M
Margaret L. Moline
Researcher at NewYork–Presbyterian Hospital
Publications - 21
Citations - 1064
Margaret L. Moline is an academic researcher from NewYork–Presbyterian Hospital. The author has contributed to research in topics: Circadian rhythm & Slow-wave sleep. The author has an hindex of 15, co-authored 21 publications receiving 1035 citations. Previous affiliations of Margaret L. Moline include Harvard University.
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Journal ArticleDOI
Chronobiology of aging: Temperature, sleep-wake rhythms and entrainment
TL;DR: Studies were carried out on a group of six young and six older normal men who lived under conditions of temporal, but not social isolation, from three to eight weeks, demonstrating a reduction in the period and amplitude of the body temperature rhythms during free-running in the older group.
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Age-related differences in recovery from simulated jet lag.
Margaret L. Moline,Charles P. Pollak,T H Monk,L S Lester,D R Wagner,S M Zendell,R C Graeber,C A Salter,E Hirsch +8 more
TL;DR: The results suggest that the symptoms reported by the middle-aged subjects may be due mainly to difficulty maintaining sleep at early times of the circadian day, and the compensatory response to sleep deprivation may also be less robust in middle- aged individuals traveling eastbound.
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The Taskforce 2000 survey on medical education in sleep and sleep disorders.
Raymond C. Rosen,Mark W. Mahowald,Andrew L. Chesson,Karl Doghramji,Rochelle Goldberg,Margaret L. Moline,Richard P. Millman,Gary Zammit,Burton Mark,William C. Dement +9 more
TL;DR: Teaching of sleep laboratory procedures and clinical evaluation of sleep-disordered patients is limited at either an undergraduate or postgraduate level, and the lack of time in the medical curriculum and the need for better resources and teaching facilities are noted.
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Effects of phototherapy on non-seasonal unipolar and bipolar depressive spectrum disorders
TL;DR: All outcome measures, which included the SIGH-SAD, CGI, and the Anxiety and Depressive Factors of the SCL-90, showed significant improvement in the bipolar vs. the unipolar spectrum patients.
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Task variables determine which biological clock controls circadian rhythms in human performance
Timothy H. Monk,Elliot D. Weitzman,Jeffrey E. Fookson,Margaret L. Moline,Richard E. Kronauer,Philippa H. Gander +5 more
TL;DR: The results indicate that a simple manual dexterity task is almost entirely under the control of the temperature rhythm oscillator, whereas a more complex cognitive task demonstrates a periodicity which appears to be influenced by those oscillators controlling temperature and the sleep/wake cycle.