Young people's experiences of managing Type 1 diabetes at university: a national study of UK university students.

AIM: Little is known about the challenges of transitioning from school to university for young people with Type 1 diabetes. In a national survey, we investigated the impact of entering and attending university on diabetes self-care in students with Type 1 diabetes in all UK universities. METHODS: Some 1865 current UK university students aged 18-24 years with Type 1 diabetes, were invited to complete a structured questionnaire. The association between demographic variables and diabetes variables was assessed using logistic regression models. RESULTS: In total, 584 (31%) students from 64 hospitals and 37 university medical practices completed the questionnaire. Some 62% had maintained routine diabetes care with their home team, whereas 32% moved to the university provider. Since starting university, 63% reported harder diabetes management and 44% reported higher HbA1c levels than before university. At university, 52% had frequent hypoglycaemia, 9.6% reported one or more episodes of severe hypoglycaemia and 26% experienced diabetes-related hospital admissions. Female students and those who changed healthcare provider were approximately twice as likely to report poor glycaemic control, emergency hospital admissions and frequent hypoglycaemia. Females were more likely than males to report stress [odds ratio (OR) 4.78, 95% confidence interval (CI) 3.19-7.16], illness (OR 3.48, 95% CI 2.06-5.87) and weight management issues (OR 3.19, 95% CI 1.99-5.11) as barriers to self-care. Despite these difficulties, 91% of respondents never or rarely contacted university support services about their diabetes. CONCLUSION: The study quantifies the high level of risk experienced by students with Type 1 diabetes during the transition to university, in particular, female students and those moving to a new university healthcare provider.

Preclinic investigations accelerate decision-making, reduce delays in treatment and are highly popular with endocrinology patients and staff.

OBJECTIVE: Endocrine diagnosis relies on a thorough history, examination and confirmatory biochemical tests. Previously, in our unit, tests were performed after new patients attended clinic. We proposed that diagnosis and management would be improved if this system was inverted. DESIGN: Clinicians and chemical pathologists reviewed available guidance and local practice to determine the key tests to confirm or refute most common endocrine disorders. A system was developed for clinicians to categorize new referrals into diagnostic groups: for example, nodular thyroid disease or possible polycystic ovarian syndrome. Standard letters were developed and sent to patients explaining the requirement for tests to be performed prior to first hospital appointment. The letters and requests for investigation sets were standardized for each diagnostic group and generated via a one-click automated method. After one year, clinical outcomes were audited and patients and staff surveyed. RESULTS: The time from referral to confirming diagnosis and starting treatment was halved: mean 11·8-5·7 weeks (P < 0·001). Acute patients were also discharged from clinic earlier: mean 17 to 10·3 weeks (P < 0·005). Ninety four percent patients surveyed had their tests performed easily prior to attending their appointment. Hundred per cent of patients, 100% of hospital staff and 93% referring general practitioners who responded felt the system improved patient care and should continue. CONCLUSIONS: Performing investigations prior to new patient appointments is practical, popular with staff and patients and has dramatically improved our referral to treatment statistics by reducing delays prior to diagnosis. This system could be used as a model for other departments.

Recovery of adrenal function in a patient with confirmed Addison's disease.

