, 2012) and reductions in the cortical up-state down-state transi

, 2012) and reductions in the cortical up-state down-state transitions that underlie sleep slow oscillations (Moore et al., 2006). Here, we use the MAM-E17 model to demonstrate the inter-dependence between sleep architecture, neocortical slow-wave propagation, and ripple-spindle coordination during NREM sleep, showing that neurodevelopmental disruption can lead to impaired hippocampal-prefrontal cortical

network consolidation mechanisms. Data from 14 SHAM and 13 MAM animals implanted with intracranial EEG electrodes over anterior motor cortex and posterior visual cortex (see Figure S1 available online) are presented here. Following a recovery period of 3 weeks, EEG, body temperature, locomotor activity, and food and water intake were recorded continuously for a period of 144 hr; results are taken from the Docetaxel cell line final 48 hr of recording. MAM-E17 rats exhibited robust circadian rhythms in all parameters measured, none of which differed significantly from controls (Figure S1). However, MAM-E17 animals did show a reduction in total NREM sleep (see Table S1 and Figure S1); this reduction was largest during the first 6 hr of the light phase (CT0–CT5) when controls slept the

most (53.4% ± 1.4% NREM per hr), but remained significant during the second 6 hr period of the light phase (CT6–CT11) and the second 6 hr Selleckchem AZD2281 period of the dark phase (CT18–CT23). In contrast, there was no significant reduction in REM sleep. Time spent in each vigilance state

and two-way-ANOVA results are presented in Table S1. Sleep efficiency (time asleep/time spent in bed) in schizophrenia patients tends to decrease due to increased awakenings during the night (sleep fragmentation; see meta-analysis in Chouinard et al., 2004). Since rats have a polyphasic sleep cycle, we used sleep bout length as a measure of this sleep fragmentation (Figure 1). In controls, the first 1–2 hr science of the light phase (CT0–CT1) were associated with the longest sleep bouts (10.4 ± 1.8 min); MAM animals had a marked 48% reduction in NREM sleep bout length, particularly between CT0–CT1 (Figures 1A and 1B). The average length of the longest REM bout was similar in both SHAM and MAM animals (Figures 1C and 1D). Since sleep abnormalities in MAM-E17 rats were consistently restricted to NREM stages, we analyzed the neurophysiological features of NREM sleep in greater detail. Individual delta waves (0.3–3Hz) were detected in EEG at both anterior (motor cortex) and posterior (visual cortex) recording sites across the entire light phase (n = 8; Figures 2A, 2B, and S2). MAM and SHAM EEG showed similar delta wave densities and amplitudes over motor cortex. In contrast, we found a small change in the amplitude (MAM = 156.2 ± 21.8, SHAM = 172.6 ± 23.8μV) and a 50% reduction in the density of NREM delta waves over the visual cortex in MAM animals (MAM = 4.7 ± 1.2, SHAM = 9.4 ± 1.1 waves/min; p < 0.05; Figure 2B).

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