{"id":91,"date":"2012-11-01T21:14:10","date_gmt":"2012-11-01T21:14:10","guid":{"rendered":"http:\/\/50.28.85.69\/~nicolab\/?page_id=91"},"modified":"2019-03-26T22:45:29","modified_gmt":"2019-03-26T22:45:29","slug":"publications","status":"publish","type":"page","link":"https:\/\/www.nicolelislab.net\/?page_id=91","title":{"rendered":"Publications"},"content":{"rendered":"

(Please contact Susan Halkiotis at halkiotis@neuro.duke.edu<\/a> for reprint requests.)<\/p>\n

2019<\/h2>\n

Kunicki C, Moioli RC, Pais-Vieira M, Peres ASC, Morya E, Nicolelis MAL. Frequency-specifc coupling in fronto-parieto-occipital cortical circuits underlie active tactile discrimination. Rep. <\/strong>9, Article number: 5105. https:\/\/doi.org\/10.1038\/s41598-019-41516-3.<\/p>\n

2018<\/h2>\n

<\/b>Shokur S, Donati ARC, Campos DSF, Gitti C, Bao G, Fischer D, Almeida S, Braga VAS, Augusto P, Petty C, Alho EJL, Lebediev M, Song AW, Nicolelis MAL. Training with brain-machine interfaces, visuotactile feedback and assisted locomotion improves sensorimotor, visceral, and psychological signs in chronic paraplegic patients. <\/span>PLoS ONE<\/b>13(11): e0206464. https:\/\/doi.org\/10.1371\/journal.pone.0206464, 2018.<\/span><\/p>\n

<\/b>Yin A, Tseng PH, Rajangam S, Lebedev MA, Nicolelis MAL. Place cell-like activity in the primary sensorimotor and premotor cortex during monkey whole-body navigation. <\/span>Sci. Rep.<\/b> doi: 10.1038\/s41598-018-27472-4, 2018.<\/span><\/p>\n

<\/b>Tseng P-H, Rajangam S, Lehew G, Lebedev MA, Nicolelis MAL. Interbrain cortical synchronization encodes multiple aspects of social interactions in monkey pairs. <\/span>Sci. Rep.<\/b> doi.org\/10.1038\/s41598-018-22679-x, 2018.<\/span><\/p>\n

2017<\/h2>\n

<\/b>Thomson E, Zea I, Windham W, Thenaisie Y, Walker C, Pedowitz P, Fran\u00e7a W, Graneiro AL, Nicolelis MAL. Merging visible and invisible light using a cortical neuroprosthesis without impairing native sensory function. <\/span>eNeuro<\/b> doi: 10.1523\/ENEURO.0262-17, 2017.<\/span><\/p>\n

<\/b>Ramakrishnan A, Byun YW, Rand K, Pedersen C, Lebedev MA, Nicolelis MA. Cortical Neurons Multiplex Reward-Related Signals along with Sensory and Motor Information. <\/span>Proc Natl Acad Sci<\/b> doi: 10.1073\/pnas.1703668114, 2017.<\/span><\/p>\n

Nicolelis, MAL. Are we at risk of becoming biological digital machines? <\/span>Nat. Hum. Behav.<\/b> 1: Art. 8, doi: 10.1038\/s41562-016-0008, 2017.<\/span><\/p>\n

Lebedev <\/span>\u00a0<\/span>M and Nicolelis MAL Brain-machine interfaces: from basics science to neuroprosthetic devices, and neurorehabilitation. <\/span>Physiol. Rev. <\/b>97: 767-837, 2017. <\/span><\/p>\n

Yadav A and Nicolelis MAL. Electrical stimulation of the dorsal columns of the spinal cord in Parkinson\u2019s disease. <\/span>Mov. Disord.<\/b> doi: 10.1002\/mds.27033, 2017.<\/span>
\n<\/span><\/p>\n

2016<\/h2>\n

Donati ARC, Shokur S, Morya E, Campos DSF, Moioli RC, Gitti CM, Augusto PB, Tripodi S, Pires CG, Pereira GA, Brasil FL, Gallo S, Lin A, Takigami AK, Aratanha MA, Joshi S, Bleuler H, Cheng G, Rudolph A, Nicolelis MAL. Long-term training with brain-machine interfaces induces partial neurological recovery in paraplegic patients. Sci. Rep.<\/strong> doi: 10.1038\/srep30383, 2016.<\/p>\n

Pais-Vieira M, Yadav AP, Moreira D, Guggenmos D, Santos A, Lebedev MA, Nicolelis MA. A Closed Loop Brain-machine Interface for Epilepsy Control Using Dorsal Column Electrical Stimulation. Sci. Rep.<\/strong> doi:10.1038\/srep32814, 2016.<\/p>\n

Shokur S, Gallo S, Moioli RC, Donati ARC, Morya E, Bleuler H, Nicolelis MA. Assimilation of virtual legs and perception of floor texture by complete paraplegic patients receiving artificial tactile feedback. Sci. Rep.<\/strong> doi:10.1038\/srep32293,2016.<\/p>\n

Rajangam S, Tseng P-H, Yin A, Lehew G, Schwarz D, Lebedev MA, Nicolelis MA. Wireless Cortical Brain-Machine Interface for Whole-Body Navigation in Primates. Sci. Rep.<\/b> doi:10.1038\/srep22170, 2016.<\/p>\n

Yin A, An J, Lehew G, Lebedev MA, Nicolelis MAL. An automatic experimental apparatus to study arm reaching in New World monkeys. J. Neurosci. Methods<\/b> doi:10.1016\/j.jneumeth.2016.02.017, 2016.<\/p>\n

Thomson EE, Hartmann K, Yun R, Mullen P, Canarick J, Huh A, Nicolelis MA. Embedding a novel representation of infrared light in the adult rat somatosensory cortex through a sensory neuroprosthesis. J. Neurosci.<\/b> 36:2406 \u20132424, 2016.<\/p>\n

2015<\/h2>\n

Pais-Vieira M, Kunick C, Tseng P-H, Martin J, Lebedev M, Nicolelis MAL. Cortical and thalamic contributions to response dynamics across layers of the primary somatosensory cortex during tactile discrimination. J. Neurophys.<\/b> 114: 1652\u20131676, 2015.<\/p>\n

Pais-Vieira M, Chiuffa G, Lebedev MA, Yadav A, Nicolelis MA. Building an organic computing device with multiple interconnected brains. Sci. Rep.<\/strong> doi:10.1038\/srep11869, 2015.<\/p>\n

Ramakrishnan A, Ifft PJ, Pais-Vieira M, Byun YW, Zhuang KZ, Lebedev MA, Nicolelis MAL. Computing Arm Movements with a Monkey Brainet. Sci. Rep.<\/strong> doi:10.1038\/srep10767, 2015.<\/p>\n

2014<\/h2>\n

Zhuang KZ, Lebedev MA, O\u2019Doherty JE, Nicolelis MAL. Joint cross-correlation analysis reveals complex, time-dependent functional relationship between cortical neurons and arm electromyograms. J. Neurophysiol.<\/strong>\u00a0 112: 2865-2887, 2014.<\/p>\n