UNLABELLED: Addison's disease is a condition characterised by immune-mediated destruction of the adrenal glands leading to a requirement of lifelong replacement therapy with mineralocorticoid and glucocorticoid. We present a case of a 53-year-old man who presented at the age of 37 years with nausea, fatigue and dizziness. He was found to have postural hypotension and buccal pigmentation. His presenting cortisol level was 43 nmol/l with no response to Synacthen testing. He made an excellent response to conventional replacement therapy with hydrocortisone and fludrocortisone and then remained well for 16 years. On registering with a new endocrinologist, his hydrocortisone dose was revised downwards and pre- and post-dose serum cortisol levels were assessed. His pre-dose cortisol was surprisingly elevated, and so his dose was further reduced. Subsequent Synacthen testing was normal and has remained so for further 12 months. He is now asymptomatic without glucocorticoid therapy, although he continues on fludrocortisone 50 µg daily. His adrenal antibodies are positive, although his ACTH and renin levels remain elevated after treatment. Addison's disease is generally deemed to lead to irreversible cell-mediated immune destruction of the adrenal glands. For this reason, patients receive detailed counselling and education on the need for lifelong replacement therapy. To our knowledge, this is the third reported case of spontaneous recovery of the adrenal axis in Addison's disease. Recovery may therefore be more common than previously appreciated, which may have major implications for the treatment and monitoring of this condition, and for the education given to patients at diagnosis. LEARNING POINTS: Partial recovery from Addison's disease is possible although uncommon.Patients with long-term endocrine conditions on replacement therapy still benefit from regular clinical and biochemical assessment, to revisit optimal management.As further reports of adrenal axis recovery emerge, this may influence the counselling given to patients with Addison's disease in the future.

Gamma knife radiosurgery: a safe and effective salvage treatment for pituitary tumours not controlled despite conventional radiotherapy.

OBJECTIVE: We report the use of 'gamma knife' (GK) radiosurgery in 25 patients with pituitary adenomas not cured despite conventional therapy, including external beam radiotherapy. PATIENTS AND METHODS: All patients had previously received conventional radiotherapy for a mean of 11.8 years prior to receiving GK; 23 out of 25 had also undergone pituitary surgery on at least one occasion. Seventeen had hyperfunctioning adenomas that still required medical therapy without an adequate biochemical control--ten somatotroph adenomas, six corticotroph adenomas and one prolactinoma, while eight patients had non-functioning pituitary adenomas (NFPAs). RESULTS: Following GK, mean GH fell by 49% at 1 year in patients with somatotroph tumours. Serum IGF1 fell by 32% at 1 year and by 38% at 2 years. To date, 80% of the patients with acromegaly have achieved normalisation of IGF1, and 30% have also achieved a mean GH level of <1.8 ng/ml correlating with normalised mortality. A total of 75% NFPAs showed disease stabilisation or shrinkage post GK. The patient with a prolactinoma showed a dramatic response: 75% reduction in prolactin at 2 years, with a marked shrinkage on magnetic resonance imaging. The results in corticotroph adenomas were variable. Prior to GK, 72% of the patients were panhypopituitary, and 42% of the remainder have developed new anterior pituitary hormone deficiencies to date. No other adverse events have been detected at a mean follow-up of 36.4 months. CONCLUSIONS: These data indicate that GK is a safe and effective adjunctive treatment for patients with NFPAs and acromegaly not satisfactorily controlled with surgery and radiotherapy.

The aberrant expression of the gastric inhibitory polypeptide (GIP) receptor in adrenal hyperplasia: does chronic adrenocorticotropin exposure stimulate up-regulation of GIP receptors in Cushing's disease?

CONTEXT: Cortisol secretion is usually under the control of ACTH. However, cortisol secretion occurs in response to gastric inhibitory polypeptide (GIP) in rare cases of food-dependent Cushing's syndrome (CS). OBJECTIVE: We have investigated whether chronic ACTH stimulation or activation of the ACTH signaling pathway might be associated with GIP receptor (GIPR) expression. DESIGN: RT-PCR analysis and primary culture of hyperplastic adrenals. PATIENTS: All patients presented with CS: 20 unilateral adrenal adenomas, five Cushing's disease, one food-dependent CS. RESULTS: RT-PCR revealed GIPR expression in all hyperplastic adrenals studied. No RT-PCR product could be detected in two normal adrenals or 20 hyperfunctioning adrenal adenomas. Primary culture revealed a significant cAMP response to ACTH in all adrenals available for study (EC50, 8.1 x 10(-10) M in normals, 4.7 x 10(-10) M in Cushing's disease, and 4.4 x 10(-10) M in food-dependent disease). However, cultures taken from all four ACTH-dependent and the one food-dependent hyperplastic adrenals studied were also responsive to GIP (EC50 for cAMP, 1.3 x 10(-9) M in Cushing's disease and 4.1 x 10(-10) M in food-dependent disease). Fasting cortisol levels were low in the case of food-dependant Cushing's, rising postprandially as predicted. However, there was no trend toward low fasting or high postprandial cortisol in the other cases, suggesting that the presence of detectable GIPR alone, albeit with definite function in vitro, is not sufficient to cause clinically food-dependent CS. CONCLUSIONS: These data are consistent with the hypothesis that chronic ACTH stimulation or constitutive activation of the ACTH signaling pathway may be associated with aberrant GIPR expression, and suggest one mechanism for the pathogenesis of this phenomenon.

