READING LIST
Refer back to Kandel & Schwartz for textbook details. Graduate students should read the first few
chapters of that textbook for course work in any case.
Thalamocortical physiology:
L. Domich, G. Oakson, and M. Steriade. Thalamic burst patterns in the naturally sleeping cat: a
comparison between cortically projecting and reticularis neurones. J Physiol (Lond) 379:429449, 1986.
[PMID: 3560000]
D. Paré, R. Curro'Dossi, and M. Steriade. Neuronal basis of the Parkinsonian resting tremor: a
hypothesis and its implications for treatment. Neurosci. 35 (2):217-226, 1990.
[PMID: 2199839]
M. Steriade, D. A. McCormick, and T. J. Sejnowski. Thalamocortical oscillations in the sleeping
and aroused brain. Science 262:679-685, 1993.
[PMID: 8235588]
T. Hirai and E. G. Jones. A new parcellation of the human thalamus on the basis of
histochemical staining. Brain Res Rev 14:1-34, 1989.
[PMID: 2720229]
E. G. Jones and S. H. Hendry. Differential calcium binding protein immunoreactivity
distinguishes classes of relay neurons in monkey thalamic nuclei. Eur.J Neurosci. 1 (3):222-246,
1989.
[PMID: 12106154]
E. G. Jones. The thalamic matrix and thalamocortical synchrony. Trends Neurosci. 24 (10):595601, 2001.
[PMID: 11576674]
E. Rausell, C. G. Cusick, E. Taub, and E. G. Jones. Chronic deafferentation in monkeys
differentially affects nociceptive and nonnociceptive pathways distinguished by specific
calcium-binding proteins and down-regulates gamma-aminobutyric acid type A receptors at
thalamic levels. Proc.Natl.Acad.Sci. 89:2571-2575, 1992.
[PMID: 1313562]
C.-T. Yen, M. Conley, and E. G. Jones. Morphological and functional types of neurons in cat
ventral posterior thalamic nucleus. J.Neurosci. 5 (5):1316-1338, 1985.
[PMID: 2987437]
L. Zhang and E. G. Jones. Corticothalamic inhibition in the thalamic reticular nucleus. J
Neurophysiol 91 (2):759-766, 2004.
[PMID: 14586030]
D. A. McCormick. Are thalamocortical rhythms the rosetta stone of a subset of neurological
disorders? Nat.Med. 5 (12):1349-1351, 1999.
[PMID: 10581069] (this is the editorial about ....
R. R. Llinas, U. Ribary, D. Jeanmonod, E. Kronberg, and P. P. Mitra. Thalamocortical
dysrhythmia: A neurological and neuropsychiatric syndrome characterized by
magnetoencephalography. Proc.Natl.Acad.Sci U.S.A 96 (26):15222-15227, 1999.
[PMID: 10611366]
Y. Shu, A. Hasenstaub, M. Badoual, T. Bal, and D. A. McCormick. Barrages of synaptic activity
control the gain and sensitivity of cortical neurons. J Neurosci 23 (32):10388-10401, 2003.
[PMID: 14614098]
H. Jahnsen and R. R. Llinas. Electrophysiological properties of guinea-pig thalamic neurones: an
in vitro study. J.Physiol. 349:205-226, 1984.
[PMID: 6737292]
R. R. Llinas and M. Steriade. Bursting of thalamic neurons and states of vigilance. J
Neurophysiol. 95 (6):3297-3308, 2006.
[PMID: 16554502]
R. R. Llinas, F. J. Urbano, E. Leznik, R. R. Ramirez, and H. J. van Marle. Rhythmic and
dysrhythmic thalamocortical dynamics: GABA systems and the edge effect. Trends Neurosci.
28 (6):325-333, 2005.
[PMID: 15927689]
S. J. Cruikshank, T. J. Lewis, and B. W. Connors. Synaptic basis for intense thalamocortical
activation of feedforward inhibitory cells in neocortex. Nat.Neurosci. 10 (4):462-468, 2007.