Santana MB, Halje P, Simplicio H, Richter U, Freire M, Petersson P, Fuentes R, Nicolelis MAL. Spinal Cord Stimulation Alleviates Motor Symptoms in a Primate Model of Parkinson’s disease. Neuron<\/strong> http:\/\/dx.doi.org\/10.1016\/j.neuron.2014.08.061, 2014.<\/p>\n

Zacksenhouse M, Lebedev MA, Nicolelis MAL. Signal-Independent Timescale Analysis (SITA) and its Application for Neural Coding during Reaching and Walking. Front. Comput. Neurosci.<\/strong> doi: 10.3389\/fncom.2014.00091, 2014.<\/p>\n

Thomson EE, Lou J, Sylvester K, McDonough A, Nicolelis, MAL. Basal forebrain activity during a tactile discrimination task. J. Neurophysiol.<\/strong> 112: 1179\u20131191, 2014.<\/p>\n

Schwarz D, Lebedev MA, Tate A, Hanson T, Lehew G, Melloy J, Dimitrov D, Nicolelis MAL. Chronic, Wireless Recordings of Large Scale Brain Activity in Freely Moving Rhesus Monkeys. Nat. Methods<\/strong> doi:10.1038\/nmeth.2936, 2014.<\/p>\n

Yadav AP, Fuentes R, Zhang H, Vinholo T, Wang C-H, Nicolelis MAL. Chronic Spinal Cord Stimulation Protects against 6-hydroxydopamine Lesions. Sci. Rep. <\/strong> 4: 3839. doi: 10.1038\/srep03839, 2014.<\/p>\n

2013<\/h2>\n

Ifft P, Shokur S, Li Z, Lebedev MA, Nicolelis MAL. A Brain-Machine Interface Enables Bimanual Arm Movements in Monkeys. Sci. Transl. Med. <\/strong> 5: 210, DOI:10.1126\/scitranslmed.3006159, 2013.<\/p>\n

Thomson EE, Carra R, Nicolelis MAL. Perceiving Invisible Light through a Somatosensory Cortical Prosthesis. Nat. Commun.<\/strong> 10.1038\/ncomms2497, 2013.<\/p>\n

Vieira M, Lebedev MA, Nicolelis MAL. Top-down Modulation in Cortico-Thalamo-Cortical Loops during Active Tactile Discrimination. J. Neurosci.<\/strong> 33:4076\u20134093, 2013.<\/p>\n

Vieira M, Lebedev MA, Kunicki C, Wang J, Nicolelis MAL. A brain-to-brain interface for real-time sharing of sensorimotor information. Sci. Rep.<\/strong> 3:1319, doi:10.1038\/srep01319, 2013.<\/p>\n

Dzirasa K, Kumar S, Sachs B, Caron MG, Nicolelis MAL. Cortical-amygdalar circuit dysfunction in a genetic mouse model of serotonin deficiency. J. Neurosci.<\/strong> 33: 4505-4513, 2013.<\/p>\n

Shokur S, O\u2019Doherty J.E., Winans J.A., Bleuler H., Lebedev M.A., Nicolelis M.A.L. Expanding the primate body schema in sensorimotor cortex by virtual touches of an avatar. Proc. Natl. Acad. Sci.<\/strong> 110: 15121-6, doi: 10.1073\/pnas.1308459110, 2013.<\/p>\n

2012<\/h2>\n

Medina LE, Lebedev MA, O\u2019Doherty JE, Nicolelis MAL. Stochastic Facilitation of Artificial Tactile Sensation in Primates.\u00a0 J. Neurosci.<\/strong> 32: 14271-14275, 2012.<\/p>\n

Ifft PJ, Labedev MA, Nicolelis MAL. Reprogramming movements: Extraction of motor intentions from cortical ensemble activity when movement goals change. Front. Neuroeng. <\/strong>5:16, 2012.<\/p>\n

Tandon S, Simon SA, Nicolelis MAL. Appetitive Changes Associated with Salt Deprivation are Paralleled by Widespread Neuronal Adaptations in the Nucleus Accumbens, Lateral Hypothalamus and Central Amygdala. J. Neurophysiol.<\/strong> 108: 1089\u20131105, 2012.<\/p>\n

Nicolelis MA. Mind in Motion. Sci. Am. <\/strong>307: 58-63, 2012.<\/p>\n

Hanson T, Omarsson B, O’Doherty J, Peikon I, Lebedev M, Nicolelis M. High-side digitally current controlled biphasic bipolar microstimulator. IEEE Trans Neural Syst Rehabil Eng. <\/strong>20: 331-340, 2012.<\/p>\n

Hanson TL, Fuller AM, Lebedev MA, Turner DA, Nicolelis MAL. Subcortical Neuronal Ensembles: An Analysis of Motor Task Association, Tremor, Oscillations, and Synchrony in Human Patients. J. Neurosci.<\/strong> 32:8620\u20138632, 2012.<\/p>\n

Oliveira-Maia AJ, de Araujo IE, Monteiro C, Workman V, Galhardo V,\u00a0 Nicolelis MAL. The Insular Cortex Controls Food Preferences Independently of Taste Receptor Signaling. Front. Integr. Neurosci.<\/strong> 6: 5, 2012.<\/p>\n

2011<\/h2>\n

Nicolelis MAL. Mind out of Body. Sci. Am.<\/strong> 304: 80-83, 2011.<\/p>\n

Oliveira-Maia A J, Roberts C D, Simon S A, Nicolelis M A L. Gustatory and reward brain circuits in the control of food intake. Adv. Tech. Stand. Neurosurg. <\/strong>36:31-59, 2011.<\/p>\n

Dzirasa K, Fuentes R, Potes JM, Nicolelis MAL. Chronic in vivo multi-circuit neurophysiological recordings in mice. J. Neurosc. Methods <\/strong>195: 36-46, 2011.<\/p>\n

Dzirasa K, McGrarity D, Bhattacharya A, Kumar S, Takahashi J, Dunson D, McClung C, Nicolelis M A. Impaired limbic gamma oscillatory synchrony during anxiety related behavior in a genetic mouse model of bipolar mania. J. Neurosc. <\/strong>31:6449-6456, 2011.<\/p>\n

Nicolelis, MAL. Wired-up brains will offer out of body experience. New Scientist<\/strong>,\u00a0 Issue 2813, pp. 26-27, 2011.<\/p>\n

Lopes-dos-Santos V, Conde-Ocazionez S, Nicolelis MA, Ribeiro ST, Tort AB. Neuronal assembly detection and cell membership specification by principal component analysis. PLoS One<\/strong> 6:e20996, 2011.<\/p>\n

Lebedev MA, Tate AJ, Hanson TL, Li Z, O’Doherty JE, Winans JA, Ifft PJ, Zhuang KZ, Fitzsimmons NA, Schwarz DA, Fuller AM, An JH, Nicolelis MA. Future developments in brain-machine interface research. Clinics<\/strong> (Sao Paulo) 66 Suppl 1:25-32, 2011.<\/p>\n

Lebedev, MA, Nicolelis MAL. Toward a whole body neuroprosthetic. Prog. Brain Res.<\/strong>\u00a0 194: 47-60, 2011.<\/p>\n

