Different characteristics of cortical spreading depression in the sleep and wake states.

Abstract

The objective of this study is to characterize the effects of the sleep-wake cycle on neurovascular and behavioral characteristics of cortical spreading depression (CSD). There is an important bi-directional relationship between migraine and the sleep-wake cycle, but the basic mechanisms of this relationship are poorly understood. We have developed a minimally invasive microchip system to continuously monitor cerebral blood volume (CBV) with optical intrinsic signal (OIS), head movement, and multiple other physiological and behavioral parameters in freely behaving mice over weeks. Behavior is also monitored with simultaneous video recording. This system can also be used to intermittently trigger and record CSD and accompanying neurovascular and behavioral responses. CSD was triggered optically in different stages of the sleep-wake cycle. The optical stimulus threshold to trigger CSD was significantly higher in the wake state compared to sleep (stimulation duration=16.4±9.7s vs. 10.8±5.8s, p=0.037, n=6mice). CSD evoked in the wake versus sleep state produced changes in CBV that were smaller (largest relative change -4.5±5.0% ∆OIS vs. -14.3±8.5% ∆OIS, p=0.001) and shorter in duration (33:22±6:37 vs. 49:42±8:05min:s, p=0.012, n=6mice). The threshold for CSD and kinetics of associated CBV changes were correlated with the time since falling asleep or awakening (n=47 CSDs in 6mice). CSD triggered in the wake state was associated with a transient freezing behavior. CSD triggered during sleep typically caused a transient awakening and behavioral response. This was followed by a return to sleep until recovery from the sustained phase of decreased CBV that occurred 30-60min later, at which time there was consistent awakening with behaviors similar to those that occurred at CSD onset. CSD triggered in the wake state evoked a transient decrease in heart rate (from 11.9±0.8 to 9.6±0.8Hz, p=0.002, n=5), whereas when triggered in the sleep state there was a transient increase in HR (from 7.5±0.4Hz to 9.3±1.1Hz, p=0.016, n=5). The sleep-wake cycle has significant effects on CSD that may have relevance to the clinical presentations of migraine and brain injury.