[PMID: 17334362]
M. A. Castro-Alamancos and B. W. Connors. Spatiotemporal properties of short-term plasticity
sensorimotor thalamocortical pathways of the rat. J Neurosci. 16 (8):2767-2779, 1996.
[PMID: 8786452]
M. A. Castro-Alamancos and B. W. Connors. Cellular mechanisms of the augmenting response:
short-term plasticity in a thalamocortical pathway. J.Neurosci. 16 (23):7742-7756, 1996.
[PMID: 8922430]
D. Mumford. On the computational architecture of the neocortex. I. The role of the thalamocortical loop. Biol.Cybern. 65 (2):135-145, 1991.
[PMID: 1912004]
Somatosensory physiology:
Yoshioka T, Gibb B, Dorsch AK, Hsiao SS, Johnson KO. Neural coding mechanisms underlying
perceived roughness of finely textured surfaces J Neurosci. 21(17):6905-16, 2001.
[PMID: 11517278]
Raja SN, Campbell JN, Meyer RA. Evidence for different mechanisms of primary and secondary
hyperalgesia following heat injury to the glabrous skin. Brain. 107 ( Pt 4):1179-88, 1984.
[PMID: 6509313]
Wall, P.D. The laminar organization of dorsal horn and effects of descending impulses. J. Physiol.
188: 403-423, 1967.
[PMID: 6032207]
Mountcastle, V.B. Modality and topographic properties of single neurons of cat's somatic sensory
cortex. J. Neurophysiol. 20: 408-434, 1957.
[PMID: 13439410]
Florence SL, Kaas JH Large-scale reorganization at multiple levels of the somatosensory pathway
follows therapeutic amputation of the hand in monkeys. J Neurosci. 15(12):8083-8095, 1995.
[PMID: 8613744]
Marchand, S., M.C. Bushnell, P. Molina-Negro, S.N. Martinez and G.H. Duncan. The effects of dorsal
column stimulation on measures of clinical and experimental pain in man. Pain, 45: 249-258, 1991.
[PMID: 1876434]
R. C. Coghill, J. G. McHaffie, and Y. F. Yen. Neural correlates of interindividual differences in the
subjective experience of pain. Proc.Natl.Acad.Sci.100 (14):8538-8542, 2003.
[PMID: 12824463]
Johansen JP, Fields HL. Glutamatergic activation of anterior cingulate cortex produces an aversive
teaching signal. Nat Neurosci. 7(4):398-403, 2004.
[PMID: 15004562]
Craig AD. A new view of pain as a homeostatic emotion. Trends Neurosci. 26(6):303-7, 2003.
[PMID: 12798599]
Coull JA, Boudreau D, Bachand K, Prescott SA, Nault F, Sik A, De Koninck P, De Koninck Y: Transsynaptic shift in anion gradient in spinal lamina I neurons as a mechanism of neuropathic pain. Nature
424:938-42, 2003.
[PMID: 12931188]
Human thalamocortical physiology/pathophysiology:
Tasker RR, Kiss ZHT: The role of the thalamus in functional neurosurgery.
Neurosurg.Clin.N.Am. 6(1):73-104, 1995.
[PMID: 7696876] (I have reprints).
F. A. Lenz, J. O. Dostrovsky, R. R. Tasker, K. Yamashiro, H. C. Kwan, and J. T. Murphy.
Single-unit analysis of the human ventral thalamic nuclear group: somatosensory responses.
J.Neurophysiol. 59 (2):299-316, 1988.
[PMID: 3351564]
F. A. Lenz, H. C. Kwan, J. O. Dostrovsky, R. R. Tasker, J. T. Murphy, and Y. E. Lenz. Single
unit analysis of the human ventral thalamic nuclear group: activity correlated with movement.
Brain 113:1795-1821, 1990.
[PMID: 2276045]
F. A. Lenz, C. J. Jaeger, M. S. Seike, Y. C. Lin, S. G. Reich, M. R. DeLong, and J. L. Vitek.
Thalamic single neuron activity in patients with dystonia: dystonia-related activity and somatic
sensory reorganization. J.Neurophysiol. 82 (5):2372-2392, 1999.
