Neuroendocrinology
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Comparative Study Controlled Clinical Trial
Growth hormone deficiency and memory functioning in adults visualized by functional magnetic resonance imaging.
Cognitive functioning, especially memory performance, is known to be impaired in patients with childhood-onset growth hormone deficiency (CO-GHD), and growth hormone substitution has been found to counteract this memory impairment. Neuropsychological and functional magnetic resonance imagining (fMRI) data acquired during a working memory task in 13 childhood-onset GH-deficient patients were compared with 13 age, sex and education level matched healthy controls. Results demonstrated that there is no difference in the quality of the performance in the working memory task between GH-deficient patients and control subjects. ⋯ Increasing task load was also associated with an increase in brain activity in similar areas in patients compared to control subjects. In conclusion, this fMRI study shows that GH-deficient patients have a subnormal memory speed, but no impaired quality of memory performance, which may be due to compensatory recruitment of dorsal prefrontal brain regions. These findings indicate that the GH-IGF-1 axis contributes to prefrontal functioning in patients with CO-GHD.
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Randomized Controlled Trial
Corticotropin-releasing hormone reduces pressure pain sensitivity in humans without involvement of beta-endorphin(1-31), but does not reduce heat pain sensitivity.
In the present study the effects of intravenously administered corticotropin-releasing hormone (CRH) on the release of proopiomelanocortin (POMC) derivatives such as adrenocorticotropic hormone (ACTH), beta-lipotropin (beta-LPH) and beta-endorphin (beta-END) as well as direct effects of CRH on pain sensitivity were examined. In 16 healthy volunteers we studied the effects of 100 microg intravenously administered CRH in absence or presence of 12 mg naloxone on heat or pressure pain sensitivity, using a double-blind, cross-over and placebo-controlled design. To evaluate analgesic effects of CRH via release of POMC derivatives, we determined plasma concentrations of beta-END-immunoreactive material (IRM), authentic beta-END (beta-END(1-31)) and beta-LPH IRM, in parallel with heat and pressure pain tolerance thresholds before and 15 and 30 min after treatment with CRH (or placebo), and 5 min after naloxone (or placebo) administration which was administered 40 min after CRH (or placebo) injection. ⋯ Furthermore, CRH did not induce increases of heat pain tolerance thresholds, but of pressure pain tolerance thresholds, which, however, were not reversible by naloxone. Neither beta-END nor beta-LPH IRM nor beta-END(1-31) levels correlated with heat or pressure pain tolerance thresholds. We conclude that CRH does not modulate heat, but pressure pain; POMC derivatives like beta-END IRM, beta-END(1-31) or beta-LPH do not mediate this effect.