Freire MA, Morya E, Faber J, Santos JR, Guimaraes JS, Lemos NA, Sameshima K, Pereira A, Ribeiro S, Nicolelis MA. Comprehensive analysis of tissue preservation and recording quality from chronic multielectrode implants. PLoS One<\/strong> 6:e27554, 2011.<\/p>\n

O’Doherty JE, Lebedev MA, Ifft PJ, Zhuang KZ, Shokur S, Bleuler H, Nicolelis MAL. Active tactile exploration enabled by a brain-machine-brain interface. Nature <\/strong>479: 228-231, 2011.<\/p>\n

Li, Z, O\u2019Doherty, JE, Lebedev, MA, Nicolelis, MAL. Adaptive decoding for brain-machine interfaces through Bayesian parameter updates.\u00a0 Neural Comput.<\/strong> 23: 1\u201343,\u00a0 2011.<\/p>\n

Oliveira-Maia AJ, Roberts C, Walker QD, Luo B, Kuhn C, Simon SA, Nicolelis MA. Intravascular Food Reward. PLoS One<\/strong> 6(9): e24992. doi:10.1371\/journal.pone.0024992, 2011.<\/p>\n

O’Doherty JE, Lebedev MA, Li Z, Nicolelis MAL. Towards a brain-machine interface: active touching using randomly patterned intracortical microstimulation. IEEE Trans Neur Syst Rehab Eng.<\/strong> 20:\u00a0 85-93, 2011.<\/p>\n

Zhang H, Lin SC, Nicolelis MA. A distinctive subpopulation of medial septal slow-firing neurons promote hippocampal activation and theta oscillations. J Neurophysiol. <\/strong>106: 2749-2763, 2011.<\/p>\n

Ifft PJ, Lebedev MA, Nicolelis MAL. Cortical Correlates of Fitts\u2019 Law. Front. Integr. Neurosci. <\/strong>5: 85, 2011.<\/p>\n

2010<\/h2>\n

Gutierrez R, Simon SA, Nicolelis MAL. Licking induced neural synchronization improves taste discrimination during learning. J. Neurosci. <\/strong>30:287\u2013303, 2010.<\/p>\n

Thiagarajan TC, Lebedev MA, Nicolelis MA, Plenz D. Coherence Potentials: Loss-Less, All-or-None Network Events in the Cortex. PLoS Biology<\/strong> 8: e1000278, 2010.<\/p>\n

Wiest MC, Thomson EE, Pantoja J, Nicolelis MAL.\u00a0 Changes in S1 neural responses during tactile discrimination learning.\u00a0 J. Neurophysiol.<\/strong> 104:300-312, 2010.<\/p>\n

Dzirasa K, Phillips HW, Sotnikova TD, Salahpour A, Kumar S, Gainetdinov RR, Caron MG, Nicolelis MAL. Noradrenergic Control of Cortico-Striato-Thalamic and Mesolimbic Cross-Structural Synchrony. J. Neurosci. <\/strong>30:6387 \u2013 6397, 2010.<\/p>\n

Fuentes R, Petersson P, Nicolelis MAL. Restoration of locomotive function in Parkinson\u2019s disease by spinal cord stimulation: mechanistic approach. European J. Neurosci<\/strong>. 32:1100\u20131108, 2010.<\/p>\n

Sim\u00f5es CS, Vianney P, de Moura MM, Freire MAM, Mello LE, Sameshima K, Araujo JF, Nicolelis MAL, Mello CV, Ribeiro S. Activation of frontal neocortical areas by vocal production in marmosets. Front. Integr. Neurosci. <\/strong>4: 1-12, 2010.<\/p>\n

Zhang H, Lin S-C, Nicolelis MAL.\u00a0 Spatiotemporal coupling between hippocampal acetylcholine release and theta oscillations in vivo. J. Neurosci. <\/strong>30: 13431-13440, 2010.<\/p>\n

Dzirasa K, Coque L, Sidor M, Dancy EA, Takahashi J, McClung CA, Nicolelis MAL. Lithium ameliorates nucleus accumbens phase signaling dysfunction in a genetic mouse model of mania. \u00a0J. Neurosci. <\/strong>30:16314-16323, 2010.<\/p>\n

Ribeiro T, Copelli M, Chialvo D, Caixeta F, Belchior H, Nicolelis MAL, Ribeiro S. Spike<\/p>\n

Avalanches Exhibit Universal Dynamics across the Sleep-Wake Cycle. PLoS ONE<\/strong> 5:e14129, 2010.<\/p>\n

2009<\/h2>\n

Oliveira-Maia AJ, Stapleton-Kotloski JR, Lyall V, Phan Tam-Hao T, Mummalaneni S, Melone P, DeSimone JA , Nicolelis MAL, Simon\u00a0 SA. Nicotine activates TRPM5-dependent and independent taste pathways. PNAS<\/strong> 106: 1596-1601, 2009.<\/p>\n

Fuentes R, Petersson P, Siesser WB, Caron MG, Nicolelis MAL. Spinal Cord Stimulation Restores Locomotion in Animal Models of Parkinson’s disease. Science <\/strong>323: 1578-82, 2009.<\/p>\n

Zhang H, Lin S-C, Nicolelis MAL. Acquiring local field potential information from amperometric neurochemical recordings. J. Neurosci Methods<\/strong> 179: 191-200, 2009.<\/p>\n

Fitzsimmons N, Lebedev MA, Peikon I,\u00a0 Nicolelis MAL. Extracting kinematic parameters for monkey bipedal walking from cortical neuronal ensemble activity. Front. Integr. Neurosci.<\/strong> 3: 1-19, 2009.<\/p>\n

Peikon ID, Fitzsimmons NA, Lebedev MA, Nicolelis MAL. Three-dimensional, automated, real-time video system for tracking limb motion in brain-machine interface studies. J. Neurosci. Methods<\/strong>\u00a0 180: 224-233, 2009.<\/p>\n

Dzirasa K, Santos LM, Ribeiro S, Stapleton J, Gainetdinov RR, Caron MG, Nicolelis MAL. Persistent hyperdopaminergia decreases the peak frequency of hippocampal theta oscillations during quiet waking and REM sleep. PLoS One<\/strong> 4:e5238, 2009.<\/p>\n

Zacksenhouse M, Nemets S, Lebedev MA, Beiser K, Nicolelis MAL. Robust satisficing Linear Regression: robustness\/performance trade-off and consistency criterion. Mechanical-Systems and Signal Processing (MSSP)<\/strong> (Special Issue on Inverse Problems) 23: 1954\u20131964, 2009.<\/p>\n

Rizk M, Bossetti CA, Jochum TA, Callender SH, Nicolelis MA, Turner DA, Wolf PD. A fully implantable 96-channel neural data acquisition system. J Neural Eng.<\/strong> Apr;6(2):026002. Epub 2009 Mar 2, 2009.<\/p>\n

Nicolelis MAL, Lebedev MA. Principles of Neural Ensemble Physiology Underlying the Operation of Brain-Machine Interfaces. Nat. Rev. Neurosci.<\/strong> 10: 530-540, 2009.<\/p>\n

Dzirasa K, Ramsey AJ, Takahashi DY, Stapleton J, Potes JM, Williams JK, Gainetdinov RR, Sameshima K, Caron MG,\u00a0 Nicolelis MAL. Hyperdopaminergia and NMDA receptor hypofunction disrupt neural phase signaling. J. Neurosci.<\/strong> 29: 8215-8224, 2009.<\/p>\n

