Trials / Unknown

UnknownNCT02005978

Brain-gut Interaction in Irradiated Patients With Acromegaly

Incretin Effect and Gastrointestinally Mediated Glucose Disposal in Cranially Irradiated Patients With Acromegaly

Summary

Acromegaly is caused by increased production of growth hormone (GH) from a usually benign pituitary tumor. The disease causes a number of complications including disturbances in glucose metabolism and about 25% of the patients develop diabetes. Most patients are cured upon surgery alone, but many require additional medical treatment, and in rare cases radiotherapy. A disadvantage of radiotherapy is a risk of radiation damage to nearby areas such as the hypothalamus. The true extent of irradiation induced hypothalamic dysfunction, however, remains uncertain. Data have shown significant improvement and often normalization of glucose metabolism upon surgical cure from acromegaly, whereas data suggest that such improvement is less likely in patients receiving additional radiotherapy. The hypothalamus is part of the so-called 'gut-brain axis', where gastrointestinal hormones through interaction with the hypothalamus plays a significant role in the regulation of appetite and glucose metabolism. Incretins are the most prominent gastrointestinal hormones involved, with the incretin-effect referring to food-induced insulin secretion, which in healthy subjects is responsible for up to 70% of the insulin response after oral glucose intake. The investigators hypothesize that radiation conditional influence of the hypothalamus may compromise the gut-brain activity and thereby affect the incretin-effect and gastrointestinal-mediated glucose disposal (GIGD; i.e. sum of all gastrointestinal-derived factors that contribute to glucose metabolism) in patients with acromegaly. The aim of the study is to investigate the long term effect of surgery with or without additional fractionated radiation therapy on glucose metabolism as assessed by incretin-effect and GIGD in acromegaly, in order to identify possible associations with treatment modality. The study population include 24 acromegalic patients who have previously received (N=12) or did not receive (N=12) pituitary irradiation as part of their treatment, and 12 matched healthy controls.

Detailed description

Acromegaly is caused by increased production of growth hormone (GH) from a usually benign pituitary tumor. The disease causes a number of complications including disturbances in glucose metabolism and about 25% of the patients develop diabetes. Most patients are cured upon surgery alone, but many require additional medical treatment, and in rare cases radiotherapy. A disadvantage of radiotherapy is a risk of radiation damage to nearby areas such as the hypothalamus. The true extent of irradiation induced hypothalamic dysfunction, however, remains uncertain. Data have shown significant improvement and often normalization of glucose metabolism upon surgical cure from acromegaly, whereas data suggest that such improvement is less likely in patients receiving additional radiotherapy. The hypothalamus is part of the so-called 'gut-brain axis', where gastrointestinal hormones through interaction with the hypothalamus plays a significant role in the regulation of appetite and glucose metabolism. Incretins are the most prominent gastrointestinal hormones involved, with the incretin-effect referring to food-induced insulin secretion, which in healthy subjects is responsible for up to 70% of the insulin response after oral glucose intake. The investigators hypothesize that radiation conditional influence of the hypothalamus may compromise the gut-brain activity and thereby affect the incretin-effect and gastrointestinal-mediated glucose disposal (GIGD; i.e. sum of all gastrointestinal-derived factors that contribute to glucose metabolism) in patients with acromegaly. The aim of the study is to investigate the long term effect of surgery with or without additional fractionated radiation therapy on glucose metabolism as assessed by incretin-effect and GIGD in acromegaly, in order to identify possible associations with treatment modality. Design: observational case-control study Participants: Acromegalic patients who have previously received (N=12) or did not receive (N=12) pituitary irradiation as part of their treatment, and 12 matched healthy controls. Investigation: Extended oral glucose tolerance test (OGTT), followed by isoglycaemic intravenous glucose infusion (IGII) with concurrent measurement of plasma-glucose, -insulin, -C-peptide, -glucagon, glucagon-like peptide-1 (GLP-1) and glucose-dependent insulinotropic peptide (GIP) at fixed time-points.

Conditions

• Acromegaly

Timeline

Start date

2013-04-01

Primary completion

2017-07-01

Completion

2017-12-01

First posted

2013-12-09

Last updated

2016-09-20

Locations

1 site across 1 country: Denmark

Source: ClinicalTrials.gov record NCT02005978. Inclusion in this directory is not an endorsement.