"Stimulating brain tissue with bright light alters functional connectivity in brain at the resting state"
written by Tuomo Starck, Juuso Nissilä, Antti Aunio, Ahmed Abou-Elseoud, Jukka Remes, Juha Nikkinen, Markku Timonen, Timo Takala, Osmo Tervonen, Vesa Kiviniemi,
published by World Journal of Neuroscience, Vol.2 No.2, 2012
has been cited by the following article(s):
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[15] LORETA indicates frequency-specific suppressions of current sources within the cerebrums of blindfolded subjects from patterns of blue light flashes applied over the …
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[16] Effects of bright light treatment on psychomotor speed in athletes
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[17] Extraocular light via the ear canal does not acutely affect human circadian physiology, alertness and psychomotor vigilance performance
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[18] Transcranial bright light exposure via ear canals does not suppress nocturnal melatonin in healthy adults–A single-blind, sham-controlled, crossover trial
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[19] Transcranial bright light treatment via the ear canals in seasonal affective disorder: a randomized, double-blind dose-response study
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[20] Cosic's Resonance Recognition Model for Protein Sequences and Photon Emission Differentiates Lethal and Non-Lethal Ebola Strains: Implications for …
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[21] Extraocular light via the ear canal does not acutely affect human circadian physiology, alertness and psychomotor vigilance perf
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[22] Transcranial bright light treatment via the ear canals in seasonal affective disorder: a randomized, double-blind dose-response
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[23] Graph theory reveals hyper-functionality in visual cortices of Seasonal Affective Disorder patients
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[24] Cosic's Resonance Recognition Model for Protein Sequences and Photon Emission Differentiates Lethal and Non-Lethal Ebola Strains: Implications for Treatment
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[25] Functional and anatomical brain networks: Brain networks during naturalistic auditory stimuli, tactile stimuli and rest. Functional network plasticity in early-blind subjects.
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[26] Transcatheter Technologies in Treating Brain Atherosclerosis Complicated by Chronic Cerebrovascular Insufficiency
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[27] Possibilities of transcatheter treatment of patients after extensive ischemic stroke
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[28] Transcranial bright light exposure via ear canals does not suppress nocturnal melatonin in healthy adults-A single-blind, sham-c
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[29] Bright light transmits through the brain: Measurement of photon emissions and frequency-dependent modulation of spectral electroencephalographic power
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[30] Transcatheter treatment of atherosclerotic lesions of the brain complicated by vascular dementia development
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[31] Enhancement of NMDA receptor‐mediated currents by light in rat neurones in vitro
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