Alexander GM,\u00a0 Rogan SC,\u00a0 Abbas AI, Armbruster BN,\u00a0 Pei Y, Allen JA, Nonneman RJ, Hartmann J, Moy SS, Nicolelis MA, McNamara JO, Roth BL. Remote Control of Neuronal Activity in Transgenic Mice Expressing Evolved G Protein-Coupled Receptors. Neuron<\/strong> 63: 27\u201339, 2009.<\/p>\n

Li Z, O’Doherty JE, Hanson TL, Lebedev MA, Henriquez CS, Nicolelis MAL. Unscented Kalman Filter for Brain-Machine Interfaces. PLoS One<\/strong> 4: e6243, 2009.<\/p>\n

Petermann T, Thiagarajan TC, Lebedev MA, Nicolelis MA, Chialvo DR, Plenz D. Spontaneous cortical activity in awake monkeys composed of neuronal avalanches. Proc Natl Acad Sci<\/strong>. 106: 15921-15926, 2009.<\/p>\n

O’Doherty JE, Lebedev MA, Hanson TL, Fitzsimmons NA, Nicolelis MAL. A brain-machine interface instructed by direct intracortical microstimulation. Front. Integr. Neurosci.<\/strong> 3: 1-10, 2009.<\/p>\n

MacDonald CJ, Meck WH, Simon SA, Nicolelis MAL. Taste-Guided Decisions Differentially Engage Neuronal Ensembles across Gustatory Cortices. J. Neurosci. <\/strong>29:11271-82, 2009.<\/p>\n

2008<\/h2>\n

Lebedev MA, O\u2019Doherty JE, Nicolelis MAL. Decoding of temporal intervals from cortical ensemble activity.\u00a0 J Neurophysiol <\/strong>99: 166-186, 2008.<\/p>\n

da Silva LIL, Nicolelis MAL, Haddad F. Brazil’s Option for Science Education. Sci Am<\/strong> 298: 25, 2008.<\/p>\n

Nicolelis MAL. Building the Knowledge Archipelago. Sci Am <\/strong>298: www.SciAm.com\/ontheweb, 2008.<\/p>\n

Nicolelis MAL, Chapin JK. Controlling robots with the mind.\u00a0 <\/em>Sci Am Reports <\/strong>18: 72-79, 2008<\/p>\n

de Araujo IE, Oliveira-Maia AJ, Sotnikova TD, Gainetdinov RR, Caron MG , Nicolelis MAL, Simon SA. Reward in the absence of taste receptor signaling. Neuron<\/strong> 57: 930-941, 2008.<\/p>\n

Simon SA, de Araujo IE, Stapleton JR, Nicolelis MAL. Multisensory Processing of Gustatory Stimuli.\u00a0 Chemosensory Perception<\/strong> 1: 95-102, 2008.<\/p>\n

Lin S-C, Nicolelis MAL.\u00a0 Neuronal ensemble bursting in the basal frontal forebrain encodes salience irrespective of valence.\u00a0 Neuron <\/strong>59: 138\u2013149, 2008.<\/p>\n

2007<\/h2>\n

Costa RM., Gutierrez R., Kloth AD, Coelho M, de Araujo IE, Gainetdinov RR, Caron MG, Nicolelis MAL, Simon SA. Dopamine modulates the updating of tastant values. Genes, Brain & Behavior<\/strong> 6: 314-320, 2007.<\/p>\n

Ribeiro S, Shi X, Engelhard M, Zhou Y, Gervasoni D, Lin S-C, Zhang H, Wada K, Nicolelis MAL. Novel experience induces persistent sleep-dependent plasticity in the cortex but not in the hippocampus. Frontiers in Neurosci <\/strong>1: 43-55, 2007.<\/p>\n

Stapleton J, Lavine ML, Nicolelis MA, Simon SA. Ensembles of gustatory cortical neurons anticipate and discriminate between tastants in a single lick. Frontiers in Neurosci<\/strong> 1: 161-174, 2007.<\/p>\n

Fitzsimmons N, Drake W, Hanson T, Lebedev M, Nicolelis MAL.\u00a0 Primate reaching cued by multichannel spatiotemporal cortical microstimulation.\u00a0 J Neurosci <\/strong>\u00a027: 5593-5602, 2007.<\/p>\n

Soares ES, Stapleton JR, Rodriguez A, Fitzsimmons N, Oliveira L, Nicolelis MA, Simon SA.\u00a0 Behavioral and neural responses to gustatory stimuli delivered non-contingently through intra-oral cannulas.\u00a0 Physiol Behav<\/strong> 92: 629-642, 2007.<\/p>\n

Zacksenhouse M, Lebedev MA, Carmena JM, O\u2019Doherty JE, Henriquez C, Nicolelis MAL. Cortical modulations increase in early sessions with brain-machine interface.\u00a0 PLoS ONE<\/strong> 2:e619, 2007.<\/p>\n

Pantoja J, Ribeiro S, Wiest M, Soares E, Gervasoni D, Nelson L,\u00a0 Nicolelis MAL. Neuronal activity in the primary somatosensory thalamocortical loop is modulated by reward contingency during tactile discrimination.\u00a0 J Neurosci <\/strong>27: 10608-10620, 2007.<\/p>\n

Kim HK, Carmena JM, Biggs SJ, Hanson TL, Nicolelis MAL, Srinivasan MA.\u00a0 The muscle activation method:\u00a0 an approach to impedance control of brain-maching interfaces through a musculoskeletal model of the arm.\u00a0 IEEE Trans Biomed Eng<\/strong>\u00a0 54: 1520-1529, 2007.<\/p>\n

Pereira A, Ribeiro S, Wiest M, Moore LC, Pantoja J, Lin S-C, Nicolelis MAL.Processing of tactile information by the\u00a0 hippocampus. PNAS<\/strong> 104: 18286-18291 (Epub) November 2007.<\/p>\n

Nicolelis MAL.\u00a0 Living with Ghostly Limbs.\u00a0 Sci Am Mind<\/strong> 18: 53-59, 2007.<\/p>\n

2006<\/h2>\n

Gutierrez R, Carmena J, Nicolelis, MAL, Simon SA.\u00a0 Orbitofrontal ensemble activity predicts licking and distinguishes among reward.\u00a0 J Neurophysiol<\/strong> 95:119-133, 2006.<\/p>\n

Kim HK, Biggs J, Schloerb DW, Carmena JM, Lebedev MA, Nicolelis MAL, Srinivasan MA.\u00a0 Continuous shared control stabilizes reaching and grasping with brain machine interfaces.\u00a0 <\/em>IEEE Trans Biomed Eng <\/strong>53: 1164-1173, 2006.<\/p>\n

Stapleton J, Lavine M, Wolpert R, Nicolelis MAL, Simon SA.\u00a0 Rapid taste responses in the gustatory cortex during licking.\u00a0 J Neurosci<\/strong> 26:4126-4138, 2006.<\/p>\n

Kim SP, Sanchez JC, Rao YN, Erdogmus D, Carmena JM, Lebedev MA, Nicolelis MA, Principe JC. A comparison of optimal MIMO linear and nonlinear models for brain-machine interfaces. J Neural Eng.<\/strong> 3:145-161, 2006.<\/p>\n

