had elevated plasma free T4 levels, but all 17 had normal free T3 levels. Of the 17 patients in group 2, 16 (94%) had normal free T4 levels and all 17 had normal free T3 levels. Plasma TSH concentrations in group 1 were all below the lower limit of sensitivity of 0.04 mU/l. In group 2, 11 had normal and 6 had slightly elevated plasma TSH concentrations. The mean (+/- SD) RBC CAI concentration in group 1 (300 +/- 53 nmol/g Hb) was significantly lower than that in group 2 (340 +/- 57 nmol/g Hb). The RBC CAI concentration was significantly correlated with both the concentration of plasma free T4 and free T3. These observations indicate that in patients receiving suppressive doses of thyroxine a slight increase in the plasma free T4 concentration produces a slight but significant decrease in RBC CAI levels.     

131I对男性甲状腺功能亢进症血清性激素及甲状腺球蛋白水平影响研究

目的:探讨~(131)I对男性甲状腺功能亢进症患者血清性激素及甲状腺球蛋白水平的影响。方法:收集我院收治的男性甲状腺功能亢进症患者74例,随机分为对照组和实验组,每组各37例,对照组患者给予他巴唑口服,20-30 mg/次,每日口服1次。实验组患者在对照组基础上给予~(131)I治疗。治疗结束后,检测并比较两组患者血清游离三碘甲状腺素(FT3)、游离甲状腺素(FT4)、促甲状腺激素(TSH)、睾酮(T)、雌二醇(E2)、甲状腺球蛋白(TG)水平的变化以及临床疗效。结果:与治疗前相比,两组患者血清FT3、FT4、T、E2、TG水平均显著下降,TSH水平明显升高(P0.05);与对照组相比,实验组患者血清FT3、FT4、T、E2、TG水平较低,TSH水平以及临床治疗有效率较高(P0.05)。结论:~(131)I能够显著降低男性甲状腺功能亢进症血清FT3、FT4、T、E2、TG水平,升高TSH水平,临床效果较好。     

Graves' ophthalmopathy and subclinical hypothyroidism: diagnostic value of the thyrotropin releasing hormone test.

Five patients with Graves'' ophthalmopathy and no previously documented clinical or laboratory evidence of hyperthyroidism were studied. Their serum levels of thyroxine and triiodothyronine (T3) and their T3 uptake were normal. Although the baseline serum level of thyrotropin (TSH) was normal in two patients, it was increased on the other three, and when TSH releasing hormone (TRH) was administered the T3 response was impaired in three patients and the TSH response was exaggerated in all five. These findings facilitated the diagnosis of subclinical hypothyroidism and distinguished the patients from those with Graves'' ophthalmopathy and normal thyroid function or subclinical hyperthyroidism. Thyroid antibodies were detected in the serum of four of the five patients, suggesting the coexistence of chronic autoimmune thyroiditis; this disorder could account in part for the subclinical hypothyroidism, which was even present in the two patients in whom thyroid-stimulating immunoglobulin was found in the serum. These observations indicate the value of a TRH stimulation test in detecting subclinical hypothyroidism in patients with Graves'' ophthalmopathy who appear from clinical and routine laboratory studies to have normal thyroid function but could have normal function or subclinical hyperthyroidism.     

A sensitive immunoradiometric assay for serum thyroid stimulating hormone: a replacement for the thyrotrophin releasing hormone test?

The value as a thyroid function test of a new, rapid, and highly sensitive immunoradiometric assay for thyroid stimulating hormone (TSH) was assessed in 188 consecutive new patients with suspected hyperthyroidism. The diagnosis was made on clinical grounds and on the basis of serum total triiodothyronine and thyroxine concentrations and the response of TSH to thyrotrophin releasing hormone (TRH) as measured by radioimmunoassay. In all except one patient the basal TSH concentration by immunoradiometric assay predicted the response of TSH by radioimmunoassay to TRH, an undetectable value being recorded in patients with a subnormal response and a measurable value in those with a normal test result. This clear relation was not observed for basal TSH concentrations as measured by radioimmunoassay. In a series of 39 hospital inpatients with acute or chronic non-thyroidal illness, of whom 11 had low concentrations of total thyroxine or triiodothyronine, or both, basal TSH concentrations were detectable by both radioimmunoassay and immunoradiometric assay in all cases and were associated with normal responses to TRH. The immunoradiometric assay for TSH, which is commercially available, may therefore obviate the need for the more time consuming TRH test and simplify the approach to thyroid function testing in patients with suspected hyperthyroidism.     

