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Journal Abstract Search

551 related items for PubMed ID: 25474329

  • 1. Access resistance of stimulation electrodes as a function of electrode proximity to the retina.
    Majdi JA, Minnikanti S, Peixoto N, Agrawal A, Cohen ED.
    J Neural Eng; 2015 Feb; 12(1):016006. PubMed ID: 25474329
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  • 3. Development and evaluation of thin-film flexible microelectrode arrays for retinal stimulation and recording.
    Mathieson K, Moodie AR, Grant E, Morrison JD.
    J Med Eng Technol; 2013 Feb; 37(2):79-85. PubMed ID: 23249248
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  • 5. Impedance as a method to sense proximity at the electrode-retina interface.
    Ray A, Chan LL, Gonzalez A, Humayun MS, Weiland JD.
    IEEE Trans Neural Syst Rehabil Eng; 2011 Dec; 19(6):696-9. PubMed ID: 21984523
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  • 11. Thin film platinum cuff electrodes for neurostimulation: in vitro approach of safe neurostimulation parameters.
    Mailley S, Hyland M, Mailley P, McLaughlin JA, McAdams ET.
    Bioelectrochemistry; 2004 Jun; 63(1-2):359-64. PubMed ID: 15110303
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  • 13. Monitoring Cortical Response and Electrode-Retina Impedance Under Epiretinal Stimulation in Rats.
    Xie H, Wang Y, Ye Z, Fang S, Xu Z, Wu T, Chan LLH.
    IEEE Trans Neural Syst Rehabil Eng; 2021 Jun; 29():1178-1187. PubMed ID: 34152987
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  • 15. Subretinal implantation of semiconductor-based photodiodes: durability of novel implant designs.
    Chow AY, Pardue MT, Perlman JI, Ball SL, Chow VY, Hetling JR, Peyman GA, Liang C, Stubbs EB, Peachey NS.
    J Rehabil Res Dev; 2002 Jun; 39(3):313-21. PubMed ID: 12173752
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  • 16. Evoked cortical potentials after electrical stimulation of the inner retina in rabbits.
    Walter P, Heimann K.
    Graefes Arch Clin Exp Ophthalmol; 2000 Apr; 238(4):315-8. PubMed ID: 10853930
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  • 17. Optical coherence tomography imaging of retinal damage in real time under a stimulus electrode.
    Cohen E, Agrawal A, Connors M, Hansen B, Charkhkar H, Pfefer J.
    J Neural Eng; 2011 Oct; 8(5):056017. PubMed ID: 21934187
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