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PUBMED FOR HANDHELDS

Journal Abstract Search


150 related items for PubMed ID: 14690277

  • 1. Interaction of low frequency electric fields with the nervous system: the retina as a model system.
    Attwell D.
    Radiat Prot Dosimetry; 2003; 106(4):341-8. PubMed ID: 14690277
    [Abstract] [Full Text] [Related]

  • 2. Dosimetry considerations in the head and retina for extremely low frequency electric fields.
    Taki M, Suzuki Y, Wake K.
    Radiat Prot Dosimetry; 2003; 106(4):349-56. PubMed ID: 14690278
    [Abstract] [Full Text] [Related]

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  • 5. [Mechanism of formation of phosphenes by action of X-rays].
    Doly M, Isabelle DB, Tetefort A, Gaillard G, Meyniel G.
    Life Sci Space Res; 1978; 16():113-8. PubMed ID: 12387293
    [No Abstract] [Full Text] [Related]

  • 6. [Psychological aspects of perception of magnetophosphenes and electrophosphenes].
    Reissenweber J, David E, Pfotenhauer M.
    Biomed Tech (Berl); 1992 Mar; 37(3):42-5. PubMed ID: 1581477
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  • 8. Magneto- and electrophosphenes: a comparative study.
    Lövsund P, Oberg PA, Nilsson SE.
    Med Biol Eng Comput; 1980 Nov; 18(6):758-64. PubMed ID: 7230923
    [No Abstract] [Full Text] [Related]

  • 9. On the effect of ionizing radiation upon the retina in man and animals.
    Demirchoglian GG.
    Life Sci Space Res; 1973 Nov; 11():281-94. PubMed ID: 12001957
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  • 11. Mechanism of the formation of X-ray-induced phosphenes. I. Electrophysiological investigations.
    Doly M, Isabelle DB, Vincent P, Gaillard G, Meyniel G.
    Radiat Res; 1980 Apr; 82(1):93-105. PubMed ID: 7367591
    [No Abstract] [Full Text] [Related]

  • 12. Radiation Force as a Physical Mechanism for Ultrasonic Neurostimulation of the Ex Vivo Retina.
    Menz MD, Ye P, Firouzi K, Nikoozadeh A, Pauly KB, Khuri-Yakub P, Baccus SA.
    J Neurosci; 2019 Aug 07; 39(32):6251-6264. PubMed ID: 31196935
    [Abstract] [Full Text] [Related]

  • 13. Optimized single pulse stimulation strategy for retinal implants.
    Savage CO, Grayden DB, Meffin H, Burkitt AN.
    J Neural Eng; 2013 Feb 07; 10(1):016003. PubMed ID: 23220887
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  • 15. Purkynĕ's description of pressure phosphenes and modern neurophysiological studies on the generation of phosphenes by eyeball deformation.
    Grüsser OJ, Grüsser-Cornehls U, Hagner M, Przybyszewski AW.
    Physiol Bohemoslov; 1989 Feb 07; 38(4):289-309. PubMed ID: 2531426
    [Abstract] [Full Text] [Related]

  • 16. Phosphenes, retinal discrete dark noise, negative afterimages and retinogeniculate projections: A new explanatory framework based on endogenous ocular luminescence.
    Salari V, Scholkmann F, Vimal RLP, Császár N, Aslani M, Bókkon I.
    Prog Retin Eye Res; 2017 Sep 07; 60():101-119. PubMed ID: 28729002
    [Abstract] [Full Text] [Related]

  • 17. Retinal origin of phosphenes to transcranial alternating current stimulation.
    Schutter DJ, Hortensius R.
    Clin Neurophysiol; 2010 Jul 07; 121(7):1080-4. PubMed ID: 20188625
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  • 18. Spatially restricted electrical activation of retinal ganglion cells in the rabbit retina by hexapolar electrode return configuration.
    Habib AG, Cameron MA, Suaning GJ, Lovell NH, Morley JW.
    J Neural Eng; 2013 Jun 07; 10(3):036013. PubMed ID: 23612906
    [Abstract] [Full Text] [Related]

  • 19. Physiologic and dosimetric considerations for limiting electric fields induced in the body by movement in a static magnetic field.
    Jokela K, Saunders RD.
    Health Phys; 2011 Jun 07; 100(6):641-53. PubMed ID: 22004933
    [Abstract] [Full Text] [Related]

  • 20. Temperature-controlled exposure systems for investigating possible changes of retinal ganglion cell activity in response to high-frequency electromagnetic fields.
    Ahlers MT, Bolz T, Bahr A, Ammermüller J.
    Radiat Environ Biophys; 2009 Apr 07; 48(2):227-35. PubMed ID: 19142653
    [Abstract] [Full Text] [Related]


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