Lebedev MA, Nicolelis MAL. Brain machine interfaces: Past, present and future. Trends Neurosci<\/strong> 29: 536-546, 2006.<\/p>\n

de Araujo IE, Gutierrez R, Oliveira-Maia AJ, Pereira Jr\u00a0 A, Nicolelis MAL, Simon SA.Neural ensemble coding of satiety states.\u00a0 Neuron <\/strong>51:483-494, 2006.<\/p>\n

Lin SC, Gervasoni D, Nicolelis MAL.\u00a0 Fast modulation of prefrontal cortex activity by basal forebrain non-cholinergic neuronal ensembles.\u00a0 J Neurophysiol <\/strong>96: 3209-3219, 2006.<\/p>\n

Dzirasa K, Ribeiro S, Costa RM, Santos LM, Lin S-C, Grosmark A, Sotnikova TD, Gainetdinov RR, Caron MG,\u00a0 Nicolelis MAL. Dopaminergic control of sleep-wake states. J Neurosci<\/strong> 26: 10577-10589, 2006.<\/p>\n

Costa RM, Lin S-C, Sotnikova TD, Cyr M, Gainetdinov RR, Caron MG, Nicolelis MAL. Rapid alterations in corticostriatal ensemble coordination during acute dopamine-dependent motor dysfunction. Neuron<\/strong> 52: 359-369, 2006.<\/p>\n

Nicolelis MAL, Ribeiro S. Seeking the neural code.\u00a0 Sci Am <\/strong>295: 70-77, 2006.<\/p>\n

Simon SA, de Araujo IE, Gutierrez R,\u00a0 Nicolelis MAL. The neural mechanisms of gustation. Nature Rev Neurosci <\/strong>7: 890-901, 2006.<\/p>\n

2005<\/h2>\n

Costa RM, Liu L, Nicolelis MAL, Simon SA. Gustatory effects of capsaicin that are independent of TRPV1 receptors.\u00a0 Chem Senses<\/strong> 30: i198-i200, 2005.<\/p>\n

Lebedev MA, Carmena JM, O\u2019Doherty JE, Zacksenhouse M, Henriquez CS, Principe J, Nicolelis MAL.\u00a0 Cortical ensemble adaptation to represent velocity of an artificial actuator controlled by a brain machine interface. J Neurosci <\/strong>25: 4681-4693, 2005.<\/p>\n

Wiest MC, Bentley N, Nicolelis MAL.\u00a0 Heterogeneous integration of bilateral whisker signals by neurons in primary somatosensory cortex of awake rats.\u00a0 J Neurophysiol<\/strong> 93: 2966-2973, 2005.<\/p>\n

Nicolelis, MAL. Computing with thalamocortical ensembles during different behavioral states. J Physiol<\/strong> 566.1: 37-47, 2005.<\/p>\n

Santucci DM, Kralik JD, Lebedev MA, Nicolelis MAL.\u00a0 Frontal and parietal cortical ensembles predict muscle activity during reaching movements in primates. European J Neurosci<\/strong> 22:\u00a0 1529-1540, 2005.<\/p>\n

Carmena JM, Lebedev MA, Henriquez CS, Nicolelis MAL.\u00a0 Stable ensemble performance with single neuron variability during reaching movements in primates. J Neurosci <\/strong>25: 10712-10716, 2005.<\/p>\n

Sanchez JC, Erdogmus D, Principe JC, Wessberg J, and Nicolelis MAL. Interpreting spatial and temporal neural activity through a recurrent neural network brain machine interface. IEEE Trans Neural Syst Rehabil Eng<\/strong> 15: 213-219, 2005.<\/p>\n

2004<\/h2>\n

Ribeiro S, Gervasoni D, Soares E, Zhou Y, Lin S-C, Pantoja J, Lavine M, Nicolelis MAL. Long-lasting novelty-induced neuronal reverberation during slow-wave sleep in multiple forebrain areas. Public Library of Science<\/strong> 2: 126-137, 2004.<\/p>\n

Obeid I., Nicolelis MAL, Wolf P. A low power multichannel analog front end for portable neural signal recordings. J Neurosci Meth<\/strong> 133: 27-32, 2004<\/p>\n

Obeid I., Nicolelis MAL, Wolf P. A multichannel telemetry system for single unit neural recordings. J Neurosci Meth<\/strong> 133: 33-38, 2004.<\/p>\n

Cohen D, Nicolelis MAL. Reduction of single neuron firing uncertainty by cortical ensembles during motor skill learning. J Neurosci <\/strong>24: 3574-3582, 2004.<\/p>\n

Patil PG, Carmena JM, Nicolelis MAL, Turner DA.\u00a0 Ensemble recordings of human subcortical neurons as a source of motor control signals for a brain-machine interface. J Neurosurgery <\/strong>55: 27-35, 2004.<\/p>\n

Krupa DJ, Wiest, MC, Laubach M, Nicolelis MAL Layer specific somatosensory cortical activation during active tactile discrimination\u00a0\u00a0 Science<\/strong> 304: 1989-1992, 2004.<\/p>\n

Costa RM, Cohen D, Nicolelis MAL. Differential cortico-striatal plasticity during fast and slow motor skill learning in mice. Curr Biol<\/strong> 14: 1124-1134, 2004.<\/p>\n

Wessberg J, Nicolelis MAL. Optimizing a linear algorithm for real-time robotic control using chronic cortical ensemble recordings in monkeys. J Cogn Neurosci<\/strong> 16: 1022-1035, 2004.<\/p>\n

Bossetti CA, Carmena JM, Nicolelis MAL, Wolf PD.\u00a0 Transmission latencies in a telemetry-linked brain-machine interface.\u00a0 IEEE Trans Biomed Egr <\/strong>51: 919-924, 2004.<\/p>\n

Sanchez JC, Carmena JM, Lebedev MA, Nicolelis MAL, Harris JG, Principe JC.\u00a0 Ascertaining the importance of neurons to develop better brain-machine interfaces.\u00a0 IEEE Trans Biomed Egr<\/strong> 51: 943-953, 2004.<\/p>\n

Gervasoni D, Shih-Chieh L, Ribeiro S, Soares ES, Pantoja J, Nicolelis MA.L. Global forebrain dynamics predict rat behavioral states and their transitions. J Neurosc<\/strong>i<\/strong> 24: 11137-11147, 2004.<\/p>\n

Ribeiro S, Nicolelis MAL.\u00a0 Reverberation, storage and post-synaptic propagation of memories during sleep. \u00a0<\/strong>Learn Mem<\/strong> 11: 686 \u2013 696, 2004.<\/p>\n

2003<\/h2>\n

Obeid I, Morizio JC, Moxon KA, Nicolelis MAL, Wolf PD. Two multichannel integrated circuits for neural recording and signal processing. IEEE Trans Biomed Egr <\/strong>50: 255-258, 2003.<\/p>\n

Nicolelis MAL. Brain-machine interfaces to restore motor function and probe neural circuits. Nat Rev Neurosci<\/strong> 4: 417-422, 2003.<\/p>\n

