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Author Foster, R.G. url  doi
openurl 
  Title Neurobiology: bright blue times Type Journal Article
  Year 2005 Publication Nature Abbreviated Journal Nature  
  Volume 433 Issue 7027 Pages 698-699  
  Keywords Human Health; Animals; Circadian Rhythm/physiology/radiation effects; Color Perception/physiology/*radiation effects; Humans; *Light; Light Signal Transduction/*radiation effects; Mice; Retinal Ganglion Cells/cytology/physiology/radiation effects; Retinaldehyde/chemistry/metabolism; Rod Opsins/*metabolism; NASA Discipline Space Human Factors; Non-NASA Center  
  Abstract  
  Address  
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  Language English Summary Language Original Title  
  Series Editor Series Title Abbreviated Series Title  
  Series Volume Series Issue Edition  
  ISSN (up) 0028-0836 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:15716938 Approved no  
  Call Number LoNNe @ kagoburian @ Serial 750  
Permanent link to this record
 

 
Author Chamorro, E.; Bonnin-Arias, C.; Perez-Carrasco, M.J.; Munoz de Luna, J.; Vazquez, D.; Sanchez-Ramos, C. url  doi
openurl 
  Title Effects of light-emitting diode radiations on human retinal pigment epithelial cells in vitro Type Journal Article
  Year 2013 Publication Photochemistry and Photobiology Abbreviated Journal Photochem Photobiol  
  Volume 89 Issue 2 Pages 468-473  
  Keywords Human Health; Apoptosis/*radiation effects; Biological Markers/metabolism; Caspases/metabolism; Cell Survival/radiation effects; DNA Damage; Epithelial Cells/cytology/metabolism/*radiation effects; Histones/metabolism; Humans; Light; Membrane Potential, Mitochondrial/*radiation effects; Mitochondria/*radiation effects; Photoperiod; Primary Cell Culture; Reactive Oxygen Species/metabolism; Retinal Pigment Epithelium/cytology/metabolism/*radiation effects  
  Abstract Human visual system is exposed to high levels of natural and artificial lights of different spectra and intensities along lifetime. Light-emitting diodes (LEDs) are the basic lighting components in screens of PCs, phones and TV sets; hence it is so important to know the implications of LED radiations on the human visual system. The aim of this study was to investigate the effect of LEDs radiations on human retinal pigment epithelial cells (HRPEpiC). They were exposed to three light-darkness (12 h/12 h) cycles, using blue-468 nm, green-525 nm, red-616 nm and white light. Cellular viability of HRPEpiC was evaluated by labeling all nuclei with DAPI; Production of reactive oxygen species (ROS) was determined by H2DCFDA staining; mitochondrial membrane potential was quantified by TMRM staining; DNA damage was determined by H2AX histone activation, and apoptosis was evaluated by caspases-3,-7 activation. It is shown that LED radiations decrease 75-99% cellular viability, and increase 66-89% cellular apoptosis. They also increase ROS production and DNA damage. Fluorescence intensity of apoptosis was 3.7% in nonirradiated cells and 88.8%, 86.1%, 83.9% and 65.5% in cells exposed to white, blue, green or red light, respectively. This study indicates three light-darkness (12 h/12 h) cycles of exposure to LED lighting affect in vitro HRPEpiC.  
  Address Neuro-Computing and Neuro-Robotics Research Group, Universidad Complutense de Madrid, Madrid, Spain. eva.chamorro@opt.ucm.es  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
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  ISSN (up) 0031-8655 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:22989198 Approved no  
  Call Number LoNNe @ christopher.kyba @ Serial 511  
Permanent link to this record
 

 
Author Berson, D.M.; Dunn, F.A.; Takao, M. url  doi
openurl 
  Title Phototransduction by retinal ganglion cells that set the circadian clock Type Journal Article
  Year 2002 Publication Science (New York, N.Y.) Abbreviated Journal Science  
  Volume 295 Issue 5557 Pages 1070-1073  
  Keywords Human Health; Animals; Axons/ultrastructure; *Biological Clocks; *Circadian Rhythm; Dendrites/ultrastructure; Isoquinolines; Kinetics; Light; *Light Signal Transduction; Patch-Clamp Techniques; Rats; Rats, Sprague-Dawley; Retinal Ganglion Cells/chemistry/cytology/*physiology; Rod Opsins/analysis/physiology; Suprachiasmatic Nucleus/cytology/*physiology  
  Abstract Light synchronizes mammalian circadian rhythms with environmental time by modulating retinal input to the circadian pacemaker-the suprachiasmatic nucleus (SCN) of the hypothalamus. Such photic entrainment requires neither rods nor cones, the only known retinal photoreceptors. Here, we show that retinal ganglion cells innervating the SCN are intrinsically photosensitive. Unlike other ganglion cells, they depolarized in response to light even when all synaptic input from rods and cones was blocked. The sensitivity, spectral tuning, and slow kinetics of this light response matched those of the photic entrainment mechanism, suggesting that these ganglion cells may be the primary photoreceptors for this system.  
  Address Department of Neuroscience, Brown University, Providence, RI, 02912 USA. David_Berson@brown.edu  
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  Language English Summary Language Original Title  
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  Series Volume Series Issue Edition  
  ISSN (up) 0036-8075 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:11834835 Approved no  
  Call Number LoNNe @ kagoburian @ Serial 720  
Permanent link to this record
 