10 years of successful treatment with dextrothyroxine in a girl with TSH-induced hyperthyroidism.

14 years ago, a 5.7-year-old healthy girl was treated with desiccated thyroid for a goiter and elevated TSH levels. The goiter disappeared and TSH levels were normalized. However, hyperthyroidism appeared. Without therapy, the goiter reappeared and hyperthyroidism aggravated. Based on hormone values, TSH-induced hyperthyroidism was diagnosed. After exclusion of neoplastic TSH secretion, treatment with dextrothyroxine (DT4) was initiated at age of 10 years and continued during the last 10 years (except for short periods). The girl became euthyroid, has no goiter and normal TSH values. Since thyrotrophs and peripheral tissues are probably normally sensitive to T4, we postulate that her hypothalamopituitary-thyroid control is operating on a higher set point level for T4.     

Screening of geriatric patients for thyroid dysfunction with thyrotropin-releasing-hormone test, sensitive thyrotropin and free thyroxine estimation

Hospitalized geriatric patients (N = 354) from an iodine-deficient area were screened with sensitive thyrotropin (TSH), free and total thyroxine (FT4, T4) and total triiodothyronine (T3) to determine the occurrence rate of clinical and subclinical thyroid dysfunction. The diagnostic value of the tests was compared to each other and to that of the thyrotropin-releasing-hormone test (TRH-test) in order to find the optimal first line screening test in geriatric patients. Clinical hyperthyroidism was found in 13, subclinical hyperthyroidism in 10, overt hypothyroidism in 6 and subclinical hypothyroidism in 8 cases. 20.6% of the patients were euthyroid but had subnormal TSH response to TRH, as a sign of possible thyroid autonomy. The low occurrence rate of clinical thyroid disorders (4.8%) does not justify the screening of geriatric patients in general, but the high probability of thyroid autonomy makes reasonable the investigation of every geriatric patient before iodine administration. Suppressed basal TSH and high FT4 were found to be both sensitive and specific in diagnosing clinical hyperthyroidism, but the predictive value was insufficient; elevated T4 and T3 are specific, but not sensitive. Basal TSH is sensitive, specific and has a good predictive value in diagnosing euthyroidism, whereas normal T4, FT4 or T3 are not specific enough for euthyroidism. Basal TSH is better as a first line test of thyroid function than FT4. A normal basal TSH confirms euthyroidism by itself. Other tests (TRH test, T4, FT4, T3) are necessary to elucidate the clinical importance of a subnormal or suppressed basal TSH.     

Cardiopulmonary bypass: a low T4 and T3 syndrome with blunted thyrotropin (TSH) response to thyrotropin-releasing hormone (TRH)

Thyroid hormone serum concentrations, the thyrotropin (TSH) and prolactin (PRL) response to thyrotropin-releasing hormone (TRH) were evaluated in patients undergoing cardiopulmonary bypass (CPB) conducted in hypothermia. During CPB a marked decrease of thyroxine (T4) and triiodothyronine (T3) concentration with a concomitant increase of reverse T3 (rT3) were observed similarly to other clinical states associated with the 'low T3 syndrome'. Furthermore, in the present study elevated FT4 and FT3 concentrations were observed. In a group of patients, TRH administered during CPB at 26 degrees C elicited a markedly blunted TSH response. In these patients, PRL concentration was elevated but did not significantly increase after TRH. The increased concentrations of FT4 and FT3 were probably due to the large doses of heparin administered to these patients. Thus, the blunted response of TSH to TRH might be the consequence of the elevation of FT4 and FT3 in serum, however, other factors might play a role since also the PRL response to TRH was blocked.     

碘131 与抗甲状腺药物治疗甲亢的临床疗效比较

目的:探讨碘131(I131)和抗甲状腺药物治疗甲亢的临床疗效对比,为临床提供参考依据。方法:选择2012年1月至2014年10月我院甲状腺功能亢进患者218例,按照随机数字表法分为观察组和对照组,每组各109例患者,观察组采用碘131治疗,对照组采用抗甲状腺药物治疗。比较治疗12个月后两组患者的临床疗效、复发率和并发症,采用酶联免疫吸附法检测治疗前后血清甲状腺激素水平。结果:治疗12个月后,观察组的有效率为92.66%明显高于对照组的69.72%,观察组的复发率为2.75%明显低于对照组的13.76%,差异均有统计学意义(P0.01)。观察组的心脏病、肝功能受损及血象降低等不良反应的发生率为7.34%明显低于对照组32.11%,差异有统计学意义(P0.01)。治疗后两组患者的血清甲状腺素(T4)、游离三碘甲状原氨酸(FT3)、三碘甲状原氨酸(T3)、促甲状腺激素(TSH)、游离甲状腺素(FT4)水平较治疗前降低,且观察组的降低幅度优于对照组,差异均有统计学意义(P0.05)。结论:碘131治疗甲亢可提高临床疗效,降低复发率,不良反应轻,可降低血清甲状腺激素水平,,值得推广应用。     

