Denis G. Gubin, Dietmar Weinert and Tatyana V. Bolotnova Pages 14 - 25 ( 12 )
This review summarizes current knowledge on deteriorations in temporal order with advanced age. Changes of the overt rhythms will be described but also their putative causes and possible treatments of the disturbances. In aging animals and humans, all rhythm characteristics change. The most prominent changes are a decrease of circadian amplitude, leading to an extra-circadian dissemination (ECD), and a diminished ability to synchronize with the periodic environment.
ECD is a shift from circadian to ultradian and infradian frequencies, accompanied by the loss of day-to-day phase stability. Responsiveness to photic and non-photic cues is decreased. As a consequence, both internal and external temporal order are disturbed not only under steady-state conditions but and even more markedly after changes in the periodic environment or following stressful events.
Many of the changes seem to occur within the suprachiasmatic nucleus (SCN), the central circadian pacemaker, itself. The number of functioning neurons decreases with advancing age as does the coupling between them. Accordingly, the SCN generates a weaker and less stable circadian signal, insufficient to entrain peripheral oscillators properly or to regulate body functions rhythmically. However, age-dependent disturbances in peripheral organs must also be considered. These changes may occur at different ages, thus causing further internal desynchronization.
Several possibilities exist with regard to treating circadian disruptions or at least minimizing their consequences for health and fitness and preventing sleep disturbances. Benefits of bright light, melatonin and other chronobiotics, physical activity, social contacts and regular feeding schedules in preserving the temporal order of aged organisms are discussed.
Aging, circadian amplitudes, circadian disruption, circadian system, entrainment, extra-circadian dissemination, health problems, internal synchronization, treatment.
Martin Luther University Halle-Wittenberg, Institute of Biology/Zoology, Domplatz 4, 06108 Halle/Saale, Germany.