View clinical trials related to Pituitary Tumors.
Filter by:Recent 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.
The purpose of this study is to allow continued use of pasireotide in patients who are on pasireotide treatment in a Novartis-sponsored study and are benefiting from the treatment as judged by the investigator.
Many types of cancers overexpress a receptor for the vitamin folate (Folate Receptor). This Phase 2 study will utilize a standard imaging radionuclide, technetium-99m, conjugated to a ligand (EC20) designed to bind to the folate receptor. The study is designed as an open-label, baseline-controlled study.
The purpose of this study is to evaluate patient nasal outcome following endo-nasal surgery. This type of surgery is conducted for pituitary and skull base tumors. There is no published data on trauma to the nose during surgery and how it impacts nasal functioning. The investigators propose to develop a survey and administer it to patients before and after surgery to learn about their perception of nasal functioning.
Pleuropulmonary Blastoma (PPB) is a rare lung tumor which develops in childhood. The underlying genetic factors which contribute to the development and progression of PPB are not defined. We are working to identify the genetic factors which may contribute to the development of this rare tumor.
Adult 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).