Effect of growth hormone on human sleep energy

Abstract

Objective We wished, by means of power spectrum EEC analysis, to examine REM and delta sleep energy in adults with high and normal plasma growth hormone (GH) concentration design After a 3‐day regular sleep/wake schedule, all‐night polysomnographic recordings were performed on two consecutive nights before as well as one year after treatment for acromegaly by adenomectomy. The sleep energy was calculated by power spectrum analysis patients We studied nine patients aged 24–45 years with untreated active acromegaly. The same patients were reexamined one year after adenomectomy when plasma GH concentrations were normal measurements The acromegaly was verified biochemically by measuring basal plasma GH concentration and plasma GH during hyperglycaemia as well as Insulin‐like growth factor. Cerebral computer tomography (CT) and magnetic resonance (MR) scans revealed an intrasellar adenoma in all patients. The resulting sleep records obtained before and after adenomectomy were subjected to power spectrum analysis and a manually blinded sleep scoring results The power spectrum analysis showed that when circulating GH was elevated the energy In the REM sleep per minute was significantly higher compared to the REM energy/mm after surgery when GH concentration had normalized. A similar relation was found for delta sleep (stage 3 + 4, deep sleep) where the energy per minute was higher before treatment than after conclusions The study demonstrates that plasma GH concentration was correlated to sleep energy. During high GH concentration the REM and delta sleep energy were high and normalization of plasma GH was followed by normalization of REM and delta sleep energy per time unlt