Matell MS, Meck WH, Nicolelis MAL. Interval timing and the encoding of signal duration by ensembles of cortical and striatal neurons. Behavioral Neurosci<\/strong> 117: 760-773, 2003.<\/p>\n

Nicolelis MAL, Dimitrov DF, Carmena J, Crist R, Lehew G, Kralik J, Wise S. Chronic, multi-site, multi-electrode recordings in macaque monkeys. PNAS<\/strong> 100: 11041-11046, 2003.<\/p>\n

Wiest M, Nicolelis MAL. Behavioral detection of tactile stimuli during 7-12 Hz cortical oscillations in awake rats. Nat Neurosci 6<\/strong>: 913-914, 2003.<\/p>\n

Carmena JM, Lebedev MA, Crist RE, O\u2019Doherty JE, Santucci DM, Dimitrov DR, Patil PG, Henriquez CS, Nicolelis MAL.\u00a0 Learning to control a brain-machine interface for reaching and grasping by primates. Public Library of Science<\/strong> 1: 193-208, 2003.<\/p>\n

2002<\/h2>\n

Shuler M, Krupa DJ, Nicolelis MAL. Integration of bilateral whisker stimuli in rats: role of the whisker barrel cortices.\u00a0 Cerebral Cortex<\/strong> 12: 86-97, 2002.<\/p>\n

Katz D, Simon SA, Nicolelis MAL. Taste-specific neuronal ensembles in the gustatory cortex of awake rats. J Neurosci<\/strong> 22: 1850-1857, 2002.<\/p>\n

Nicolelis MAL, Fanselow E. Thalamocortical optimization of tactile processing according to behavioral state. Nature Neurosci<\/strong> 5: 517-523, 2002.<\/p>\n

Nicolelis MAL. Depression at thalamocortical synapses: the key for cortical neuronal adaptation? Neuron<\/strong> 34: 331-2, 2002.<\/p>\n

Nicolelis MAL, Chapin JK. Controlling robots with the mind. Scientific American <\/strong>287: 24-31, October 2002.<\/p>\n

Katz D, Nicolelis MAL, Simon SA. Gustatory processing is dynamic and distributed. Curr Opinion Neurobiol<\/strong> 12: 448-454, 2002.<\/p>\n

Nicolelis MAL. The amazing adventures of robotrat. Trends Cogn Neurosci<\/strong> 6: 449-450, 2002.<\/p>\n

Nicolelis MAL, Ribeiro S. Multi-electrode recordings: the next steps. Curr Opinion Neurobiol<\/strong> 12: 602-606, 2002.<\/p>\n

Nicolelis MAL, Fanselow E. Dynamic shifting in thalamocortical processing during different behavioral states. Phil Trans R Soc Lond B<\/strong> 357: 1753-1758, 2002.<\/p>\n

2001<\/h2>\n

Das A, Franca JG, Gattass R, Kaas JH, Nicolelis MA, Timo-Iaria C, Vargas CD, Weinberger NM, Volchan E. The brain decade in debate: VI. Sensory and motor maps: dynamics and plasticity. \u00a0Braz J Med Biol Res<\/strong> \u00a0 34: 1497-508, 2001.<\/p>\n

Nicolelis MAL. Actions from thoughts. Nature<\/strong> 409: 403-407, 2001.<\/p>\n

Krupa DJ, Brisben AJ, Nicolelis MAL. A multi-channel whisker stimulator for producing spatiotemporally complex tactile stimuli. J Neurosci Meth<\/strong> 104: 199-208, 2001.<\/p>\n

Ghazanfar AA, Nicolelis MAL. The structure and function of dynamic cortical and thalamic receptive fields. Cerebral Cortex 11: 183-193, 2001.<\/p>\n

Katz D, Simon S, Nicolelis MAL. Dynamic and multimodal responses of gustatory cortical neurons in awake rats.\u00a0 J Neurosci<\/strong> 21: 4478-4489, 2001.<\/p>\n

Nicolelis MAL, Shuler M. Thalamocortical and corticocortical interactions in the somatosensory system.\u00a0 Prog Brain Res<\/strong> 130: 89-110, 2001.<\/p>\n

Shuler M, Krupa DJ, Nicolelis MAL. Bilateral integration of whisker information in the primary somatosensory cortex of rats.\u00a0 J Neurosci<\/strong> 21: 5251-5261, 2001.<\/p>\n

Krupa DJ, Matell MS, Brisben AJ, Oliveira LM, Nicolelis MAL. Behavioral properties of the trigeminal somatosensory system in rats performing whisker-dependent tactile discriminations.\u00a0 J Neurosci<\/strong> 21: 5752-5763, 2001.<\/p>\n

Ghazanfar AA, Krupa DJ, Nicolelis MAL. Role of cortical feedback in the receptive field structure and nonlinear response properties of somatosensory thalamic neurons. Exp Brain Res<\/strong> 141: 88-100, 2001.<\/p>\n

Fanselow EE, Sameshima K, Baccala LA, Nicolelis MAL. Thalamic bursting in rats during different awake behavioral states. PNAS<\/strong> 98: 15330-15335, 2001.<\/p>\n

Kralik JD, Dimitrov DF, Krupa DJ, Katz DB, Cohen D, Nicolelis MAL. Techniques for long-term multisite neuronal ensemble recordings in behaving animals.\u00a0\u00a0 Methods <\/strong>25: 121-150, 2001.<\/p>\n

2000<\/h2>\n

Katz D, Nicolelis MAL, Simon S. There is more to taste than meets the tongue. Am J Physiol <\/strong>278: G6-G9, 2000.<\/p>\n

Ghazanfar AA, Stambaugh CR, Nicolelis MAL. Encoding of tactile stimulus location by somatosensory thalamocortical ensembles. J Neurosci<\/strong> 20: 3761-3775, 2000.<\/p>\n

Fanselow EE, Reid AP, Nicolelis MAL. Reduction of pentylenetetrazole-induced seizure activity in awake rats by seizure-triggered trigeminal nerve stimulation. J Neurosci<\/strong> 20:\u00a0 8160-8168, 2000.<\/p>\n

Krupa DJ, Nicolelis MAL. Network level properties of short-term plasticity in the somatosensory system. Progress Brain Res<\/strong> 128: 161-172, 2000.<\/p>\n

Laubach M, Wessberg J, Nicolelis MAL. Cortical ensemble activity increasingly predicts behavior outcomes during learning of a motor task. Nature <\/strong>405: 567-571, 2000.<\/p>\n

Wessberg J, Stambaugh CR, Kralik JD, Beck PD, Chapin JK, Kim J, Biggs SJ, Srinivasan MA, Nicolelis MAL. Real-time prediction of hand trajectory by ensembles of cortical neurons in primates. Nature<\/strong> 408: 361-365, 2000.<\/p>\n

1999<\/h2>\n

Krupa DJ, Ghazanfar AA, Nicolelis MAL. Immediate thalamic sensory plasticity depends on corticothalamic feedback. PNAS<\/strong> 96: 8200-8205, 1999.<\/p>\n

Ghazanfar AA, Nicolelis MAL. Spatiotemporal properties of layer V neurons in the rat primary somatosensory cortex. Cerebral Cortex<\/strong> 9: 348-361, 1999.<\/p>\n

