RESUMEN
Many people in our modern civilized society sleep later on free days compared to work days. This discrepancy in sleep timing will lead to so-called 'social jetlag' on work days with negative consequences for performance and health. Light therapy in the morning is often proposed as the most effective method to advance the circadian rhythm and sleep phase. However, most studies focus on direct effects on the circadian system and not on posttreatment effects on sleep phase and sleep integrity. In this placebo-controlled home study we investigated if blue light, rather than amber light therapy, can phase shift the sleep phase along with the circadian rhythm with preservation of sleep integrity and performance. We selected 42 participants who suffered from 'social jetlag' on workdays. Participants were randomly assigned to either high-intensity blue light exposure or amber light exposure (placebo) with similar photopic illuminance. The protocol consisted of 14 baseline days without sleep restrictions, 9 treatment days with either 30-min blue light pulses or 30-min amber light pulses in the morning along with a sleep advancing scheme and 7 posttreatment days without sleep restrictions. Melatonin samples were taken at days 1, 7, 14 (baseline), day 23 (effect treatment), and day 30 (posttreatment). Light exposure was recorded continuously. Sleep was monitored through actigraphy. Performance was measured with a reaction time task. As expected, the phase advance of the melatonin rhythm from day 14 to day 23 was significantly larger in the blue light exposure group, compared to the amber light group (84 min ± 51 (SD) and 48 min ± 47 (SD) respectively; t36 = 2.23, p < 0.05). Wake-up time during the posttreatment days was slightly earlier compared to baseline in the blue light group compared to slightly later in the amber light group (-21 min ± 33 (SD) and +12 min ± 33 (SD) respectively; F1,35 = 9.20, p < 0.01). The number of sleep bouts was significantly higher in the amber light group compared to the blue light group during sleep in the treatment period (F1,32 = 4.40, p < 0.05). Performance was significantly worse compared to baseline at all times during (F1,13 = 10.1, p < 0.01) and after amber light treatment (F1,13 = 17.1, p < 0.01), while only in the morning during posttreatment in the blue light condition (F1,10 = 9.8, p < 0.05). The data support the conclusion that blue light was able to compensate for the sleep integrity reduction and to a large extent for the performance decrement that was observed in the amber light condition, both probably as a consequence of the advancing sleep schedule. This study shows that blue light therapy in the morning, applied in a home setting, supports a sleep advancing protocol by phase advancing the circadian rhythm as well as sleep timing.
Asunto(s)
Luz , Fototerapia , Fases del Sueño , Actigrafía , Adolescente , Adulto , Ritmo Circadiano , Femenino , Humanos , Síndrome Jet Lag , Masculino , Melatonina/metabolismo , Tiempo de Reacción , Sueño , Factores de Tiempo , Adulto JovenRESUMEN
Behaviour may contribute to changes in fitness prospects with age, for example through effects of age-dependent social dominance on resource access. Older individuals often have higher dominance rank, which may reflect a longer lifespan of dominants and/or an increase in social dominance with age. In the latter case, increasing dominance could mitigate physiological senescence. We studied the social careers of free-living jackdaws over a 12 year period, and found that: (i) larger males attained higher ranks, (ii) social rank increased with age within individuals, and (iii) high-ranked individuals had shorter lifespan suggesting that maintaining or achieving high rank and associated benefits comes at a cost. Lastly, (iv) social rank declined substantially in the last year an individual was observed in the colony, and through its effect on resource access this may accelerate senescence. We suggest that behaviour affecting the ability to secure resources is integral to the senescence process via resource effects on somatic state, where behaviour may include not only social dominance, but also learning, memory, perception and (sexual) signalling. Studying behavioural effects on senescence via somatic state may be most effective in the wild, where there is competition for resources, which is usually avoided in laboratory conditions.
Asunto(s)
Envejecimiento , Cuervos/fisiología , Predominio Social , Animales , Longevidad , Estudios Longitudinales , MasculinoRESUMEN
Adolescence is a transitional phase during which the juvenile develops into an independent adult individual. In this period in particular frontal cortical brain regions and related neural circuitry are structurally remodeled to a relatively high extent resulting in a refined connectivity and functionality of these brain regions in adulthood. In this review we aim to address the question whether a high structural neuronal plasticity during adolescence makes this developmental period particularly vulnerable to lasting detrimental effects of stress. To answer this question we focus on results from experimental animal research on behavioral, physiological and neurobiological consequences of stress during adolescence. There are indeed results from animal models on stress that confirm that adolescent stress can lastingly alter adult brain and behavior. Since many studies, however, have shown that long-lasting effects of stress also occur in other phases of life as the perinatal period and adulthood the data do not suggest that adolescents are particularly vulnerable to the negative consequences of stress. The outcome of many of the studies on adolescent stress also emphasizes the high resilience of adolescent animals to develop long-lasting psychopathological changes in behavior after being exposed to adolescent stress.