[PMID: 10561412]
F. A. Lenz, M. Seike, R. T. Richardson, Y. E. Lin, F. H. Baker, I. Khoja, C. J. Yeager, and R. H.
Gracely. Thermal and pain sensations evoked by microstimulation in the area of human
ventrocaudal nucleus. J.Neurophysiol. 70 (1):200-212, 1993.
[PMID: 8360716]
S. Ohara, N. Weiss, and F. A. Lenz. Microstimulation in the region of the human thalamic
principal somatic sensory nucleus evokes sensations like those of mechanical stimulation and
movement. J.Neurophysiol. 91 (2):736-745, 2004.
[PMID: 14573561]
S. Patel, S. Ohara, P. M. Dougherty, R. H. Gracely, and F. A. Lenz. Psychophysical elements of
place- and modality-specificity in the thalamic somatic sensory nucleus (ventral caudal - Vc) of
awake humans J.Neurophysiol. 95 (2):646-659, 2006.
[PMID: 16192330]
T. A. Zirh, F. A. Lenz, S. G. Reich, and P. M. Dougherty. Patterns of bursting occurring in
thalamic cells during Parkinsonian tremor. Neurosci. 83 (1):107-121, 1998.
[PMID: 9466402]
ZHT Kiss, K. D. Davis, R. R. Tasker, A. M. Lozano, B. Hu, and J. O. Dostrovsky.
Kinaesthetic neurons in thalamus of humans with and without tremor. Exp.Brain Res. 150
(1):85-94, 2003.
[PMID: 12698220]
D. Jeanmonod, M. Magnin, and A. Morel. Low-threshold calcium spike bursts in the human
thalamus: Common physiopathology for sensory, motor and limbic positive symptoms. Brain
119:363-375, 1996.
[PMID: 8800933]
M. Magnin, A. Morel, and D. Jeanmonod. Single-unit analysis of the pallidum, thalamus and
subthalamic nucleus in parkinsonian patients. Neurosci. 96 (3):549-564, 2000.
[PMID: 10717435]
Basal ganglia physiology and pathophysiology:
Graybiel AM. The basal ganglia: learning new tricks and loving it. Curr Opin Neurobiol. 15(6):63844, 2000.
[PMID: 16271465]
R. Levy, et al. Re-evaluation of the functional anatomy of the basal ganglia in normal and Parkinsonian
states. Neurosci. 76 (2):335-343, 1997.
[PMID: 9015319]
S. N. Haber. The primate basal ganglia: parallel and integrative networks. J.Chem.Neuroanat. 26
(4):317-330, 2003.
[PMID: 14729134]
I. Bar-Gad and H. Bergman. Stepping out of the box: information processing in the neural networks of
the basal ganglia. Curr.Opin.Neurobiol. 11 (6):689-695, 2001.
[PMID: 11741019] (shorter version of the one below)
I. Bar-Gad, G. Morris, and H. Bergman. Information processing, dimensionality reduction and
reinforcement learning in the basal ganglia. Prog.Neurobiol. 71 (6):439-473, 2003.
[PMID: 15013228] * this is a very long and complex paper focusing mainly on learning theory and
role of BG in learning
A. Parent and L.-N. Hazrati. Functional anatomy of the basal ganglia. I. The cortico-basal gangliathalamo-cortical loop. Brain Res.Rev. 20:91-127, 1995. **
[PMID: 7711769]
&
A. Parent and L.-N. Hazrati. Functional anatomy of the basal ganglia. II. The place of the subthalamic
nucleus and external pallidum in basal ganglia circuitry. Brain Res.Rev. 20:128-154, 1995.
[PMID: 7711765] **
** these 2 papers are the classic descriptions of primate anatomical connections in BG
G. E. Alexander, M. D. Crutcher, and M. R. DeLong. Basal ganglia-thalamocortical circuits: parallel
substrates for motor, oculomotor, "prefrontal" and "limbic" functions. Prog. Brain Res. 85:119-146,
1990.