Katz, DB, Simon SA, Nicolelis MAL. Simultaneous reorganization in thalamocortical ensembles evolves over several hours after perioral capsaicin injections. J Neurophysiol <\/strong>82: 963-977, 1999.<\/p>\n

Fanselow E, Nicolelis MAL. Behavioral modulation of tactile responses in the rat somatosensory system. J Neurosci<\/strong> 19: 7603-7616, 1999.<\/p>\n

Chapin JK, Nicolelis MAL. Principal component analysis of neuronal ensemble activity reveals multidimensional somatosensory representations.\u00a0 J Neurosci Meth<\/strong> 94: 121-140, 1999.<\/p>\n

Laubach M, Shuler M, Nicolelis MAL. Independent component analyses for quantifying neuronal ensemble interactions. J Neurosci Meth<\/strong> 94: 141-154, 1999.<\/p>\n

Chapin JK, Moxon KA, Markowitz RS, Nicolelis MAL. Real-time control of a robot arm using simultaneously recorded neurons in the motor cortex. Nature Neurosci<\/strong> 2: 664-670, 1999.<\/p>\n

1998<\/h2>\n

Nicolelis MAL, Krupa DJ, Katz D. Potential circuit mechanisms underlying concurrent thalamic and cortical plasticity. Rev Neurosci<\/strong> 9: 213-224, 1998.<\/p>\n

Nicolelis MAL, Ghazanfar AA, Stambaugh CH, Oliveira LMO, Laubach M, Chapin JK, Nelson R, Kaas JH. Simultaneous encoding of tactile information by three primate cortical areas. Nature Neurosci<\/strong> 1: 621-630, 1998.<\/p>\n

1997<\/strong><\/p>\n

Lin CS, Nicolelis MAL, Chapin JK. Topography and laminar organization of the incertocortical pathway in rats. Neuroscience<\/strong> 81: 641-651, 1997.<\/p>\n

Nicolelis MAL, Lin RCS, Chapin JK. Neonatal whisker deprivation alters the encoding of tactile information by ensembles of thalamic neurons. J Neurophysiol<\/strong> 78: 1691-1706, 1997.<\/p>\n

Ghazanfar AA, Nicolelis MAL. Nonlinear processing of tactile information in the thalamocortical loop. J Neurophysiol <\/strong>78: 506-510, 1997.<\/p>\n

Nicolelis MAL, Ghazanfar AA, Faggin B, Votaw S, Oliveira LMO. Reconstructing the engram: simultaneous, multisite, many single neuron recordings. Neuron<\/strong> 18: 529-537,<\/strong> 1997.<\/p>\n

Nicolelis MAL. Dynamic and distributed somatosensory representations as the substrate for cortical and subcortical plasticity. Seminars in Neurosciences <\/strong>9: 24-33, 1997.<\/strong><\/p>\n

Faggin BM, Ngyuen KT, Nicolelis MAL. Immediate and simultaneous sensory reorganization at cortical and subcortical levels of the somatosensory system. PNAS <\/strong>94: 9428-9433, 1997.<\/p>\n

Nicolelis MAL, Fanselow E, Ghazanfar AA. Hebb\u2019s dream:\u00a0 the resurgence of cell assemblies. Neuron<\/strong> 19: 219-221, 1997.<\/p>\n

1996<\/h2>\n

Chapin JK, Nicolelis MAL. Neural network mechanisms of oscillatory brain states: characterization using simultaneous multi-single neuron recordings. In: Continuous waveform analysis, R.M. Basheiss and D.J. Vicent (eds). Electroenceph Clin Neurophysiol<\/strong>, suppl 45, pp 113-122, 1996.<\/p>\n

Nicolelis MAL, Oliveira LMO, Lin RCS, Chapin JK. Active tactile exploration influences the functional maturation of the somatosensory system. J. Neurophysiol<\/strong> 17: 2192-2196, 1996.<\/p>\n

Nicolelis MAL. Beyond maps: A dynamic view of the somatosensory system. Braz J Med Biol Res <\/strong>29: 401-412, 1996.<\/p>\n

Lin RCS, Nicolelis MAL, Zhou HL, Chapin JK. Calbindin-containing, non-specific thalamocortical projecting neurons in the rat. Brain Res <\/strong>711: 50-55, 1996.<\/p>\n

1995<\/h2>\n

Nicolelis MAL, Chapin JK, Lin RCS. Development of the direct projections from the zona incerta to the primary somatosensory cortex in rats. Neuroscience <\/strong>65: 609-631, 1995.<\/p>\n

Nicolelis MAL, Baccala LA, Lin RCS, Chapin JK. Sensorimotor encoding by synchronous neural ensemble activity at multiple levels of the somatosensory system. Science<\/strong> 268: 1353-1358, 1995.<\/p>\n

1994<\/h2>\n

Nicolelis MAL, Chapin JK. The spatiotemporal structure of somatosensory responses of many-neuron ensembles in the rat ventral posterior medial nucleus of the thalamus. J Neurosci <\/strong>14: 3511-3532, 1994.<\/p>\n

1993<\/h2>\n

Nicolelis MAL, Lin RCS, Woodward DJ, Chapin JK. Dynamic and distributed properties of many-neuron ensembles in the ventral posterior medial (VPM) thalamus of awake rats. PNAS <\/strong>90: 2212-2216, 1993.<\/p>\n

Nicolelis MAL, Lin RCS, Woodward DJ, Chapin JK. Induction of immediate spatiotemporal changes in thalamic networks by peripheral block of ascending cutaneous information. Nature<\/strong> 361: 533-536, 1993.<\/p>\n

1992<\/h2>\n

Nicolelis MAL, Chapin JK, Lin RCS. Somatotopic maps within the zona incerta relay parallel GABAergic somatosensory pathways to the neocortex, superior colliculus, and brainstem. Brain Res<\/strong> 577: 134-141, 1992.<\/p>\n

1991<\/h2>\n

Nicolelis MAL, Lin CS, Chapin, JK. Ontogeny of corticortical projections of the rat somatosensory cortex. Somat Mot Res<\/strong> 8: 193-200, 1991.<\/p>\n

Nicolelis MAL, Chapin JK, Lin RCS. Thalamic plasticity induced by early whisker removal in rats. Brain Res<\/strong> 561: 344-349, 1991.<\/p>\n

Nicolelis MAL, Chapin JK, Lin RCS. Neonatal whisker removal in rats stabilizes a transient projection from the auditory thalamus to the primary somatosensory cortex. Brain Res<\/strong> 567: 133-139, 1991.<\/p>\n

Nicolelis MAL, Baccala LA. Rhythms in the bacterial sensitivity behavior at a large hospital. J Clin Epidemiol<\/strong> 44(2): 191-205, 1991.<\/p>\n

Baccala LA, Nicolelis MAL, Yu CH. Structural analysis of neural circuits using the theory of directed graphs. Comput Biomed Res<\/strong> 24: 7-28, 1991.<\/p>\n

1990<\/h2>\n

Lin CS, Nicolelis MAL, Schneider JS, Chapin JK. A major direct GABAergic pathway from zona incerta to neocortex. Science<\/strong> 248: 1553-1556, 1990.<\/p>\n

Nicolelis MAL, Yu CH, Baccala LA. Structural characterization of the neural circuit responsible for the cardiovascular function control in high vertebrates. Comput Biol Med<\/strong> 20(6): 379-400, 1990.<\/p>\n

