Michael C. Sheppard

Association between premature mortality and hypopituitarism

Summary Background Four retrospective studies have reported premature mortality in patients with hypopituitarism with standard mortality ratios (SMRs) varying between 1·20 and 2·17. Patients with hypopituitarism have complex endocrine deficiencies, and the mechanisms underpinning any excess mortality are unknown. Furthermore, the suggestion has emerged that endogenous growth-hormone deficiency might account for any excess mortality. We aimed to clarify these issues by doing a large prospective study of total and specific-cause mortality in patients with hypopituitarism. Methods We followed up 1014 UK patients (514 men, 500 women) with hypopituitarism from January, 1992, to January, 2000. 573 (57%) patients had non-functioning adenomas, 118 (12%) craniopharyngiomas, and 93 (9%) prolactinomas. SMRs were calculated as the ratio of observed deaths to the number of deaths in an age-matched and sex-matched UK population. Findings The number of observed deaths was 181 compared with the 96·7 expected (SMR 1·87 [99% CI 1·62–2·16], p vs 1·61 [1·30–1·99], p vs 1·66 [1·30–2·13], p=0·004). Excess mortality was attributed to cardiovascular (1·82 [1·30–2·54], p vs treated 1·42 [0·97–2·07], p Interpretation Patients with hypopituitarism have excess mortality, predominantly from vascular and respiratory disease. Age at diagnosis, female sex, and above all, craniopharyngioma were significant independent risk factors. Specific endocrine-axis deficiency, with the exception of untreated gonadotropin deficiency, does not seem to have a role.

Prediction of all-cause and cardiovascular mortality in elderly people from one low serum thyrotropin result: a 10-year cohort study

BACKGROUND Low serum thyrotropin, in combination with normal concentrations of circulating thyroid hormones, is common, especially in elderly people and in individuals with a history of thyroid disease. We aimed to assess the long-term effects of subclinical hyperthyroidism on mortality. METHODS We did a population-based study of mortality in a cohort of 1191 individuals not on thyroxine or antithyroid medication. All participants were aged 60 years or older. We measured concentration of thyrotropin in serum at baseline in 1988-89. We recorded vital status on June 1, 1999, and ascertained causes of death for those who had died. We compared data for causes of death with age-specific, sex-specific, and year-specific data for England and Wales. We also compared mortality within the cohort according to initial thyrotropin measurement. RESULTS During 9733 person-years of follow-up, 509 of 1191 people died, the expected number of deaths being 496 (standardised mortality ratio [SMR] 1.0, 95% CI 0.9-1.1). Mortality from all causes was significantly increased at 2 (SMR 2.1), 3 (2.1), 4 (1.7), and 5 (1.8) years after first measurement in those with low serum thyrotropin (n471). These increases were largely accounted for by significant increases in mortality due to circulatory diseases (SMR 2.1, 2.2, 1.9, 2.0, at years 2, 3, 4, and 5 respectively). Increases in mortality from all causes in years 2-5 were higher in patients with low serum thyrotropin than in the rest of the cohort (hazard ratios for years 2, 3, 4, and 5 were 2.1, 2.2, 1.8, and 1.8, respectively). This result reflects an increase in mortality from circulatory diseases (hazard ratios at years 2, 3, 4, and 5 were 2.3, 2.6, 2.3, 2.3), and specifically from cardiovascular diseases (hazard ratios at years 2, 3, 4, and 5 were 3.3, 3.0, 2.3, 2.2). INTERPRETATION A single measurement of low serum thyrotropin in individuals aged 60 years or older is associated with increased mortality from all causes, and in particular mortality due to circulatory and cardiovascular diseases.

Prevalence and follow-up of abnormal thyrotrophin (TSH) concentrations in the elderly in the United Kingdom.

