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ARTICLES

  • Zhang Y, Bose A and Nadim F: Predicting the activity phase of a follower neuron with A-current in an inhibitory network, Biological Cybernetics, 2008, In Press.

  • Clewley R, Soto-Trevino C and Nadim F: Dominant ionic mechanisms explored in spiking and bursting using local low-dimensional reductions of a biophysically realistic model neuron, J Computat Neurosci, 2008, In Press. Click for Abstract (Full text at http://dx.doi.org/10.1007/s10827-008-0099-1).

  • Mouser C, Nadim F and Bose A: Maintaining phase of the crustacean tri-phasic pyloric rhythm, J Math Biology, 57: 161-181, 2008.  Click for Abstract

  • Blitz, D, White RS, Saideman SR, Cook A, Christie A, Nadim F and Nusbaum MP: A newly identified extrinsic input triggers a distinct gastric mill rhythm via activation of modulatory projection neurons, J Exp Biol, 211: 1000-1011, 2008. Click for Abstract

  • Kintos N, Nusbaum MP and Nadim F: Comparing projection neuron and neuromodulator-elicited oscillations in a motor network, J Comput Neurosci, 24: 374-397, 2008. Click for Abstract (Full text at http://dx.doi.org/10.1007/s10827-007-0061-7).

  •  Rotstein H and Nadim F (2007) Neurons and Neural Networks: Computational Models. In Encyclopedia of Life Sciences, John Wiley & Sons, Ltd: Chichester http://www.els.net, doi: 10.1002/9780470015902.a0000089.pub2.

  • Gansert J, Golowasch J and Nadim F: Sustained rhythmic activity in gap-junctionally coupled neurons depends on the diameter of coupled dendrites, 98:3450-3460, 2007. Click for Abstract (Full text at http://dx.doi.org/10.1152/jn.00648.2007).

  • Matveev V, Bose A and Nadim F: Describing the bursting dynamics of a two-cell inhibitory network using a one-dimensional map, J Computational Neuroscience, 23: 169-187, 2007. (Full text at http://dx.doi.org/10.1007/s10827-007-0026-x)

  • Nadim F and Bose A: Dynamics of Central Pattern Generating Networks: Locus of Control, SIAM News: Vol 40 No 2, p 151, 2007. (in pdf form)

  • Rabbah P and Nadim F: Distinct synaptic dynamics of heterogeneous pacemaker neurons in an oscillatory network, J Neurophysiology, 97: 2239-2253, 2007. (Full text at http://dx.doi.org/10.1152/jn.01161.2006)

  • Zhou L, Zhao S and Nadim F: Neuromodulation of short-term synaptic dynamics examined in a mechanistic model based on kinetics of calcium currents, Neurocomputing, 70: 2050-2054, 2007. (Full text at http://dx.doi.org/10.1016/j.neucom.2006.10.084)

  • Drover J, Tohidi V, Bose A and Nadim F: Combining synaptic and cellular resonance in a feed-forward neuronal network, Neurocomputing, 70: 2041-2045, 2007. (Full text at http://dx.doi.org/10.1016/j.neucom.2006.10.135)

  • Nadim F and Golowasch J: Signal transmission between gap-junctionally coupled passive cables occurs at an optimal cable diameter, J Neurophysiology, 95: 3831-3843, 2006. (Full text at http://dx.doi.org/10.1152/jn.00033.2006

  • Smolinski TG, Rabbah P, Soto-Trevino C, Nadim F and Prinz AA: Analysis of biological neurons via modeling and rule mining, International J of Info Tech and Intelligent Computing, 1(2): 293-302, 2006.(In pdf Form).

  • Zhou L, LoMauro R and Nadim F, The interaction between facilitation and depression of two release mechanisms in a single synapse. Neurocomputing, 69: 1001-1005, 2006. (In pdf Form).

  • Ambrosio C, Nadim F and Bose A, The effects of varying the timing of inputs on a conditional oscillator. SIAM Journal on Applied Dynamical Systems, 5:108-139, 2006(In pdf Form).

  • Rabbah P and Nadim F: Synaptic dynamics do not determine proper phase of activity in a central pattern generator, J. Neuroscience, 25: 11269-11278, 2005. (In pdf Form).

  • Johnson BR, Schneider LR, Nadim F, Harris-Warrick RM: Dopamine modulation of phasing of activity in a rhythmic motor network: contribution of synaptic and intrinsic modulatory actions. J. Neurophysiology, 94: 3101-3111, 2005. (In pdf Form).