Extract of Lycopus europaeus L. reduces cardiac signs of hyperthyroidism in rats

Extracts from the plant Lycopus europaeus L. are traditionally used in mild forms of hyperthyroidism. High doses caused a reduction of TSH or thyroid hormone levels in animal experiments, whereas in hyperthyroid patients treated with low doses of Lycopus an improvement of cardiac symptoms was reported without major changes in TSH or thyroid hormone concentrations. Lycopus extract was tested in thyroxine treated hyperthyroid rats (0.7 mg/kg BW i.p.). Co-treatment with an hydroethanolic extract from L. europaeus L. started one week later than T4-application and lasted 5.5 weeks. As reference substance atenolol was used. The raised body temperature was reduced very effectively even by the low dose of the plant extract, whereas the reduced gain of body weight and the increased food intake remained unaffected by any treatment. No significant changes of thyroid hormone concentrations or TSH levels were observed. Lycopus extract and atenolol reduced the increased heart rate and blood pressure. The cardiac hypertrophy was alleviated significantly by both treatment regimes. beta-Adrenoceptor density in heart tissue was significantly reduced by the Lycopus extract or the beta-blocking agent showing an almost equal efficacy. Although the mode of action remains unclear, these organo-specific anti-T4-effects seem to be of practical interest, for example in patients with latent hyperthyroidism.     

Multivariate analysis on factors affecting suppression of thyroid-stimulating hormone in treated congenital hypothyroidism

AIMS: To determine the factors which influence the suppression of thyroid-stimulating hormone (TSH) in infants with congenital hypothyroidism (CH) following treatment. METHODS: We examined retrospectively the patterns of thyroid function tests from diagnosis to 3 years of age in 140 infants diagnosed with CH from screening. Patients were classified into 3 groups: athyreosis, ectopia and presumed dyshormonogenesis on the basis of thyroid scans. Adequate TSH suppression was defined as plasma TSH concentration <6 mU/l. The factors affecting the suppression of TSH at 6 months and 1 year of age which were evaluated were: initial confirmatory plasma TSH, initial plasma thyroxine (T4), mean age of starting treatment with L-T4, dose of L-T4 at diagnosis, 6 weeks, 3 months and 6 months, and aetiology of the congenital hypothyroidism. Variables were then entered in a stepwise logistic regression model for TSH suppression at 6 months and 1 year of age. RESULTS: All infants had radionuclide scans prior to treatment: athyreosis (n = 39), ectopia (n = 78) and dyshormonogenesis (n = 23). 58% of patients had persistently raised TSH at 6 months of age while 31% of patients had a persistently raised TSH at 1 year of age. There was a significant delay in the normalisation of plasma TSH in athyreosis and ectopia groups compared with dyshormonogenesis. Multiple regression analysis for TSH suppression at 6 months of age found plasma T4 levels and aetiology of CH as independent factors affecting the timing of TSH suppression. Aetiology of CH was the only independent factor affecting TSH suppression at 1 year of age. CONCLUSION: At 6 months of age, plasma T4 levels at 6 weeks and 3 months, and aetiology of CH were independent factors affecting timing of TSH suppression. However, by 1 year of age, the aetiology of CH was the only independent factor affecting suppression of TSH.     