Clinical features, diagnosis, treatment and molecular studies in paediatric Cushing's syndrome due to primary nodular adrenocortical hyperplasia.

BACKGROUND: Primary nodular adrenocortical hyperplasia (PNAH) is a well recognized, but infrequently studied cause of paediatric Cushing's syndrome (CS). OBJECTIVE: To assess presentation, diagnosis, radiological imaging, treatment and molecular analysis of patients with childhood-onset CS due to PNAH. PATIENTS: Four males and two females (median age 12.9 years, range 10.9-16.9 years) were studied. RESULTS: All had growth failure (mean height SDS -1.2; range -2.5-0.0), weight gain [mean body mass index (BMI) SDS 3.5; range 2.5-4.6] and clinical virilization, while five had hypertension [mean systolic blood pressure (SBP) 130 mmHg, diastolic blood pressure (DBP) 83 mmHg]. One patient had generalized lentigines, one had a tibial chondromyxomatous cyst and two had facial freckling. One patient had a family history of primary nodular adrenocortical disease. The diagnosis of CS was based on elevation of sleeping midnight serum cortisol and urinary free cortisol excretion, and impaired suppression of cortisol on both low- and high-dose dexamethasone suppression tests (DST). All patients had undetectable plasma ACTH with absent responses of both plasma ACTH and serum cortisol to an intravenous (i.v.) corticotrophin-releasing hormone (CRH) test. Computed tomography or magnetic resonance imaging showed normal or small adrenals, with nodules in two patients. All patients underwent bilateral adrenalectomy, performed by open (n = 2) or laparoscopic surgery (n = 4) at a mean of 0.4 years (range 0.2-0.8 years) from diagnosis. Hypercortisolaemia was treated preoperatively by metyrapone alone 0.50-0.75 g/day (n = 4), metyrapone 0.75-1.50 g/day + o'p'DDD/mitotane 1-2 g/day (n = 1), or ketoconazole (n = 1). Adrenal histology showed nodular cortical hyperplasia with shrinkage of intervening cortical tissue and pigmentation, present in four patients. Molecular analysis of the type 1-alpha regulatory subunit of protein kinase A (PRKAR1A) gene revealed a novel germline mutation in one patient. Postadrenalectomy, three patients, had catch-up growth with height velocities increasing from 3.0, 3.9 and 2.5-8.9, 8.3 and 9.0 cm/years, respectively. All six are well at a follow-up (mean 4.0 years; range 0.5-10.8 years). CONCLUSIONS: PNAH was associated with cushingoid features, virilization and hypertension with a lack of cortisol suppression on high DST, undetectable plasma ACTH and absent cortisol and ACTH responses to CRH. Adrenals were normal or small on imaging. PRKAR1A gene analysis may be helpful in the assessment of these patients.

Stereotactic radiosurgery XVI: a treatment for previously irradiated pituitary adenomas.

