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Items: 1 to 20 of 282

1.

Sensitivity of the human circadian system to short-wavelength (420-nm) light.

Brainard GC, Sliney D, Hanifin JP, Glickman G, Byrne B, Greeson JM, Jasser S, Gerner E, Rollag MD.

J Biol Rhythms. 2008 Oct;23(5):379-86. doi: 10.1177/0748730408323089.

PMID:
18838601
2.

High-intensity red light suppresses melatonin.

Hanifin JP, Stewart KT, Smith P, Tanner R, Rollag M, Brainard GC.

Chronobiol Int. 2006;23(1-2):251-68.

PMID:
16687299
3.

Action spectrum for melatonin regulation in humans: evidence for a novel circadian photoreceptor.

Brainard GC, Hanifin JP, Greeson JM, Byrne B, Glickman G, Gerner E, Rollag MD.

J Neurosci. 2001 Aug 15;21(16):6405-12.

4.

Dim light adaptation attenuates acute melatonin suppression in humans.

Jasser SA, Hanifin JP, Rollag MD, Brainard GC.

J Biol Rhythms. 2006 Oct;21(5):394-404.

PMID:
16998159
5.

Toward optimizing lighting as a countermeasure to sleep and circadian disruption in space flight.

Fucci RL, Gardner J, Hanifin JP, Jasser S, Byrne B, Gerner E, Rollag M, Brainard GC.

Acta Astronaut. 2005 May-Jun;56(9-12):1017-24.

PMID:
15838948
6.
7.

Predicting human nocturnal nonvisual responses to monochromatic and polychromatic light with a melanopsin photosensitivity function.

Revell VL, Barrett DC, Schlangen LJ, Skene DJ.

Chronobiol Int. 2010 Oct;27(9-10):1762-77. doi: 10.3109/07420528.2010.516048.

PMID:
20969522
8.
10.

Short-wavelength enrichment of polychromatic light enhances human melatonin suppression potency.

Brainard GC, Hanifin JP, Warfield B, Stone MK, James ME, Ayers M, Kubey A, Byrne B, Rollag M.

J Pineal Res. 2015 Apr;58(3):352-61. doi: 10.1111/jpi.12221.

PMID:
25726691
11.

Preliminary evidence for spectral opponency in the suppression of melatonin by light in humans.

Figueiro MG, Bullough JD, Parsons RH, Rea MS.

Neuroreport. 2004 Feb 9;15(2):313-6.

PMID:
15076759
12.

Retinal mechanisms determine the subadditive response to polychromatic light by the human circadian system.

Figueiro MG, Bierman A, Rea MS.

Neurosci Lett. 2008 Jun 20;438(2):242-5. doi: 10.1016/j.neulet.2008.04.055. Epub 2008 Apr 20.

PMID:
18479818
13.

Light-induced melatonin suppression in humans with polychromatic and monochromatic light.

Revell VL, Skene DJ.

Chronobiol Int. 2007;24(6):1125-37.

PMID:
18075803
14.

Wavelength-dependent effects of evening light exposure on sleep architecture and sleep EEG power density in men.

M√ľnch M, Kobialka S, Steiner R, Oelhafen P, Wirz-Justice A, Cajochen C.

Am J Physiol Regul Integr Comp Physiol. 2006 May;290(5):R1421-8. Epub 2006 Jan 26.

PMID:
16439671
15.

Effect of light wavelength on suppression and phase delay of the melatonin rhythm.

Wright HR, Lack LC.

Chronobiol Int. 2001 Sep;18(5):801-8.

PMID:
11763987
16.

Spectral sensitivity of melatonin suppression in the zebrafish pineal gland.

Ziv L, Tovin A, Strasser D, Gothilf Y.

Exp Eye Res. 2007 Jan;84(1):92-9. Epub 2006 Oct 24.

PMID:
17067577
17.
18.

High sensitivity of the human circadian melatonin rhythm to resetting by short wavelength light.

Lockley SW, Brainard GC, Czeisler CA.

J Clin Endocrinol Metab. 2003 Sep;88(9):4502-5.

PMID:
12970330
19.

Differential effects of light wavelength in phase advancing the melatonin rhythm.

Wright HR, Lack LC, Kennaway DJ.

J Pineal Res. 2004 Mar;36(2):140-4.

PMID:
14962066
20.

The suppression of nocturnal pineal melatonin in the Syrian hamster: dose-response curves at 500 and 360 nm.

Podolin PL, Rollag MD, Brainard GC.

Endocrinology. 1987 Jul;121(1):266-70.

PMID:
3595519

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