[PMID: 2094891]
J. W. Mink. The basal ganglia: focused selection and inhibition of competing motor programs.
Prog.Neurobiol. 50 (4):381-425, 1996.
[PMID: 9004351] **excellent but very long paper ties together other older theories into new hypothesis
T. Wichmann and M. R. DeLong. Pathophysiology of Parkinson's disease: the MPTP primate model of
the human disorder. Ann N.Y.Acad.Sci 991:199-213, 2003.
[PMID: 12846988]
A. Berardelli, J. C. Rothwell, P. D. Thompson, and M. Hallett. Pathophysiology of bradykinesia in
Parkinson's disease. Brain 124 (Pt 11):2131-2146, 2001.
[PMID: 11673316]
E. Bezard, J. M. Brotchie, and C. E. Gross. Pathophysiology of levodopa-induced dyskinesia: potential
for new therapies. Nat.Rev.Neurosci 2 (8):577-588, 2001.
[PMID: 11484001]
C. E. Gross, T. Boraud, D. Guehl, B. Bioulac, and E. Bezard. From experimentation to the surgical
treatment of Parkinson's disease: prelude or suite in basal ganglia research? Prog.Neurobiol. 59
(5):509-532, 1999.
[PMID: 10515666]
A. Nambu and R. R. Llinas. Electrophysiology of globus pallidus neurons in vitro. J.Neurophysiol. 72
(3):1127-1139, 1994.
[PMID: 7807199]
For results of DBS for movement disorders (mainly for clinical trainees):
A. L. Benabid, P. Pollak, D.M. Gao, D. Hoffmann, P. Limousin, E. Gay, I. Payen, A. Benazzouz.
Chronic electrical stimulation of the ventralis intermedius nucleus of the thalamus as a treatment of
movement disorder. J.Neurosurg. 84:203-214, 1996.
[PMID: 8592222]
P. Limousin, P. P. Krack, P. Pollak, A. Benazzouz, C. Ardouin, D. Hoffmann, and A. L. Benabid.
Electrical stimulation of the subthalamic nucleus in advanced Parkinson's disease. N.Engl.J.Med. 339
(16):1105-1111, 1998.
[PMID: 9770557]
P. P. Krack, P. Pollak, P. Limousin, D. Hoffmann, A. Benazzouz, J. F. Lebas, A. Koudsie, and A. L.
Benabid. Opposite motor effects of pallidal stimulation in Parkinson's disease. Ann.Neurol. 43:180192, 1998.
[PMID: 9485059]
P. P. Krack, P. Pollak, P. Limousin, A. Benazzouz, G. Deuschl, and A. L. Benabid. From off-period
Dystonia to peak-dose chorea. The clinical spectrum of varying subthalamic nucleus activity. Brain
122 (6):1133-1146, 1999.
[PMID: 10356065]
P. P. Krack, A. Batir, N. Van Blercom, S. Chabardes, V. Fraix, C. Ardouin, A. Koudsie, P. D.
Limousin, A. Benazzouz, J. F. Lebas, A. L. Benabid, and P. Pollak. Five-year follow-up of bilateral
stimulation of the subthalamic nucleus in advanced Parkinson's disease. N.Engl.J Med. 349 (20):19251934, 2003.
[PMID: 14614167]
M. Vidailhet, L. Vercueil, J. L. Houeto, P. Krystkowiak, A. L. Benabid, P. Cornu, C. Lagrange,
Montcel S. Tezenas du, D. Dormont, S. Grand, S. Blond, O. Detante, B. Pillon, C. Ardouin, Y. Agid,
A. Destee, and P. Pollak. Bilateral deep-brain stimulation of the globus pallidus in primary generalized
dystonia. N.Engl.J Med. 352 (5):459-467, 2005.