Increasing use of assays for TSH with improved sensitivity as a first‐line test of thyroid function has raised questions regarding prevalence and clinical significance of abnormal results, especially values below normal. We have assessed the thyroid status of 1210 patients aged over 60 registered with a single general practice by measurement of serum TSH using a sensitive assay. High TSH values were more common in females (11.6|X%) than males (2.9|X%). TSH values below normal were present in 6.3|X% of females and 5.5|X% of males, with values below the limit of detection of the assay present in 1.5|X% of females and 1.4|X% of males. Anti‐thyroid antibodies were found in 60|X% of those with high TSH but only 5.6|X% of those with subnormal TSH. Eighteen patients were hypothyroid (high TSH, low free thyroxine) and one thyrotoxic (low TSH, raised free thyroxine) at initial testing. Seventy‐three patients with elevated TSH but normal free T4 were followed for 12 months; 13 (17.8|X%) developed low free T4 levels and commenced thyroxine, TSH returned to normal in four (5.5|X%) and 56 (76.7|X%) continued to have high TSH values. Sixty‐six patients with TSH results below normal were followed. Of the 50 subjects with low but detectable TSH at initial testing, 38 (76|X%) returned to normal at 12 months; of those 16 with undetectable TSH followed, 14 (87.5|X%) remained low at 12 months. Only one subject (who had an undetectable TSH) developed thyrotoxicosis. In view of the marked prevalence of thyroid dysfunction in the elderly, we suggest that screening of all patients over 60 should be considered. It is important that those with high TSH are followed in view of the risk of progression to overt hypothyroidism, but the risk of thyrotoxicosis in those with TSH values below normal appears small.

Mortality after the Treatment of Hyperthyroidism with Radioactive Iodine

BACKGROUND Hyperthyroidism affects many organ systems, but the effects are usually considered reversible. The long-term effects of hyperthyroidism on mortality are not known. METHODS We conducted a population-based study of mortality in a cohort of 7209 subjects with hyperthyroidism who were treated with radioactive iodine in Birmingham, United Kingdom, between 1950 and 1989. The vital status of the subjects was determined on March 1, 1996, and causes of death were ascertained for those who had died. The data on the causes of death were compared with data on age-specific mortality in England and Wales. The standardized mortality ratio was used as a measure of relative risk, and the effect of covariates on mortality was assessed by regression analysis. RESULTS During 105,028 person-years of follow-up, 3611 subjects died; the expected number of deaths was 3186 (standardized mortality ratio, 1.1; 95 percent confidence interval, 1.1 to 1.2; P<0.001). The risk was increased for deaths due to thyroid disease (106 excess deaths; standardized mortality ratio, 24.8; 95 percent confidence interval, 20.4 to 29.9), cardiovascular disease (240 excess deaths; standardized mortality ratio, 1.2; 95 percent confidence interval, 1.2 to 1.3), and cerebrovascular disease (159 excess deaths; standardized mortality ratio, 1.4; 95 percent confidence interval, 1.2 to 1.5), as well as fracture of the femur (26 excess deaths; standardized mortality ratio, 2.9; 95 percent confidence interval, 2.0 to 3.9). The excess mortality was most evident in the first year after radioiodine therapy and declined thereafter. CONCLUSIONS Among patients with hyperthyroidism treated with radioiodine, mortality from all causes and mortality due to cardiovascular and cerebrovascular disease and fracture are increased.

Hypertension in the syndrome of apparent mineralocorticoid excess due to mutation of the 11β-hydroxysteroid dehydrogenase type 2 gene

BACKGROUND 11 beta-hydroxysteroid dehydrogenase (11 beta-HSD) catalyses the interconversion of hormonally active cortisol to inactive cortisone and is vital for dictating specificity for the mineralocorticoid receptor. Thus, in patients with congenital deficiency of 11 beta-HSD (the syndrome of apparent mineralocorticoid excess, AME), cortisol and not aldosterone acts as a mineralocorticoid, resulting in hypertension and hypokalaemia with suppression of the renin-angiotensin-aldosterone axis. Two isoforms of human 11 beta-HSD have been described, but it is the NAD-dependent type 2 isoform (11 beta-HSD2), first characterised in placental tissue, that is expressed in the mineralocorticoid target tissues, kidney and colon. We have analysed the 11 beta-HSD2 gene as a candidate gene in explaining the molecular basis of AME. METHODS By exon-specific PCR-amplification of the 11 beta-HSD2 gene in a consanguineous kindred with AME, we found a point mutation (C1228T) in two affected siblings, and also in placental DNA obtained from a stillbirth pregnancy. FINDINGS The mutation in exon 5 of the 11 beta-HSD2 gene resulted in a premature stop site at codon 374 instead of a normal arginine (R374X), with the deletion of 32 aminoacids from the C-terminus of the 11 beta-HSD2 enzyme protein. Both parents, who are phenotypically normal, are heterozygote for the C1228T mutation in keeping with an autosomal recessive form of inheritance. NAD-dependent 11 beta-HSD activity was severely attenuated in the stillbirth placenta compared with control placental tissue, and no 11 beta-HSD immunostaining was observed in this placenta with antisera derived against a C-terminal 11 beta-HSD2 peptide sequence. INTERPRETATION AME is due to a mutation in the 11 beta-HSD2 gene, and is an example of human hypertension arising from a single gene defect.

