Research Articles and Group Assignments
Cochlear Implants and Silicon Cochlea:
Blake S. Wilson, Charles C. Finley, Dewey T. Lawson, Robert
D. Wolford, Donald K. Eddington, and William M. Rabinowitz, "Better
speech recognition with cochlear implants," Nature
vol. 352, pp. 236-238, July 18, 1991.
Miyamoto, Richard T., Kirk, Karen Iler, Svirsky, Mario A. and Sehgal,
Susan T., "Communication
Skills in Pediatric Cochlear Implant Recipients," Acta
Oto-Laryngologica, vol. 119(2), pp. 219-224, 1999.
Rahul Sarpeshkar, Christopher Salthouse, Ji-Jon Sit, Michael W. Baker,
Serhii M. Zhak, Timothy K.-T. Lu, Lorenzo Turicchia, and Stephanie
Ultra-Low-Power Programmable Analog Bionic Ear Processor," IEEE
Transactions on Biomedical Engineering, vol. 52(4), pp. 711-727,
Retinal Implants and Silicon Retina:
J.D. Weiland, W. Liu, and M. S. Humayun, "Retinal
prosthesis," Annu. Rev. Biomed. Eng. vol. 7, pp. 361-401,
J.D. Weiland, and M.S. Humayun, "Visual
Prosthesis," Proceedings of the IEEE, vol. 96 (7),
pp. 1076-1084, July 2008.
K.A. Zaghloul and K.A. Boahen, "A
silicon retina that reproduces signals in the optic nerve,"
Journal of Neural Engineering vol. 3, pp. 257-267, 2006.
retina mimics biology for a clearer view," by Tom Simonite, New
Scientist, 20 Oct. 2006.
Also: K.A. Boahen, "Neuromorphic
Chips," Scientific American, May 2005.
Tohru Yagi, Masami Watanabe, Yasushi Ohnishi, Shigeru Okuma, and
Toshiharu Mukai, "Biohybrid
Retinal Implant: Research and Development Update in 2005"
Proc. 2nd Int. IEEE EMBS Conf. Neural Engineering (EMBC'2005),
Arlington VA, March 16-19, 2005.
Alan Y. Chow, Vincent Y. Chow, Kirk H. Packo, John S. Pollack, Gholam
A. Peyman, and Ronald Schuchard, "The Artificial Silicon Retina Microchip for the Treatment of Vision
Loss From Retinitis Pigmentosa," Arch Ophthalmol.,
vol. 122, pp. 460-469, 2004.
Week 4: Muthu Annaamalai and Natalie Roberts
Mahadevappa, M., Weiland, J.D., Yanai, D., Fine, I., Greenberg, R.J.,
and Humayun, M.S., "Perceptual
Thresholds and Electrode Impedance in Three Retinal Prosthesis
Subjects," IEEE Transactions on Neural Systems and
Rehabilitation Engineering, vol. 13 (2), pp. 201-206, June 2005.
Deep Brain Stimulation:
M.L. Kringelbach, N. Jenkinson, S.L. Owen, T.Z. Aziz, "Translational
principles of deep brain stimulation," Nature Reviews
Neuroscience, vol. 8(8), pp. 623-635, Aug. 2007.
R. Kumar, A.M. Lozano, Y.J. Kim, W.D. Hutchison, E. Sime, E. Halket,
and A.E. Lang, "Double-blind
evaluation of subthalamic nucleus deep brain stimulation in advanced
Parkinson's disease," Neurology vol. 51, pp. 850-855, 1998.
Helen S. Mayberg, Andres M. Lozano, Valerie Voon, Heather E. McNeely,
David Seminowicz, Clement Hamani, Jason M. Schwalb, and Sidney
H. Kennedy, "Deep
Brain Stimulation for Treatment-Resistant Depression,"
Neuron vol. 45, pp. 651-660, March 3, 2005.
Review: Thomas Wichmann and Mahlon R. DeLong, "Deep
Brain Stimulation for Neurologic and Neuropsychiatric Disorders,"
Neuron vol. 52(1), pp. 197-204, 2006.
A. Funkiewiez, C. Ardouin, E. Caputo, P. Krack, V. Fraix, H. Klinger,
S. Chabardes, K. Foote, A.-L. Benabid, and P. Pollak, "Long term
effects of bilateral subthalamic nucleus stimulation on cognitive
function, mood, and behaviour in Parkinsons disease," Journal
of Neurology Neurosurgery and Psychiatry, vol. 75, pp. 834-839,
Week 3: Alana Puro and Joseph Tsai
J.S. Pezaris and R.C. Reid, "Demonstration
of artificial visual percepts generated through thalamic
microstimulation," Proc. Nat. Acad. Sci. (PNAS)
vol. 104(18), pp. 7670-7675, May 1, 2007.