[PMID: 15689584]
M. Vidailhet, L. Vercueil, J. L. Houeto, P. Krystkowiak, C. Lagrange, J. Yelnik, E. Bardinet, A. L.
Benabid, S. Navarro, D. Dormont, S. Grand, S. Blond, C. Ardouin, B. Pillon, K. Dujardin, V. HahnBarma, Y. Agid, A. Destee, and P. Pollak. Bilateral, pallidal, deep-brain stimulation in primary
generalised dystonia: a prospective 3 year follow-up study. Lancet Neurol. 6 (3):223 229, 2007.
[PMID: 17303528]
A. L. Benabid. Deep brain stimulation for Parkinson's disease. Curr.Opin.Neurobiol. 13 (6):696-706,
2003.
[PMID: 14662371]
G. Deuschl, C. Schade-Brittinger, P. Krack, J. Volkmann, H. Schafer, K. Botzel, C. Daniels, A.
Deutschlander, U. Dillmann, W. Eisner, D. Gruber, W. Hamel, J. Herzog, R. Hilker, S. Klebe, M.
Kloss, J. Koy, M. Krause, A. Kupsch, D. Lorenz, S. Lorenzl, H. M. Mehdorn, J. R. Moringlane, W.
Oertel, M. O. Pinsker, H. Reichmann, A. Reuss, G. H. Schneider, A. Schnitzler, U. Steude, V. Sturm,
L. Timmermann, V. M. Tronnier, T. Trottenberg, L. Wojtecki, E. Wolf, W. Poewe, and J. Voges. A
randomized trial of deep-brain stimulation for Parkinson's disease. N.Engl.J Med. 355 (9):896-908,
2006.
[PMID: 16943402]
A. Kupsch, R. Benecke, J. Muller, T. Trottenberg, G. H. Schneider, W. Poewe, W. Eisner, A. Wolters,
J. U. Muller, G. Deuschl, M. O. Pinsker, I. M. Skogseid, G. K. Roeste, J. Vollmer-Haase, A. Brentrup,
M. Krause, V. M. Tronnier, A. Schnitzler, J. Voges, G. Nikkhah, J. Vesper, M. Naumann, and J.
Volkmann. Pallidal deep-brain stimulation in primary generalized or segmental
dystonia. N.Engl.J Med. 355 (19):1978-1990, 2006.
[PMID: 17093249]
Tasker RR, Kiss ZHT: The Role of the Thalamus in Functional Neurosurgery, in Gildenberg PL (Ed):
Neurosurgery Clinics of North America: Functional Neurosurgery. WB Saunders, Philadelphia,
6(1):73-104, 1995.
[PMID: 7696876]
Lozano AM, Hutchison WD, Kiss ZHT, Tasker RR, Davis KD, Dostrovsky JO: Methods for
microelectrode-guided posteroventral pallidotomy. J Neurosurg 84:194-202, 1996.
[PMID: 8592221]
F. M. Weaver, K. Follett, M. Stern, K. Hur, C. Harris, W. J. Marks, Jr., J. Rothlind, O. Sagher, D.
Reda, C. S. Moy, R. Pahwa, K. Burchiel, P. Hogarth, E. C. Lai, J. E. Duda, K. Holloway, A. Samii, S.
Horn, J. Bronstein, G. Stoner, J. Heemskerk, and G. D. Huang. Bilateral deep brain stimulation vs best
medical therapy for patients with advanced Parkinson disease: a randomized controlled trial. JAMA
301 (1):63-73, 2009.
[PMID: 19126811]
For mechanisms of action of DBS:
J. E. Rubin and D. Terman. High frequency stimulation of the subthalamic nucleus eliminates
pathological thalamic rhythmicity in a computational model. J Comput.Neurosci 16 (3):211-235, 2004.
[PMID: 15114047]
P. Ashby, A. E. Lang, A. M. Lozano, and J. O. Dostrovsky. Motor effects of stimulating the human
cerebellar thalamus. J.Physiol. 489:287-298, 1995.
[PMID: 8583412]
M. T. Do and B. P. Bean. Subthreshold sodium currents and pacemaking of subthalamic neurons:
modulation by slow inactivation. Neuron 39 (1):109-120, 2003.
