Biocompatibility and magnetic resonance imaging characteristics of carbon nanotube yarn neural electrodes in a rat model

[1] Vitek JL(2002)Mechanisms of deep brain stimulation: excitation or inhibition Mov Disord 17 S69-S72

[2] Benabid AL(1987)Combined (thalamotomy and stimulation) stereotactic surgery of the VIM thalamic nucleus for bilateral Parkinson disease Appl Neurophysiol. 50 344-346

[3] Pollak P(2009)Deep brain stimulation in Parkinson’s disease Ther Adv Neurol Disord. 2 20-28

[4] Louveau A(2008)Carbon nanotube coating improves neuronal recordings Nat Nanotechnol 3 434-439

[5] Henry S(2007)Robust cell migration and neuronal growth on pristine carbon nanotube sheets and yarns J Biomater Sci Polym Ed 18 1245-1261

[6] de Rougemont J(1999)Perforated silicon nerve chips with doped registration electrodes: in vitro performance and in vivo operation IEEE Trans Biomed Eng 46 1065-1073

[7] Groiss SJ(2012)Analyzing neuronal activation with macroelectrode vs. microelectrode array stimulation Conf Proc IEEE Eng Med Biol Soc 2012 4144-4147

[8] Wojtecki L(2005)Choosing electrodes for deep brain stimulation experiments–electrochemical considerations J Neurosci Methods 142 251-265

[9] Sudmeyer M(2014)Platinum-iridium subdermal magnetic resonance imaging-compatible needle electrodes are suitable for intraoperative neurophysiological monitoring during image-guided surgery with high-field intraoperative magnetic resonance imaging: an experimental study Neurosurgery 10 387-392

[10] Schnitzler A(2005)Correspondence of microelectrode mapping with magnetic resonance imaging for subthalamic nucleus procedures Surg Neurol 63 249-253

[1] Vitek JL(2002)Mechanisms of deep brain stimulation: excitation or inhibition Mov Disord 17 S69-S72

[2] Benabid AL(1987)Combined (thalamotomy and stimulation) stereotactic surgery of the VIM thalamic nucleus for bilateral Parkinson disease Appl Neurophysiol. 50 344-346

[3] Pollak P(2009)Deep brain stimulation in Parkinson’s disease Ther Adv Neurol Disord. 2 20-28

[4] Louveau A(2008)Carbon nanotube coating improves neuronal recordings Nat Nanotechnol 3 434-439

[5] Henry S(2007)Robust cell migration and neuronal growth on pristine carbon nanotube sheets and yarns J Biomater Sci Polym Ed 18 1245-1261

[6] de Rougemont J(1999)Perforated silicon nerve chips with doped registration electrodes: in vitro performance and in vivo operation IEEE Trans Biomed Eng 46 1065-1073

[7] Groiss SJ(2012)Analyzing neuronal activation with macroelectrode vs. microelectrode array stimulation Conf Proc IEEE Eng Med Biol Soc 2012 4144-4147

[8] Wojtecki L(2005)Choosing electrodes for deep brain stimulation experiments–electrochemical considerations J Neurosci Methods 142 251-265

[9] Sudmeyer M(2014)Platinum-iridium subdermal magnetic resonance imaging-compatible needle electrodes are suitable for intraoperative neurophysiological monitoring during image-guided surgery with high-field intraoperative magnetic resonance imaging: an experimental study Neurosurgery 10 387-392

[10] Schnitzler A(2005)Correspondence of microelectrode mapping with magnetic resonance imaging for subthalamic nucleus procedures Surg Neurol 63 249-253