STUDY OBJECTIVES: To investigate chemical changes in the brains of healthy adults after sleep deprivation and recovery sleep, using phosphorous magnetic resonance spectroscopy. DESIGN: Three consecutive nights (baseline, sleep deprivation, recovery) were spent in the laboratory. Objective sleep measures were assessed on the baseline and recovery nights using polysomnography. Phosphorous magnetic resonance spectroscopy scans took place beginning at 7 am to 8 am on the morning after each of the 3 nights. SETTING: Sleep laboratory in a private psychiatric teaching hospital. PARTICIPANTS: Eleven healthy young men. INTERVENTIONS: Following a baseline night of sleep, subjects underwent a night of total sleep deprivation, which involved supervision to ensure the absence of sleep but was not polysomnographically monitored. MEASUREMENTS AND RESULTS: No significant changes in any measure of brain chemistry were observed the morning after a night of total sleep deprivation. However, after the recovery night, significant increases in total and beta-nucleoside triphosphate and decreases in phospholipid catabolism, measured by an increase in the concentration of glycerylphosphorylcholine, were observed. Chemical changes paralleled some changes in objective sleep measures. CONCLUSIONS: Significant chemical changes in the brain were observed following recovery sleep after 1 night of total sleep deprivation. The specific process underlying these changes is unclear due to the large brain region sampled in this exploratory study, but changes may reflect sleep inertia or some aspect of the homeostatic sleep mechanism that underlies the depletion and restoration of sleep. Phosphorous magnetic resonance spectroscopy is a technique that may be of value in further exploration of such sleep-wake functions.
STUDY OBJECTIVES: To investigate chemical changes in the brains of healthy adults after sleep deprivation and recovery sleep, using phosphorous magnetic resonance spectroscopy. DESIGN: Three consecutive nights (baseline, sleep deprivation, recovery) were spent in the laboratory. Objective sleep measures were assessed on the baseline and recovery nights using polysomnography. Phosphorous magnetic resonance spectroscopy scans took place beginning at 7 am to 8 am on the morning after each of the 3 nights. SETTING: Sleep laboratory in a private psychiatric teaching hospital. PARTICIPANTS: Eleven healthy young men. INTERVENTIONS: Following a baseline night of sleep, subjects underwent a night of total sleep deprivation, which involved supervision to ensure the absence of sleep but was not polysomnographically monitored. MEASUREMENTS AND RESULTS: No significant changes in any measure of brain chemistry were observed the morning after a night of total sleep deprivation. However, after the recovery night, significant increases in total and beta-nucleoside triphosphate and decreases in phospholipid catabolism, measured by an increase in the concentration of glycerylphosphorylcholine, were observed. Chemical changes paralleled some changes in objective sleep measures. CONCLUSIONS: Significant chemical changes in the brain were observed following recovery sleep after 1 night of total sleep deprivation. The specific process underlying these changes is unclear due to the large brain region sampled in this exploratory study, but changes may reflect sleep inertia or some aspect of the homeostatic sleep mechanism that underlies the depletion and restoration of sleep. Phosphorous magnetic resonance spectroscopy is a technique that may be of value in further exploration of such sleep-wake functions.
Authors: David T Plante; George H Trksak; J Eric Jensen; David M Penetar; Caitlin Ravichandran; Brady A Riedner; Wendy L Tartarini; Cynthia M Dorsey; Perry F Renshaw; Scott E Lukas; David G Harper Journal: Sleep Date: 2014-12-01 Impact factor: 5.849
Authors: George H Trksak; J Eric Jensen; David T Plante; David M Penetar; Wendy L Tartarini; Melissa A Maywalt; Michael Brendel; Cynthia M Dorsey; Perry F Renshaw; Scott E Lukas Journal: Drug Alcohol Depend Date: 2009-09-22 Impact factor: 4.492
Authors: Denise Bernier; Robert Bartha; Sivakumaran Devarajan; Frank P Macmaster; Matthias H Schmidt; Benjamin Rusak Journal: J Psychiatry Neurosci Date: 2009-09 Impact factor: 6.186
Authors: George H Trksak; Bethany K Bracken; J Eric Jensen; David T Plante; David M Penetar; Wendy L Tartarini; Melissa A Maywalt; Cynthia M Dorsey; Perry F Renshaw; Scott E Lukas Journal: ScientificWorldJournal Date: 2013-10-22
Authors: Juliane Fagotti; Adriano D S Targa; Lais S Rodrigues; Ana Carolina D Noseda; Flávia W C Dorieux; Franciele F Scarante; Jessica L Ilkiw; Fernando M Louzada; Namrata R Chowdhury; Daan R van der Veen; Benita Middleton; Jeroen L A Pennings; Jonathan R Swann; Debra J Skene; Marcelo M S Lima Journal: Sci Rep Date: 2019-02-13 Impact factor: 4.379