 
Author Meng, Y.; He, Z.; Yin, J.; Zhang, Y.; Zhang, T. url  doi
openurl 
  Title Quantitative calculation of human melatonin suppression induced by inappropriate light at night Type Journal Article
  Year 2011 Publication Medical & Biological Engineering & Computing Abbreviated Journal Med Biol Eng Comput  
  Volume 49 Issue 9 Pages 1083-1088  
  Keywords Algorithms; Circadian Rhythm/physiology/*radiation effects; Humans; *Lighting; Melatonin/*secretion; *Models, Biological; Retinal Cone Photoreceptor Cells/physiology/radiation effects; Retinal Ganglion Cells/physiology/radiation effects; Retinal Rod Photoreceptor Cells/physiology/radiation effects  
  Abstract Melatonin (C(1)(3)H(1)(6)N(2)O(2)) has a wide range of functions in the body. When is inappropriately exposed to light at night, human circadian rhythm will be interfered and then melatonin secretion will become abnormal. For nearly three decades great progresses have been achieved in analytic action spectra and melatonin suppression by various light conditions. However, so far few articles focused on the quantitative calculation of melatonin suppression induced by light. In this article, an algorithm is established, in which all the contributions of rods, cones, and intrinsically photosensitive retinal ganglion cells are considered. Calculation results accords with the experimental data in references very well, which indicate the validity of this algorithm. This algorithm can also interpret the rule of melatonin suppression varying with light correlated color temperature very well.  
  Address Photonics Research Center, School of Physics, Nankai University, Tianjin 300071, China  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
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  Series Volume Series Issue Edition  
  ISSN (up) 0140-0118 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:21717231 Approved no  
  Call Number IDA @ john @ Serial 236  
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Author Lucas, R.J.; Peirson, S.N.; Berson, D.M.; Brown, T.M.; Cooper, H.M.; Czeisler, C.A.; Figueiro, M.G.; Gamlin, P.D.; Lockley, S.W.; O'Hagan, J.B.; Price, L.L.A.; Provencio, I.; Skene, D.J.; Brainard, G.C. url  doi
openurl 
  Title Measuring and using light in the melanopsin age Type Journal Article
  Year 2014 Publication Trends in Neurosciences Abbreviated Journal Trends Neurosci  
  Volume 37 Issue 1 Pages 1-9  
  Keywords Editorial; Animals; Circadian Rhythm/physiology; Humans; Photoreceptor Cells/metabolism; Phototherapy/*trends; Retinal Ganglion Cells/metabolism; Rod Opsins/*physiology  
  Abstract Light is a potent stimulus for regulating circadian, hormonal, and behavioral systems. In addition, light therapy is effective for certain affective disorders, sleep problems, and circadian rhythm disruption. These biological and behavioral effects of light are influenced by a distinct photoreceptor in the eye, melanopsin-containing intrinsically photosensitive retinal ganglion cells (ipRGCs), in addition to conventional rods and cones. We summarize the neurophysiology of this newly described sensory pathway and consider implications for the measurement, production, and application of light. A new light-measurement strategy taking account of the complex photoreceptive inputs to these non-visual responses is proposed for use by researchers, and simple suggestions for artificial/architectural lighting are provided for regulatory authorities, lighting manufacturers, designers, and engineers.  
  Address Department of Neurology, Thomas Jefferson University, Philidelphia, PA, USA. Electronic address: George.Brainard@jefferson.edu  
  Corporate Author Thesis  
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  Language English Summary Language Original Title  
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  Series Volume Series Issue Edition  
  ISSN (up) 0166-2236 ISBN Medium  
  Area Expedition Conference  
  Notes PMID:24287308 Approved no  
  Call Number LoNNe @ christopher.kyba @ Serial 457  
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