Treatment of hyperfunctioning thyroid nodules by percutaneous ethanol injection

BACKGROUND: Autonomous thyroid nodules can be treated by a variety of methods. We assessed the efficacy of percutaneous ethanol injection in treating autonomous thyroid nodules. METHODS: 35 patients diagnosed by technetium-99 scanning with hyperfunctioning nodules and suppressed sensitive TSH (sTSH) were given sterile ethanol injections under ultrasound guidance. 29 patients had clinical and biochemical hyperthyroidism. The other 6 had sub-clinical hyperthyroidism with suppressed sTSH levels (<0.24 &mgr;IU/ml) and normal thyroid hormone levels. Ethanol injections were performed once every 1-4 weeks. Ethanol injections were stopped when serum T3, T4 and sTSH levels had returned to normal, or else injections could no longer be performed because significant side effects. Patients were followed up at 3, 6 and, in 15 patients, 24 months after the last injection. RESULTS: Average pre-treatment nodule volume [18.2 PlusMinus; 12.7 ml] decreased to 5.7 PlusMinus; 4.6 ml at 6 months follow-up [P < 0.001]. All patients had normal thyroid hormone levels at 3 and 6 months follow-up [P < 0.001 relative to baseline]. sTSH levels increased from 0.09 PlusMinus; 0.02 &mgr;IU/ml to 0.65 PlusMinus; 0.8 &mgr;IU/ml at the end of therapy [P < 0.05]. Only 3 patients had persistent sTSH suppression at 6 months post-therapy. T4 and sTSH did not change significantly between 6 months and 2 years [P > 0.05]. Ethanol injections were well tolerated by the patients, with only 2 cases of transient dysphonia. CONCLUSION: Our findings indicate that ethanol injection is an alternative to surgery or radioactive iodine in the treatment of autonomous thyroid nodules.     

甲亢患者甲状腺激素水平与血脂代谢相关性分析及临床意义探讨

目的:探讨甲亢患者甲状腺激素水平与血脂代谢指标之间的关系。方法:对160例甲亢患者治疗前后的甲状腺激素(TH)水平、血脂水平进行对照分析。结果:甲亢治疗前后与健康对照组比较,游离三碘甲状腺原氨酸(FT3)、游离甲状腺素(FT4)明显增高,促甲状腺激素(TSH)明显降低,差异有统计学意义(P<0.01);总胆固醇(TC)、三酰甘油(TG)、高密度脂蛋白胆固醇(LDL-C)、载脂蛋白A(apoAΙ)、载脂蛋白B(apoB)均明显降低,且差异具有统计学意义(P<0.01);低密度脂蛋白胆固醇(HDL-C)无明显变化(P>0.05)。结论:甲状腺激素与脂类代谢密切相关,临床上在诊治甲亢患者时,应当加强血脂水平的监测,以便更好地指导临床诊治,为疾病的发生发展、判断预后提供有价值的实验室检测指标。     

Effect of gonadotropin (FSH + LH) and thyrotropin (TSH) administered with or without endotoxin at the age of three weeks on the response capacity of the thyroid gland in adult rats

At the age of three weeks the experimental animals received either thyrotropin (TSH), or gonadotropin (FSH + LH), or endotoxin (LPS) alone or in combination. The effectivity of the treatments was evaluated at the age of two months (with or without further hormone treatment). Contrastingly to neonatal TSH treatment, TSH treatment at the age of three weeks did not give rise to imprinting. In female animals, however, TSH treatment increased the sensitivity to the related gonadotropin hormone. At the age of three weeks gonadotropin treatment--on its own--did not cause damages to the TSH receptors of the thyroid gland. While in previous experiments neonatal endotoxin treatment damaged considerably the thyroxin production of the adult thyroid gland, after treatments at the age of three weeks no similar effect could be observed. The treatment, however, decreased the sensitivity of the receptors to TSH. In female animals simultaneous administration of endotoxin and TSH led, even without further hormone treatment, to constant increase in T4 level (the increase could also be detected in the adult animal). Imprinting, however, did not develop. In male animals simultaneous administration of endotoxin and gonadotroph hormone decreased considerably the T4 baseline level, and further TSH or gonadotropin treatment was unable to enhance T4 production.     

Influence of D-thyroxine on plasma thyroid hormone levels and TSH secretion.

Triiodothyronine (T3), thyroxine (T4), basal TSH and TSH after stimulation with TRH were determined in healthy subjects and patients treated with D-thyroxine (DT4). After a dosage of 6 mg DT4 the D/L T4 plasma concentration rose about 4-fold 4 hours after application and was only moderately elevated 14 hours later. To achieve constantly elevated T4 levels 3 mg DT4 were applied in the further experiment every 12 hours. The D/L T4 plasma concentration rose 2.5-4-fold and there was a small but significant increase of the D/L T3 plasma concentration. 74 hours after onset of treatment basal TSH was below detectable limits and the increase of TSH 30 min after injection of 200 mug TRH (TRH test) was only about 15% compared to zero time. The time course of TSH suppression was investigated after treatment with DT4 and LT4 (single dosage of 3 mg). TRH-tests were performed before, 10, 26, 50 and 74 hours after the first dosage of D or LT4. There was no difference in the time course of basal TSH and TSH stimulated by TRH. In 10 patients on DT4 long-term therapy, basal and stimulated TSH were found to be below the detectable limits of 0.4 mug/ml. Our results show that (1) plasma half-life of DT4 is less than 1 day, (2) TSH suppression after D and LT4 treatment is very similar, and (3) in patients on long-term DT4 treatment, TSH plasma concentration is below detectable limits even after stimulation with TRH.     