We report the use of stereotactic radiosurgery delivered through an adapted linear accelerator [stereotactic multiple arc radiation therapy (SMART)] for pituitary adenomas not cured by conventional therapy. All 21 patients had undergone conventional radiotherapy (45-50 Gy); 18 had also undergone prior surgery. This cohort comprised 13 patients with somatotrope adenomas, four with corticotrope adenomas, one with a lactotrope adenoma, and three with nonfunctioning pituitary adenomas (median follow-up: 33 months, range: 3-72 months). SMART has proven effective, safe, and rapidly acting. We observed an accelerated reduction in GH and IGF-I levels in acromegaly, with normalization of GH and IGF-I levels in 58%. Mean GH fell from 21.1 mU/liter to 7.9 mU/liter (7 ng/ml to 2.6 ng/ml, P < 0.01, median 25 months) faster than our predicted fall to 50% at 2 yr with conventional radiotherapy. Mean IGF-I fell from 624 ng/ml to 384 ng/ml (P < 0.001). Tumor growth was controlled in two of three nonfunctioning pituitary adenomas, and three of four corticotrope adenomas. There were no adverse effects from SMART. Notably there have been no visual sequelae or further loss of anterior pituitary function in this heavily pretreated group. Our data indicate that SMART is an effective complementary therapy for pituitary adenomas that have displayed a suboptimal response to conventional therapy including external irradiation.

The effects of growth hormone deficiency and replacement on glucocorticoid exposure in hypopituitary patients on cortisone acetate and hydrocortisone replacement.

OBJECTIVE: 11 beta-hydroxysteroid dehydrogenase type 1 (11 beta HSD1) converts inactive cortisone to active cortisol. 11 beta HSD1 activity is increased in GH deficiency and inhibited by GH and IGF-I in acromegaly. However it is not known whether these changes in cortisol metabolism exert significant effects during hydrocortisone therapy, and the effect has not been studied in patients taking cortisone acetate. We have studied the effect of GH induced 11 beta HSD1 inhibition in hypopituitary adults with severe GH deficiency to determine whether this inhibition has a different magnitude of effect when patients are taking different forms of glucocorticoid replacement therapy. DESIGN, PATIENTS AND MEASUREMENTS: We have taken the ratio of 11-hydroxy/11-oxo cortisol metabolites (Fm/Em), an established measure of net 11 beta HSD activity to reflect the likely balance of cortisol to cortisone exposure in tissues expressing 11 beta HSD1, principally the liver and adipose tissue. We recruited 10 hypopituitary adults all on established glucocorticoid replacement therapy, but who were not receiving GH. Patients were treated with their standard hydrocortisone therapy for one week and an equivalent dose of cortisone acetate in its place for one week in random order. Serial serum cortisol assessments and urine steroid profiles were performed on each treatment. All patients were then established on GH therapy for at least three months before the two-week cycle was repeated. Fm/Em was also measured in a control population (20F, 20M). RESULTS: Prior to GH, the ratio Fm/Em was greater with hydrocortisone compared with cortisone acetate replacement (1.17 +/- 0.28 and 0.52 +/- 0.09 respectively, P < 0.001) or with normal subjects (normal males: 0.81 +/- 0.24, females 0.66 +/- 0.14). Following GH replacement Fm/Em fell in patients on hydrocortisone and cortisone acetate (Pre-GH: 0.84 +/- 0.40, Post-GH: 0.70 +/- 0.34, P < 0.05) confirming the inhibition of 11 beta HSD1 by GH/IGF-I. Conversely, the ratio of urinary free cortisol/cortisone did not change indicating unchanged 11 beta HSD2 activity. Mean circulating cortisol also fell in all subjects after GH. This effect was greater during cortisone acetate treatment (-18.7%, P < 0.0001), than during hydrocortisone replacement (-10.9%, P < 0.05). CONCLUSIONS: Our data suggest that tissue exposure to glucocorticoid is supra-physiological in hypopituitary patients with untreated GH deficiency taking hydrocortisone replacement therapy. This situation is ameliorated by GH replacement therapy. However, local and circulating cortisol concentrations are more vulnerable to the inhibitory effect of GH on 11 beta HSD1 in patients taking cortisone acetate, such that serum cortisol assessments should be made in patients taking cortisone acetate after GH therapy to ensure that glucocorticoid replacement remains adequate.

