Add to ORKGThe circadian timing system frequently undergoes alterations during aging, and these lead to fragmen-tation and dampening in activity and temperature cycles, disruption in sleep patterns, and loss of responsiveness to phase-shifting stimuli, which are common in elderly individuals (see, for example
Robust physiological circadian rhythms form an integral part of wellbeing. The aging process has be...
While aging has been associated with changes in the period and amplitude of circadian rhythms, littl...
Body function rhythmicity has a key role in the regulation of internal timing and adaptation to the ...
Biological rhythms, and especially the sleep/wake cycle, are frequently disrupted during senescence....
Aging is associated with a deterioration of daily (circadian) rhythms in physiology and behavior. De...
Animals have neural structures that allow them to anticipate environmental changes and then regulate...
Circadian timing systems, like most physiological processes, cannot escape the effects of aging. Wit...
Circadian timing systems, like most physiological processes, cannot escape the effects of aging. Wit...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
Aging impairs circadian clock function, leading to disrupted sleep-wake patterns and a reduced capab...
Robust physiological circadian rhythms form an integral part of well-being. The aging process has be...
Mammalian circadian rhythms are generated by a network of transcriptional and translational loops in...
p>The suprachiasmatic nucleus (SCN) is considered the master circadian pacemaker in the mammalian br...
The mammalian circadian timing system is affected by aging. Analysis of the suprachiasmatic nucleus ...
Robust physiological circadian rhythms form an integral part of wellbeing. The aging process has be...
While aging has been associated with changes in the period and amplitude of circadian rhythms, littl...
Body function rhythmicity has a key role in the regulation of internal timing and adaptation to the ...
Biological rhythms, and especially the sleep/wake cycle, are frequently disrupted during senescence....
Aging is associated with a deterioration of daily (circadian) rhythms in physiology and behavior. De...
Animals have neural structures that allow them to anticipate environmental changes and then regulate...
Circadian timing systems, like most physiological processes, cannot escape the effects of aging. Wit...
Circadian timing systems, like most physiological processes, cannot escape the effects of aging. Wit...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
Aging impairs circadian clock function, leading to disrupted sleep-wake patterns and a reduced capab...
Robust physiological circadian rhythms form an integral part of well-being. The aging process has be...
Mammalian circadian rhythms are generated by a network of transcriptional and translational loops in...
p>The suprachiasmatic nucleus (SCN) is considered the master circadian pacemaker in the mammalian br...
The mammalian circadian timing system is affected by aging. Analysis of the suprachiasmatic nucleus ...
Robust physiological circadian rhythms form an integral part of wellbeing. The aging process has be...
While aging has been associated with changes in the period and amplitude of circadian rhythms, littl...
Body function rhythmicity has a key role in the regulation of internal timing and adaptation to the ...