1989<\/h2>\n

Montes GS, Nicolelis MAL, Brentani-Samaia HP, Furuie SS. Collagen fibril diameters in mice arteries: A comparison of manual and computer-aided morphometric analyses. Acta Anatomica<\/strong> 135: 57-61, 1989.<\/p>\n

Nicolelis MAL, Tinone G, Sameshima K, Timo-Yaria C, Yu CH, Van de Bild MT. Connection, a microcomputer program for storing and analyzing neural circuits. Comput Biomed Res<\/strong> 23: 64-81, 1989.<\/p>\n

Yu CH, Baccala LA, Nicolelis MAL. Applying graph theory on a neural network responsible for the cardiovascular function control: a correlation between structural properties and physiological functions. In: Proceedings of the VI Conference on Medical Informatics. (B. Barber, D. Cao, D. Qin and G. Wagner, eds) pp 87-91, Singapore, 1989.<\/p>\n

Baccala LA, Nicolelis MAL. Using computers to survey the epidemiological, environmental and genetic factors involved in the process of bacterial resistance acquisition. XIII Symposium on Computer Application in Medical Care, pp 261-265, 1989.<\/p>\n

1988<\/h2>\n

Nicolelis MAL, Baccala LA. Time series analysis of rhythmic bacterial resistance development to antibiotics. Comput Biomed Res<\/strong> 21: 137-157, 1988.<\/p>\n

Lages S, Gutierrez MA, Nicolelis MAL, Furuie SS. A bedside computerized system for monitoring and processing biological signals in an intensive care unit. Proceedings of the XIV Computers in Cardiology Congress, IEEE Computer Society, Leuven, 561-564, 1988.<\/p>\n

Gutierrez MA, Furuie SS, Nicolelis MAL, Lages S. Developing a multi-purpose microcomputer-based system for biological signal analysis to cardiovascular protocols. Proceedings of the XIV Computers in Cardiology Congress, IEEE Computer Society, 505-508, 1988.<\/p>\n

Nicolelis MAL, Yu CH. Application of a microcomputer-based system in the analysis of infection data at the emergency units of a large hospital. Int J Biomed Comput<\/strong> 22: 183-198, 1988.<\/p>\n

Nicolelis MAL, Baccala LA. Do bacteria have an intrinsic rhythmic sensitivity pattern? Critical Care Med<\/strong> 16(6): 650, 1988.<\/p>\n

Bohm GM, Massad E, Nicolelis MAL, Sameshima K. Teaching medical informatics at the Faculty of Medicine, University of S\u00e5o Paulo, Brazil. In: Lecture notes in medical informatics, Proceedings of the VIII International Congress on Medical Informatics Europe 88, P.L. Reichertz and D.A.B. Lindberg eds, Springer-Verlag, 35: 316-320, 1988.<\/p>\n

Nicolelis MAL, Yu CH. Defining criteria for quantitative analysis of the neural network responsible for the cardiovascular function control by means of a microcomputer system. In. Proceedings of the XII Symposium on Computer Applications in Medical Care, R.A. Greenes ed., IEEE Computer Society, Washington, 256-260, 1988.<\/p>\n

Nicolelis MAL, Younes RN. Dissociation of left and right ventricle heart beats during severe hemorrhagic shock in dogs. Circ Shock<\/strong> 28(4): 281-282, 1988.<\/p>\n

Nicolelis MAL. Development of an integrated microcomputer-based system and its application in the analysis of neural network structural properties and biological signal processing. Ph.D. thesis, Institute of Biomedical Science, University of Sao Paulo, 1988.<\/p>\n

1987<\/h2>\n

Nicolelis MAL, Massad E, Utzler R, Engel A, Rodrigues E, Bazzone JRC, Tomida RM. Mathematical model of Klebsiella pneumoniae’s resistance to amikacin and gentamicin. Braz J Med Biol Res<\/strong> 20: 35-41, 1987.<\/p>\n

Massad E, Engel A, Nicolelis MAL. A mathematical model for spirometry. Comput Biomed Res<\/strong> 20(2): 105-112, 1987.<\/p>\n

Nicolelis MAL, Sameshima K, Furuie SS, Gutierrez MA. A signal processing system to analyze the neural control on the cardiovascular function. Proceedings of the VII International Congress Medical Informatics Europe, Rome, 1987, Vol 3, 1318-1322.<\/p>\n

1986<\/h2>\n

Nicolelis MAL, Martins MA, Meireles LP, Birolini D. Computer-aided analysis of patterns of bacterial incidence and sensitivity in a surgical unit. Rev Assoc Med Brasil<\/strong> 32: 134-140, 1986 (Portuguese).<\/p>\n

Nicolelis MAL, Baccala LA, Tinone G, Yu CH. Mathematical approach to bacterial sensitivity rhythm patterns. Proceedings of the MEDINFO Congress, Ifip-Imia, Washington, 480-482, 1986.<\/p>\n

1985<\/h2>\n

Saldiva PHN, Massad E, Caldeira MPR, Calheiros DF, Saldiva CD, Nicolelis MAL, Bohm GM. Pulmonary function of rats exposed to ethanol and gasoline fumes. Brazilian J Med Biol Res<\/strong> 18: 573-577, 1985.<\/p>\n

Massad E, Furuie SS, Moura Jr LA, Saldiva PHN, Nicolelis MAL, Bohm GM. The use of a personal computer in the pulmonary function tests of laboratory rats. Meth Inform Med<\/strong> 24: 197-199, 1985.<\/p>\n

Nicolelis MAL, Carvalho CRR. Computer-aided standardization of antimicrobial therapeutics. Rev Hosp Clin Fac Med Sao Paulo<\/strong> 40: 227-232, 1985 (Portuguese).<\/p>\n

1994<\/h2>\n

Fillho JW, Schoveri Jr. R, Garcia YM, Machado C, Ferreira ML, Barreira PL, Batista MC, Nicolelis MAL, Carvalho Filho ET. Comparative analysis of methods for evaluation of the renal function in elders. Geriatria em Sintese<\/strong> 1: 14-16, 1984 (Portuguese)<\/p>\n","protected":false},"excerpt":{"rendered":"

(Please contact Susan Halkiotis at halkiotis@neuro.duke.edu for reprint requests.) 2019 Kunicki C, Moioli RC, Pais-Vieira M, Peres ASC, Morya E, Nicolelis MAL. Frequency-specifc coupling in fronto-parieto-occipital cortical circuits underlie active tactile discrimination. Rep. 9, Article number: 5105. https:\/\/doi.org\/10.1038\/s41598-019-41516-3. 2018 Shokur … Continue reading →<\/span><\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"onecolumn-page.php","meta":{"footnotes":""},"class_list":["post-91","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/pages\/91","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=%2Fwp%2Fv2%2Fcomments&post=91"}],"version-history":[{"count":32,"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/pages\/91\/revisions"}],"predecessor-version":[{"id":855,"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=\/wp\/v2\/pages\/91\/revisions\/855"}],"wp:attachment":[{"href":"https:\/\/www.nicolelislab.net\/index.php?rest_route=%2Fwp%2Fv2%2Fmedia&parent=91"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}