[PMID: 12848936]
J. O. Dostrovsky, R. Levy, J. P. Wu, W. D. Hutchison, R. R. Tasker, and A. M. Lozano.
Microstimulation-induced inhibition of neuronal firing in human globus pallidus. J.Neurophysiol. 84
(1):570-574, 2000.
[PMID: 10899228]
L. Garcia, J. Audin, G. D'Alessandro, B. Bioulac, and C. Hammond. Dual effect of high-frequency
stimulation on subthalamic neuron activity. J Neurosci. 23 (25):8743-8751, 2003.
[PMID: 14507974]
T. Hashimoto, C. M. Elder, M. S. Okun, S. K. Patrick, and J. L. Vitek. Stimulation of the subthalamic
nucleus changes the firing pattern of pallidal neurons. J.Neurosci. 23 (5):1916-1923, 2003.
[PMID: 12629196]
M. E. Anderson, N. Postupna, and M. Ruffo. Effects of high-frequency stimulation in the internal
globus pallidus on the activity of thalamic neurons in the awake monkey. J Neurophysiol 89 (2):11501160, 2003.
[PMID: 12574488]
B. Haslinger, K. Kalteis, H. Boecker, F. Alesch, and A. O. Ceballos-Baumann. Frequency-correlated
decreases of motor cortex activity associated with subthalamic nucleus stimulation in Parkinson's
disease. Neuroimage. 28 (3):598-606, 2005.
[PMID: 16081302]
C. C. McIntyre, W. M. Grill, D. L. Sherman, and N. V. Thakor. Cellular effects of deep brain
stimulation: Model-based analysis of activation and inhibition. J.Neurophysiol. 91 (4):1457-1469,
2004.
[PMID: 14668299]
W. Meissner, A. Leblois, D. Hansel, B. Bioulac, C. E. Gross, A. Benazzouz, and T. Boraud.
Subthalamic high frequency stimulation resets subthalamic firing and reduces abnormal oscillations.
Brain 128 (Pt 10):2372-2382, 2005.
[PMID: 16123144]
F. Windels, C. Carcenac, A. Poupard, and M. Savasta. Pallidal origin of GABA release within the
substantia nigra pars reticulata during high-frequency stimulation of the subthalamic nucleus. J
Neurosci 25 (20):5079-5086, 2005.
[PMID: 15901790]
ZHT Kiss, D. M. Mooney, L. Renaud, and B. Hu. Neuronal response to local electrical
stimulation in rat thalamus: Physiological implications for the mechanism of action of deep brain
stimulation. Neurosci. 113 (1):137-143, 2002.
[PMID: 12123692]
T. R. Anderson, B. Hu, Q. Pittman, and ZHT Kiss. Mechanisms of deep brain stimulation: An
intracellular study in rat thalamus. J Physiol 559 (Pt 1):301-313, 2004.
[PMID: 15218068]
T. R. Anderson, B. Hu, Iremonger K.J., and Z. H. T. Kiss. Selective attenuation of afferent synaptic
transmission as a mechanism of thalamic deep brain stimulation induced tremor arrest. J.Neurosci. 26
(3):841-850, 2006.
[PMID: 16421304]
Iremonger K.J., T. R. Anderson, B. Hu, and Z. H. T. Kiss. Cellular mechanisms preventing
sustained activation of cortex during subcortical high frequency stimulation . J.Neurophysiol. 96
(2):613-621, 2006.
[PMID: 16554516]
ZHT Kiss, T. R. Anderson, T. Hansen, D. D. Kirstein, O. Suchowersky, and B. Hu. Neural
substrates of microstimulation-evoked tingling: A chronaxie study in human somatosensory
thalamus. Eur.J Neurosci. 18 (3):728-732, 2003.
[PMID: 12911770]
J. S. Perlmutter and J. W. Mink. Deep brain stimulation. Annu.Rev.Neurosci. 29:229-257, 2006.
[PMID: 16776585]
P. A. Tass. A model of desynchronizing deep brain stimulation with a demand-controlled coordinated
reset of neural subpopulations. Biol.Cybern. 89 (2):81-88, 2003.