W.V. Soussou, G.J. Yoon, R.D. Brinton, and T.W. Berger, "Neuronal
network morphology and electrophysiology of hippocampal neurons
cultured on surface-treated multielectrode arrays," IEEE Trans
Biomed Eng. vol. 54(7), pp. 1309-20, Jul. 2007.
prosthesis passes live tissue test," by Helen Philips, New
Scientist, 25 Oct. 2004.
Neuromuscular Stimulation and Brain-Machine Interfaces:
P. Hunter Peckham, Jayme S. Knutson, "Functional
Electrical Stimulation for Neuromuscular Applications,"
Ann. Rev. Biomedical Engineering vol. 7, pp. 327-360, August
Arie Oliven, Robert P. Schnall, Giora Pillar, Noam Gavriely, and Majed
electrical stimulation of the tongue during wakefulness and
sleep," Respiration Physiology, vol. 127, pp. 217-226,
Thomas Fuhr, Jochen Quintern, Robert Riener, and Gunther Schmidt, "Walking
with WALK!," IEEE Engineering in Medicine and Biology
Magazine, vol. 27(1), pp. 38-48, Jan./Febr. 2008.
Jonathan R. Wolpaw and Dennis J. McFarland, "Control of a
two-dimensional movement signal by a non-invasive brain-computer
interface in humans," Proc. Nat. Academy of Science
(PNAS), vol. 101(51), pp. 17849-17854, Dec. 21, 2004.
J.M. Carmena, M.A. Lebedev, R.E. Crist, J.E. O'Doherty, D.M. Santucci,
et al., "Learning to
Control a Brain-Machine Interface for Reaching and Grasping by
Primates," PLoS Biol, vol. 1(2), pp. e42,
Andrew Jackson, Jaideep Mavoori, and Eberhard E. Fetz, "Long-term
motor cortex plasticity induced by an electronic neural implant,"
Nature vol. 444, pp. 56-60, 2 November 2006.
J.P. Uhlir, R.J. Triolo, J.A. Davis, C. Bieri, "Performance
of epimysial stimulating electrodes in the lower extremities of
individuals with spinal cord injury," IEEE
Trans. Rehabilitation Engineering vol. 12(2), pp 279-287, June
V.K. Mushahwar and K.W. Horch, "Proposed
specifications for a lumbar spinal cord electrode array for control of
lower extremities in paraplegia," IEEE Trans. Rehabilitation
Engineering vol. 5(3), pp 237-243, Sept. 1997.
A. Chatterjee, V. Aggarwal, A. Ramos, S. Acharya, and N.V. Thakor, "A brain-computer
interface with vibrotactile biofeedback for haptic information,"
J. Neuroeng. Rehabil., vol. 4(40), 2007.
F. Tenore, A. Ramos, S. Acharya, R. Etienne-Cummings and N.V. Thakor,
"Decoding of individuated finger movements using surface
electromyography," IEEE Trans. Biomed. Eng., in press, 2008.
Gabriel A. Silva, "Neuroscience
nanotechnology: progress, opportunities and challenges,"
Nature Reviews Neuroscience, vol. 7, pp. 65-74, January 2006.
Thomas Webster, Michael Waid, Janice McKenzie, Rachel Price, and
Jeremiah Ejiofor, "Nano-biotechnology:
carbon nanofibres as improved neural and orthopaedic implants,"
Nanotechnology, vol. 15, pp. 48-54, 2004.
Edward Boyden, Feng Zhang, Ernst Bamberg, Georg Nagel, Karl
genetically targeted optical control of neural activity,"
Nature Neuroscience, vol. 8, pp. 1263-1268, 2005.
New Light on Neural Circuits," by G. Miller, Science,
vol. 314, pp. 1674-1676, 2006.
F. Zhang, L.-P. Wang, M. Brauner, J. Liewald, K. Kay, N. Watzke,
P. Wood, E. Bamberg, G. Nagel, A. Gottschalk, and K. Deisseroth, "Multimodal
fast optical interrogation of neural circuitry," Nature,
vol. 446, pp. 633-639, 2007.
Review: Optical excitation yin and yang," by D. Evanko, Nature Methods,
vol. 4, p. 384, 2007.
E.J. Bradbury, L.D. Moon, R.J. Popat, V.R. King, G.S. Bennett,
P.N. Patel, J.W. Fawcett, and S.B. McMahon, "Chondroitinase
ABC promotes functional recovery after spinal cord injury,"
Nature,, vol. 416(6881), pp. 636-40, 2002.
Clearing a path for nerve growth," by L. Olson, Nature
416(6881), pp. 589-590, 2002.