Free-running circadian plasma cortisol rhythm in a blind human subject.

The plasma cortisol rhythm in man has been presumed to be an endogenous circadian rhythm, synchronized by some external stimulus to an exact 24-h period. Sleep/wake and 'social activity' cycles have been considered as candidates for this synchronizer. Previous studies have suggested that the dark/light phase shifts associated with the sleep-wake cycle may be the external synchronizer, rather than the sleep/wake cycle itself. A totally blind, but otherwise normal subject was studied for a period of 50 days. Her hourly sleep/wake status and hourly integrated mean plasma cortisol concentrations were determined, and the data were subjected to non-parametric mathematical analysis. The subject was found to have a free-running rhythm in plasma cortisol with a period of approximately 24.5 h. Her sleep/wake rhythm, determined by similar analysis, had a period of exactly 24 h. In addition to the dominant 24.5-h cortisol rhythm, there appeared to be a minor 24-h cortisol rhythm with a peak that coincided approximately with the time of awakening. It was not possible to determine whether this sleep/wake-related peak represented a minor component of the circadian rhythm, synchronized by some stimulus associated with sleep/wake activity, or merely an acute response to awakening itself. Nevertheless, the two rhythms exhibited 'beating' behaviour, resulting in maximal peak cortisol concentrations when they were in synchrony and minimal peak concentrations when they were not. It is concluded that environment dark/light phase shifts are the dominant synchronizer of the circadian rhythm in plasma cortisol concentrations in man, as they are for a variety of circadian rhythms in other living things.