[PMID: 12905037]
ZHT Kiss ZHT, TR Anderson: Cellular mechanisms of action of therapeutic brain stimulation, Chapter
2 in Bronzino JD and DiLorenzo DJ (Eds): Neuroengineering, CRC Press / Taylor and Francis Group,
Boca Raton, chapt 2, pp 2.1-2.20, 2008. [ask for a copy]
For electrical stimulation in general:
J. B. Ranck. Which elements are excited in electrical stimulation of mammalian central nervous
system: a review. Brain Res. 98 (3):417-440, 1975.
[PMID: 1102064]
L. G. Nowak and J. Bullier. Axons, but not cell bodies, are activated by electrical stimulation in
cortical gray matter. I. Evidence from chronaxie measurements. Exp.Brain Res. 118 (4):477488, 1998.
[PMID: 9504843]
Neural Prostheses:
L. R. Hochberg, M. D. Serruya, G. M. Friehs, J. A. Mukand, M. Saleh, A. H. Caplan, A.
Branner, D. Chen, R. D. Penn, and J. P. Donoghue. Neuronal ensemble control of prosthetic
devices by a human with tetraplegia. Nature. 442 (7099):164-171, 2006.
[PMID: 16838014]
J. P. Donoghue. Connecting cortex to machines: recent advances in brain interfaces.
Nat.Neurosci 5 (Suppl):1085-1088, 2002.
[PMID: 12403992]
R. A. Andersen, S. Musallam, and B. Pesaran. Selecting the signals for a brain-machine
interface. Curr.Opin.Neurobiol. 14 (6):720-726, 2004.
[PMID: 15582374]
J. K. Chapin. Using multi-neuron population recordings for neural prosthetics. Nat.Neurosci. 7
(5):452-455, 2004.
[PMID: 15114357]
N. A. Fitzsimmons, W. Drake, T. L. Hanson, M. A. Lebedev, and M. A. Nicolelis. Primate
reaching cued by multichannel spatiotemporal cortical microstimulation. J.Neurosci. 27
(21):5593-5602, 2007.
[PMID: 17522304]
Y. T. Kim, R. W. Hitchcock, M. J. Bridge, and P. A. Tresco. Chronic response of adult rat brain
tissue to implants anchored to the skull. Biomaterials 25 (12):2229-2237, 2004.
[PMID: 14741588]
T. A. Kuiken, L. A. Miller, R. D. Lipschutz, B. A. Lock, K. Stubblefield, P. D. Marasco, P.
Zhou, and G. A. Dumanian. Targeted reinnervation for enhanced prosthetic arm function in a
woman with a proximal amputation: a case study. Lancet 369 (9559):371-380, 2007.
[PMID: 17276777]
O. V. Popovych, C. Hauptmann, and P. A. Tass. Control of neuronal synchrony by nonlinear
delayed feedback. Biol.Cybern. 95 (1):69-85, 2006.
[PMID: 16614837]
A. B. Schwartz, X. T. Cui, D. J. Weber, and D. W. Moran. Brain-controlled interfaces:
movement restoration with neural prosthetics. Neuron 52 (1):205-220, 2006.
[PMID: 17015237]
R. B. Stein and V. Mushahwar. Reanimating limbs after injury or disease. Trends Neurosci. 28
(10):518-524, 2005.
[PMID: 16083974]
J. Wessberg, C. R. Stambaugh, J. D. Kralik, P. D. Beck, M. Laubach, J. K. Chapin, J. Kim, S. J.
Biggs, M. A. Srinivasan, and M. A. Nicolelis. Real-time prediction of hand trajectory by
ensembles of cortical neurons in primates. Nature 408 (6810):361-365, 2000.
[PMID: 11099043]
A. Jackson, J. Mavoori, and E. E. Fetz. Long-term motor cortex plasticity induced by an
electronic neural implant. Nature 444 (7115):56-60, 2006.
[PMID: 17057705]
A. Kral, J. Tillein, S. Heid, R. Klinke, and R. Hartmann. Cochlear implants: cortical plasticity in
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