Glycemic Fluctuations in Newly Diagnosed Growth Hormone-Secreting Pituitary Adenoma and Cushing...
Pituitary AdenomaGlucose fluctuations present not only in patients with diabetes mellitus but also in subjects with normal glucose tolerance or impaired glucose regulation. People with Growth Hormone-Secreting Pituitary Adenoma and Cushing Syndrome are at risk of impaired glucose metabolism. Glycemic variability is poorly studied in the nondiabetic individuals. The aim of the study is to investigate the characteristics of glucose fluctuations in the newly diagnosed Growth Hormone-Secreting Pituitary Adenoma and Cushing Syndrome individuals.
Molecular Imaging of Pituitary Adenomas
Pituitary AdenomaBackground: Pituitary adenomas affect 10% of the population. Surgery offers the most cost-effective treatment modality but cure rates are only 40-70%, in part due to the limitations of Magnetic Resonance Imaging (MRI) in visualising small tumours (up to 40% are undetected) and discriminating adenomatous tissue from healthy pituitary or post-surgical change. Positron emission tomography (PET) imaging may improve localisation but current tracers have short half-lives and are unsuitable for routine use. The dopaminergic system regulates pituitary growth and function, as evidenced by the use of dopamine D2 receptor agonists as medical therapy. Dopaminergic PET tracers, including 18F-FDOPA (6-[18F]-L-fluoro-L-3,4-dihydroxyphenylalanine) and 18F (fluorine 18)-Fallypride (which binds to D2/D3 receptors), might thus improve management by enhancing tumour discrimination and quantifying D2 receptor expression. Aim: To establish whether imaging changes in dopaminergic transmission and receptor function has the potential to improve localisation of pituitary adenomas. Methods: Subjects with pituitary adenomas will undergo 18F-FDOPA and 18F-Fallypride PET scans in addition to standard pituitary MRI. Quantification of binding potential combined with MRI co-registration to provide enhanced anatomical definition will be applied. In vivo D2 receptor binding will be correlated with ex vivo D2 receptor mRNA (messenger ribonucleic acid) and protein expression from tumour samples removed at surgery.
Multicentric Prospective Validation of the Zurich Pituitary Score
Pituitary AdenomaPredictive analytics for GTR, EOR and RV are useful in surgical decision-making, particularly whenever there is no unequivocal indication for surgery. Several factors have been shown to have a role in predicting GTR. Among these, the Knosp classification has proven over the years to be a good predictor of GTR. The score is based on the lateral extension of the adenoma in relation the the intracranial bedding of the internal carotid artery. However, recent literature has demonstrated that the Knosp classification suffers from relatively poor interrater agreement. Moreover the classification was conceived in an era when endoscopic techniques were not available: nowadays endoscopic technique allows visualization and possibly also reaching portions of adenoma which at the time when the Knosp classification was introduced were simply not possible. Lastly, the efficacy of the Knosp's score in predicting also EOR and RV has never been tested. Recently a new score - the Zurich Pituitary Score (ZPS) has been proposed at the University Hospital of Zürich (USZ). The score has proved in the examined series to be more powerful than the Knosp classification in predicting GTR, EOR and RV. A good interrater agreement was also demonstrated. The score however, has been validated only in a monocentric setting with a limited number of patients. The aim of this study is to assess the (1) predictive ability of the ZPS for GTR, EOR, and RV, and (2) the inter-rater agreement of the ZPS in an external validation study.
Identification of GENEtic Markers of Aggressiveness and Malignancy by Array Comparative Genomic...
Pituitary TumorsRecent studies estimate that the prevalence of pituitary adenomas is approximately 1/1500 persons. Pituitary tumours are usually considered as benign. However, local invasion is reported in 35-40% of pituitary adenomas; resistance to medical treatment or recurrence leading to multimodal therapy is reported in about 15% of cases. These tumours are considered as aggressive pituitary tumours and present a distinct biological and clinical entity with continued growth despite multimodal therapy, including surgery and radiotherapy (McCormack et al., 2011). Whilst these tumours have malignant potential, the term of pituitary carcinoma is strictly reserved for those rare tumours (0.2%) with demonstrated craniospinal or systemic metastases (Heaney, 2011). Pituitary aggressive and malignant tumours are very difficult to control and ultimately prove to be lethal. It was suggested that early aggressive treatments (chemotherapy, radiotherapy) may control progression and occurrence of metastases. However, these therapeutic options are associated with important side effects limiting their use and the prediction of pituitary tumor behaviour remains a challenge. At the diagnosis, clinical signs are not specific and the results concerning proliferative factors (Ki-67 and P53), putative oncogenes (PTTG) conflict from one series to another. In a case-control retrospective study of a cohort of 410 patients (HYPOPRONOS), we validated a prognostic pathological classification based on histological and radiological data (J. Trouillas 2012 in preparation). Tumours were classified into 3 grades: grade 1= non-invasive tumour, grade 2= invasive tumour and grade 3 = aggressive-invasive tumor with the combination of radiological signs of invasion and 2 of 3 signs of increased proliferation (Ki-67 index>3%, number of mitoses>2 per 10 fields at 400X, P53 nuclear detection). It is now widely accepted that cancer is a clonal disease, which arises from a single normal cell and progresses thanks to the accumulation of DNA alterations (Sanson et al., 2011). To identify the role of these DNA alterations, we conducted array CGH analysis limited to 13 prolactin pituitary tumours, from frozen fragments, and identified allelic loss of chromosome 11 associated with aggressiveness and malignancy (Wierinckx et al., 2011). To confirm these encouraging results we propose to conduct a study on a large series of tumours, fixed and embed, and to be correlated the results to clinical data.