Mortality in Patients with Pituitary Disease

Pituitary disease is associated with increased mortality predominantly due to vascular disease. Control of cortisol secretion and GH hypersecretion (and cardiovascular risk factor reduction) is key in the reduction of mortality in patients with Cushings disease and acromegaly, retrospectively. For patients with acromegaly, the role of IGF-I is less clear-cut. Confounding pituitary hormone deficiencies such as gonadotropins and particularly ACTH deficiency (with higher doses of hydrocortisone replacement) may have a detrimental effect on outcome in patients with pituitary disease. Pituitary radiotherapy is a further factor that has been associated with increased mortality (particularly cerebrovascular). Although standardized mortality ratios in pituitary disease are falling due to improved treatment, mortality for many conditions are still elevated above that of the general population, and therefore further measures are needed. Craniopharyngioma patients have a particularly increased risk of mortality as a result of the tumor itself and treatment to control tumor growth; this is a key area for future research in order to optimize the outcome for these patients.

Modulation of 11β-Hydroxysteroid Dehydrogenase Isozymes by Proinflammatory Cytokines in Osteoblasts: An Autocrine Switch from Glucocorticoid Inactivation to Activation

Tissue damage by proinflammatory cytokines is attenuated at both systemic and cellular levels by counter anti‐inflammatory factors such as corticosteroids. Target cell responses to corticosteroids are dependent on several factors including prereceptor regulation via local steroidogenic enzymes. In particular, two isozymes of 11β‐hydroxysteroid dehydrogenase (11β‐HSD), by interconverting hormonally active cortisol (F) to inactive cortisone (E), regulate the peripheral action of corticosteroids 11β‐HSD1 by converting E to F and 11β‐HSD2 by inactivating F to E. In different in vitro and in vivo systems both 11β‐HSD isozymes have been shown to be expressed in osteoblasts (OBs). Using the MG‐63 human osteosarcoma cell‐line and primary cultures of human OBs, we have studied the regulation of osteoblastic 11β‐HSD isozyme expression and activity by cytokines and hormones with established roles in bone physiology. In MG‐63 cells, interleukin‐1β (IL‐1β) and tumor necrosis factor α (TNF‐α) potently inhibited 11β‐HSD2 activity (cortisol‐cortisone conversion) and messenger RNA (mRNA) levels in a dose‐dependent manner while stimulating reciprocal expression of 11β‐HSD1 mRNA and activity (cortisone‐cortisol conversion). A similar rise in 11β‐HSD1 reductase activity also was observed in primary cultures of OBs treated with 10 ng/ml TNF‐α. Pretreatment of MG‐63 cells with 0.1 ng/ml IL‐1β resulted in increased cellular sensitivity to physiological glucocorticoids as shown by induction of serum and glucocorticoid‐inducible kinase (SGK; relative increase with 50 nM F but no IL‐1β pretreatment 1.12 ± 0.34; with pretreatment 2.63 ± 0.50; p < 0.01). These results highlight a novel mechanism within bone cells whereby inflammatory cytokines cause an autocrine switch in intracellular corticosteroid metabolism by disabling glucocorticoid inactivation (11β‐HSD2) while inducing glucocorticoid activation (11β‐HSD1). Therefore, it can be postulated that some of the effects of proinflammatory cytokines within bone (e.g., periarticular erosions in inflammatory arthritis) are mediated by this mechanism.

Cancer incidence and mortality after radioiodine treatment for hyperthyroidism: a population-based cohort study