Agonist activated adrenocorticotropin receptor internalizes via a clathrin-mediated G protein receptor kinase dependent mechanism.

The physiological effects of the pituitary hormone, adrenocorticotropic hormone (ACTH) on the adrenal are mediated by the melanocortin 2 receptor (MC2R), a G protein coupled receptor (GPCR) that signals via adenylate cyclase to elevate intracellular cyclic AMP (cAMP) levels. The function and expression of the receptor is likely to be a major determinant of the response to ACTH. Following repeated stimulation, the cAMP signal is diminished or desensitized. Prolonged desensitization may involve internalization of the receptor. Internalization may occur by at least two mechanisms--receptor mediated endocytosis via clathrin-coated pits and by caveolae mediated internalization. The mode of internalization for the endogenous MC2R in Y1 cells was determined using radiolabelled ACTH. Treatment of Y1 cells with hypertonic sucrose or with concanavalin A, which inhibit clathrin-mediated endocytosis, blocked internalization. Filipin and nystatin, which inhibit caveolae formation, did not influence internalization. A dominant negative GRK2 inhibited internalization whilst the protein kinase A (PKA) consensus site mutant MC2R (S208A) internalized normally. However, dominant negative V53D beta-arrestin-1 did not inhibit ACTH internalization in Y1 cells. In conclusion, it appears that the MC2R in Y1 cells internalizes by a G protein coupled receptor kinase (GRK) dependent clathrin-coated pit mechanism.

Desensitization of the Y1 cell adrenocorticotropin receptor: evidence for a restricted heterologous mechanism implying a role for receptor-effector complexes.

Receptor desensitization provides a potential mechanism for the regulation of adrenocortical adrenocorticotropin (ACTH) responsiveness. Using the mouse adrenocortical Y1 cell line we demonstrate that ACTH effectively desensitizes the cAMP response of its own receptor, the melanocortin 2 receptor (MC2R), in these cells with a maximal effect between 30 and 60 min. Neither forskolin nor isoproterenol (in Y1 cells stably transfected with the beta(2)-adrenergic receptor) desensitize this ACTH response. ACTH desensitizes its receptor at concentrations at which only a fraction of receptors are occupied, implying that this mechanism acts on agonist-unoccupied receptors. Y1 cells express G protein-coupled receptor kinase (GRK) 2 and 5, but stable expression of a dominant negative GRK2 (K220W) only marginally reduces the desensitization by ACTH. The protein kinase A (PKA) inhibitor, H89, extinguishes almost the entire desensitization response over the initial 30-min period at all concentrations of ACTH. A mutant MC2R in which the single consensus PKA phosphorylation site has been mutated (S208A) when expressed in MC2R-negative Y6 cells is also unable to desensitize. These data imply a heterologous, PKA-dependent, mode of desensitization, which is restricted to agonist-occupied and -unoccupied MC2R, possibly as a consequence of receptor/effector complexes that functionally compartmentalize this receptor.

The molecular pathogenesis of ACTH insensitivity syndromes.

ACTH insensitivity results from a group of rare autosomal recessive genetic defects. Familial glucocorticoid deficiency is one of these syndromes in which about half of all cases have inactivating mutations of the ACTH receptor. The remaining patients with this syndrome have defects in one or more other as yet unidentified genes that are unlinked to the ACTH receptor. The triple A syndrome is a distinct clinical syndrome which includes alacrima (absence of tears), achalasia and various neurological defects in addition to ACTH insensitivity. In all cases the defect lies in a gene located on chromosome 12.