Copeptin as a Diagnostic Marker in the Management of Neurosurgical Patients With Disturbance of...
Pituitary AdenomaWater imbalance and consecutive electrolyte disturbances are common in the postoperative course of neurosurgical patients after pituitary surgery. Diabetes insipidus (DI) may complicate the postoperative course in as many as 30% of patients. Early and accurate diagnosis of water and electrolyte disturbances postoperatively is important for an adequate fluid and drug administration. However, identifying the causes is challenging/ ambiguous in clinical practice. Levels of antidiuretic hormone (ADH) might contribute to a straightforward diagnosis, though, its measurement is cumbersome. ADH is derived from a larger precursor peptide along with copeptin, which is a more stable peptide directly mirroring the production of ADH. Copeptin can be assayed readily in plasma. Aim: To investigate whether copeptin can accurately diagnose postoperative disturbances of water homeostasis (i.e. Diabetes insipidus and SIADH) in a cohort of patients undergoing intracranial tumor surgery.
Effect of 5 Years of GH Replacement on Atherosclerosis
HypopituitarismPituitary Tumors1 moreAdult patients with hypopituitarism under adequate conventional hormone replacement therapy have reduced life expectancy due to excess vascular events (1-4). Deficiency in GH secretion (GHD) is likely to play a major role in determining the excess mortality, since it is associated with lipid abnormalities, visceral adiposity, glucose intolerance, insulin resistance, hypertension, cardiac abnormalities and increased intima-media thickness (IMT) at major arteries (5). Beneficial effects of growth hormone (GH) replacement on cardiovascular risk factors have been demonstrated in several studies of hypopituitary GHD patients (5). GH replacement improves body composition and lipid profile (5): it is accepted that management of dyslipidaemia is crucial in primary and secondary prevention of cardiovascular disease and part of the excess vascular risk associated with hypopituitarism is likely to be due to dyslipidaemia (6). A meta-analysis of blinded, randomized, placebo-controlled trials with low doses and long-duration GH treatment showed that GH replacement has beneficial effects on cardiovascular risk by improving lean and fat body mass, total and LDL cholesterol levels, and diastolic blood pressure (7). Besides, GH replacement also induces improvement in cardiovascular markers (8), and cardiac performance (9). In small cohorts of GHD adults, beneficial effects of GH replacement for 6-24 mos have also been reported on surrogate parameters of atherosclerosis, such as intima-media thickness (IMT) at major arteries (10-13), while 6 months of GH deprivation is associated with an impairment of the cardiovascular risk profile (12). In a consistent series of men and women with hypopituitarism we reported, however, that two years of GH replacement is not adequate to normalize IMT levels at common carotid arteries (13). To give further insights on the likelihood of reversal of early atherosclerosis in severe GHD patients after prolonged GH replacement, we designed this 5-yr prospective, controlled study. Only men aged ≤50 yrs and with severe GHD were enrolled to avoid gender and aging interference (13). Main outcome measure was IMT at common carotid arteries; secondary measure was prevalence of insulin-resistance syndrome according with the American College of Endocrinology (14).
Evaluation of Factors in Human Brain Tumors
Brain NeoplasmGlioblastoma2 morePresently, patients with primary malignant brain tumors have a life expectancy of 15 weeks following surgery unless they receive additional types of therapy (chemotherapy, radiotherapy, and/or immunotherapy). Patients that receive additional therapy can increase life expectancy to 50 weeks. The statistics on the life expectancy and survival have increased efforts among researchers to develop new treatments for primary malignant brain tumors. This research project involves the growth and study of human brain tumor cells outside the body in the laboratory as part of an attempt to better understand these tumors and to develop more effective treatments for them.
Evaluation of Patients With Endocrine-Related Conditions
Adrenal InsufficiencyPituitary Neoplasm1 moreThis study will evaluate patients with a variety of endocrine disorders in order to 1) learn more about conditions that affect the endocrine glands (glands that secrete hormones) and 2) to train physicians in endocrinology. Patients of all ages with endocrine-related conditions may be eligible for evaluation under this protocol. Those enrolled may be required to provide blood, saliva, urine or stool samples, and to undergo ultrasound examination of the thyroid gland, ovaries or testes, adrenal glands or other parts of the body. Laboratory or X-ray studies may be done for diagnostic or treatment purposes. In some cases, patients will receive medical or surgical treatment for their disorder. Patients and family members of patients with a hereditary disorder may be asked to provide a blood sample for genetic analysis.
Validation of a Quality of Life Metric "Prolac-10"
ProlactinomaProlactin-Producing Pituitary Tumor3 moreThis is a short-term validation study of a quality of life metric "Prolac-10" for patients diagnosed with a prolactinoma, undergoing new medical therapy.
Interdisciplinary Pituitary Disorders Centre of Excellence: Assessment of Patient Education Tools...
Pituitary NeoplasmsProlactinoma3 moreThe purpose of this research study is to determine the utility of educational materials designed to inform patients of their pituitary condition, in an effort to assist the patients, families, and staff deal with pituitary tumours and related conditions in the best way possible. We have developed a website, informational videos, and a brochure for pituitary tumour patients and their families. The primary outcome measures will be 1) the level of knowledge that patients have of their condition before and after reviewing the materials provided; and 2) ease of use and user satisfaction of the materials. We hypothesize that our informative multimedia educational package will not only improve the health literacy and self-efficacy of patients and their families, but will also improve quality of care.