BACKGROUND Radioiodine is used increasingly as first-line treatment for hyperthyroidism, but concerns remain about subsequent risk of cancer, especially in those treated at a young age. We investigated cancer incidence and mortality in patients treated with radioiodine for hyperthyroidism. METHODS We did a population-based study in 7417 patients treated in Birmingham, UK, between 1950 and 1991. We compared details of all cancer diagnoses and deaths in 1971-91 from the UK Office for National Statistics with data on cancer incidence and mortality for England and Wales specific for age, sex, and period. FINDINGS During 72,073 person-years of follow-up, 634 cancer diagnoses were made, compared with an expected number of 761 (standardised incidence ratio [SIR] 0.83 [95% CI 0.77-0.90]). The relative risk of cancer mortality was also decreased (observed cancer deaths 448, expected 499; standardised mortality ratio [SMR] 0.90 [0.82-0.98]). Incidence of cancers of the pancreas, bronchus, trachea, bladder, and lymphatic and haemopoietic systems was lowered. Mortality from cancers at all these sites was also reduced but findings were significant only for bronchus and trachea. There were significant increases in incidence and mortality for cancers of the small bowel (SIR 4.81 [2.16-10.72], SMR 7.03 [3.16-15.66]) and thyroid (SIR 3.25 [1.69-6.25], SMR 2.78 [1.16-6.67]), although absolute risk of these cancers was small. INTERPRETATION The decrease in overall cancer incidence and mortality in those treated for hyperthyroidism with radioiodine is reassuring. The absolute risk of cancers of the small bowel and thyroid remain low, but the increased relative risk shows the need for long-term vigilance in those receiving radioiodine.

Long-term thyroxine treatment and bone mineral density

Studies of the effect of thyroxine replacement therapy on bone mineral density have given conflicting results; the reductions in bone mass reported by some have prompted recommendations that prescribed doses of thyroxine should be reduced. We have examined the effect of long-term thyroxine treatment in a large homogeneous group of patients; all had undergone thyroidectomy for differentiated thyroid cancer but had no history of other thyroid disorders. The 49 patients were matched with controls for age, sex, menopausal status, body mass index, smoking history, and calcium intake score; in all subjects bone mineral density at several femoral and vertebral sites was measured by dual-energy X-ray absorptiometry. Despite long-term thyroxine therapy (mean duration 7.9 [range 1-19] years) at doses (mean 191 [SD 50] micrograms/day) that resulted in higher serum thyroxine and lower serum thyrotropin concentrations than in the controls, the patients showed no evidence of lower bone mineral density than the controls at any site. Nor was bone mineral density correlated with dose, duration of therapy, or cumulative intake, or with tests of thyroid function. There was a decrease in bone density with age in both groups. We suggest that thyroxine alone does not have a significant effect on bone mineral density and hence on risk of osteoporotic fractures.

Pasireotide Versus Octreotide in Acromegaly: A Head-to-Head Superiority Study

Context: Biochemical control reduces morbidity and increases life expectancy in patients with acromegaly. With current medical therapies, including the gold standard octreotide long-acting-release (LAR), many patients do not achieve biochemical control. Objective: Our objective was to demonstrate the superiority of pasireotide LAR over octreotide LAR in medically naive patients with acromegaly. Design and Setting: We conducted a prospective, randomized, double-blind study at 84 sites in 27 countries. Patients: A total of 358 patients with medically naive acromegaly (GH >5 μg/L or GH nadir ≥1 μg/L after an oral glucose tolerance test (OGTT) and IGF-1 above the upper limit of normal) were enrolled. Patients either had previous pituitary surgery but no medical treatment or were de novo with a visible pituitary adenoma on magnetic resonance imaging. Interventions: Patients received pasireotide LAR 40 mg/28 days (n = 176) or octreotide LAR 20 mg/28 days (n = 182) for 12 months. At months 3 and 7, titration to pasireotide LAR 60 mg or octreotide LAR 30 mg was permitted, but not mandatory, if GH ≥2.5μg/L and/or IGF-1 was above the upper limit of normal. Main Outcome Measure: The main outcome measure was the proportion of patients in each treatment arm with biochemical control (GH <2.5 μg/L and normal IGF-1) at month 12. Results: Biochemical control was achieved by significantly more pasireotide LAR patients than octreotide LAR patients (31.3% vs 19.2%; P = .007; 35.8% vs 20.9% when including patients with IGF-1 below the lower normal limit). In pasireotide LAR and octreotide LAR patients, respectively, 38.6% and 23.6% (P = .002) achieved normal IGF-1, and 48.3% and 51.6% achieved GH <2.5 μg/L. 31.0% of pasireotide LAR and 22.2% of octreotide LAR patients who did not achieve biochemical control did not receive the recommended dose increase. Hyperglycemia-related adverse events were more common with pasireotide LAR (57.3% vs 21.7%). Conclusions: Pasireotide LAR demonstrated superior efficacy over octreotide LAR and is a viable new treatment option for acromegaly.