TSH producing pituitary tumor: biochemical diagnosis and long-term medical management with octreotide.

A 50 year old man with hyperthyroidism secondary to inappropriate secretion of TSH is described. On presentation T3 (42.1 nmol/L), T4 (265 nmol/L) and TSH (17.9 mU/L) were all markedly elevated. A diagnosis of a TSH-secreting pituitary tumor was suspected on the basis of a blunted TSH response to TRH and the absence of suppression of TSH by T3 or bromocriptine, but TSH/alpha subunit molar ratios were uncharacteristically less than 1. Nevertheless, the presence of a tumor was confirmed by computed tomography which demonstrated a 15 mm pituitary macroadenoma. The patient was treated with octreotide which resulted in normalisation of thyroid hormone levels. The duration of action of a single 100 micrograms injection of octreotide was at least 56 hours. The suppression of thyroid hormone levels was similar regardless of the treatment regimen with octreotide (100 micrograms tid, 250 micrograms bid, 100 micrograms bid and continuous subcutaneous infusion (CSI] and no escape was observed during a 16 month treatment period. TSH alpha subunit concentrations were also suppressed during long-term treatment with octreotide (3.3 micrograms/L falling to 1.1 micrograms/L), although no acute changes were noted after administration of single dose octreotide 100 micrograms. Three times the octreotide therapy was discontinued. The incremental rise in TSH and the maximum level of TSH achieved was less on each subsequent occasion, suggesting a suppressive effect of octreotide on the tumor itself. Despite suppression of TSH with octreotide over a 13 month period the pituitary tumor showed no shrinkage on repeat MRI scanning. In conclusion, this patient demonstrates that the differential diagnosis of inappropriate TSH secretion based only on biochemical test may be unreliable.(ABSTRACT TRUNCATED AT 250 WORDS)     

Subclinical Hyperthyroidism: A Review of the Clinical Literature

Subclinical hyperthyroidism (SCHyper) is a biochemical diagnosis characterized by a decreased serum thyroid-stimulating hormone (TSH) and normal serum thyroxine (T4) and triiodothyronine (T3) concentrations. Because SCHyper can be resolved, it is recommended to repeat serum TSH, T3, and T4 concentrations in 3 to 6 months before confirming a diagnosis of SCHyper to consider treatment. Proposed grading systems distinguish between mild (TSH, 0.1-0.4 mIU/L) and severe SCHyper (TSH, <0.1 mIU/L) and are used alongside patients’ age and the presence of risk factors and symptoms to guide treatment. Appropriate evaluation includes an investigation of the underlying cause and assessment of an individual’s risk factors to determine the necessity and type of treatment that may be recommended. SCHyper may be associated with increased risks of cardiovascular-related adverse outcomes, bone loss, and in some studies, cognitive decline. Treatment may include observation without therapy, initiation of antithyroid medications, or pursuit of radioiodine therapy or thyroid surgery. Considerations for treatment include the SCHyper etiology, anticipated long-term natural history of the condition, potential benefits of correcting the thyroid dysfunction, and risks and benefits of each treatment option. The purpose of this overview is to provide a guide for clinicians in evaluating and managing SCHyper in the routine clinical practice.     

A follow-up study of 85 patients with Graves' disease in remission who developed undetectable serum thyroid-stimulating hormone concentrations using sensitive TSH assays.

Eighty-five patients with Graves' disease in clinical remission after treatment for over 1 year by methimazole therapy (36 patients, group A) or subtotal thyroidectomy (49 patients, group B) who became undetectable for serum thyrotropin levels (TSH less than 0.05 mU/l), were further followed for 1 year or more. Eight patients in group A (22%) and 7 patients in group B (14%) relapsed. Eleven patients in group A (30%) and 5 patients in group B (10%) had fluctuating patterns of free T4 in the upper normal to slightly supranormal range indicative of subclinical hyperthyroidism. The remaining patients continued to have undetectable TSH levels or restored normal TSH levels and normal thyroid hormone concentrations in sera. The results of the present study indicate that the occurrence of undetectable serum TSH concentrations in Graves' disease patients previously treated with methimazole or surgery are not necessarily predictive of clinical relapse because the eventual outcome is variable.     

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.