Add to ORKGThe suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a neural oscillator system implicated in the timing of a wide variety of biological processes. The circadian cycles established by this biological clock occur throughout nature and have a period of approximately 24 h. With advancing age, however, these daily fluctuations deteriorate, leading to disrupted cycles with a reduced amplitude. In humans, age-related changes have been described for hormonal rhythms, body core temperature, sleep-wakefulness and several other behavioral cycles. It appears that the disruption of circadian rhythms and the increased incidence of disturbed sleep during aging are paralleled by age-related alterations in the n...
In mammals, the central pacemaker that coordinates 24-hr rhythms is located in the suprachiasmatic n...
The mammalian circadian timing system is affected by aging. Analysis of the suprachiasmatic nucleus ...
Many processes in mammalian body exhibit circadian rhythms. These rhythms are driven by an intricate...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
Animals have neural structures that allow them to anticipate environmental changes and then regulate...
In many animal species including humans, numerous processes exhibit 24-hour (h) rhythms. The circadi...
Body function rhythmicity has a key role in the regulation of internal timing and adaptation to the ...
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...
In mammals, the suprachiasmatic nuclei (SCNs) function as a circadian pacemaker that drives 24-h rhy...
Many organisms have developed an internal clock to cope with the daily and seasonal cycles in the en...
Aging is associated with a deterioration of daily (circadian) rhythms in physiology and behavior. De...
Circadian rhythms play an influential role in nearly all aspects of physiology and behavior in the v...
The circadian timing system frequently undergoes alterations during aging, and these lead to fragmen...
The earth’s rotation around its very own axis generates the phenomenon that we refer to as our day a...
In mammals, the central pacemaker that coordinates 24-hr rhythms is located in the suprachiasmatic n...
The mammalian circadian timing system is affected by aging. Analysis of the suprachiasmatic nucleus ...
Many processes in mammalian body exhibit circadian rhythms. These rhythms are driven by an intricate...
The suprachiasmatic nucleus (SCN) of the hypothalamus is considered to be a critical component of a ...
Animals have neural structures that allow them to anticipate environmental changes and then regulate...
In many animal species including humans, numerous processes exhibit 24-hour (h) rhythms. The circadi...
Body function rhythmicity has a key role in the regulation of internal timing and adaptation to the ...
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...
In mammals, the suprachiasmatic nuclei (SCNs) function as a circadian pacemaker that drives 24-h rhy...
Many organisms have developed an internal clock to cope with the daily and seasonal cycles in the en...
Aging is associated with a deterioration of daily (circadian) rhythms in physiology and behavior. De...
Circadian rhythms play an influential role in nearly all aspects of physiology and behavior in the v...
The circadian timing system frequently undergoes alterations during aging, and these lead to fragmen...
The earth’s rotation around its very own axis generates the phenomenon that we refer to as our day a...
In mammals, the central pacemaker that coordinates 24-hr rhythms is located in the suprachiasmatic n...
The mammalian circadian timing system is affected by aging. Analysis of the suprachiasmatic nucleus ...
Many processes in mammalian body exhibit circadian rhythms. These rhythms are driven by an intricate...