  • Mamiya A and Nadim F: Target-specific regulation of short-term synaptic depression is important for the function of the synapses in an oscillatory neural network, J. Neurophysiology, 94: 2590 - 2602, 2005. (In pdf Form).

  • Beenhakker MP, DeLong ND, Saideman SR, Nadim F and Nusbaum MP, Proprioceptor Regulation of Motor Circuit Activity by Presynaptic Inhibition of a Modulatory Projection Neuron. J. Neuroscience, 25: 8794-8806, 2005. (In pdf Form).

  • Soto-Treviņo C, Rabbah P, Marder E and Nadim F: A computational model of electrically coupled, intrinsically distinct pacemaker neurons, J. Neurophysiology, 94: 590-604 , 2005. (In pdf Form).

  • Rabbah P, Golowasch J and Nadim F: Effect of electrical coupling on ionic current and synaptic potential measurements, J. Neurophysiology, 94: 519-530, 2005. (In pdf Form)

  • Ambrosio C, Bose A, Nadim F: The effect of modulatory neuronal input on gastric mill frequency. Neurocomputing, 65-66: 626-631, 2005. (In pdf Form)

  • Wood DE, Manor Y, Nadim F and Nusbaum MP: Inter-Circuit Control via Rhythmic Regulation of Projection Neuron Activity, J Neurosci., 24: 7455-7463, 2004. (In pdf Form) 

  • Bose A, Manor Y and Nadim F: The activity phase of postsynaptic neurons in a simplified rhythmic network, J. Comput. Neurosci., 17, 245-261, 2004. (In pdf Form) 

  • Mamiya A and Nadim F: Dynamic interaction of oscillatory neurons coupled with reciprocally inhibitory depressing synapses acts to stabilize the rhythm period, J. Neuroscience, 24: 5140-5150, 2004. (In pdf Form).

  • Mamiya A, Manor Y and Nadim F: Short-term dynamics of a mixed chemical and electrical synapse in a rhythmic network, J. Neuroscience, 23: 9957-9564, 2003. (In pdf Form)

  • Manor Y, Bose A, Booth V and Nadim F: Synaptic depression promotes phase invariance in a model rhythmic network, J. Neurophysiology, 90: 3513-3528, 2003. (In pdf Form)

  • Nadim F, Booth V, Bose A and Manor Y: Short-term synaptic dynamics promote phase maintenance in multi-phasic rhythms, Neurocomputing, 52-54: 79-87, 2003.(In pdf Form)

  • Manor Y and Nadim F (2001) Synaptic depression mediates bistability in neuronal networks with recurrent inhibitory connectivity, J. Neuroscience, 21: 9460-9470. (In pdf Form)

  • Nadim, F and Y. Manor (2002) Neurons and Neural Networks: Computational Models, In Encyclopedia of Life Sciences, Macmillan Reference, London. (In pdf Form)

  • Bose A, Manor Y and Nadim F (2001) Bistable oscillations arising from synaptic depression, 2001, SIAM J. App. Math., 62: 706-727. (In pdf Form

  • Nadim F, Manor Y, and Bose A (2001) Control of Network Output by Synaptic Depression, 2001, Neurocomputing, 38-40:781-787. (In pdf Form)

  • Manor Y and Nadim F (2001) Frequency regulation demonstrated by coupling a model and a biological neuron, 2001, Neurocomputing, 38-40:269-278. (In pdf Form)

  • Nadim F and Manor Y (2000) The Role of Short-term Synaptic Dynamics in Motor Control. Current Opinion in Neurobiology, 10:683-690. (In pdf Form)

  • Golowasch J., Y. Manor, F. Nadim.: Recognition of slow processes in rhythmic networks. TINS, 22, 375-377, 1999. (In pdf Form)

  • Nadim, F., Y. Manor, N. Kopell and E. Marder.  Synaptic Depression Creates a Switch That Controls the Frequency of an Oscillatory Circuit. Proc. Natl. Acad. Sci. Vol. 96, 8206-8211, 1999. (In pdf Form)

  • Bartos M., Y. Manor, F. Nadim, E. Marder, and M. P. Nusbaum: Coordination of Fast and Slow Rhythmic Neuronal Circuits. J. Neurosci. 19: 6650-6660, 1999. (In pdf Form)

  • Manor, Y., Nadim, F., Epstein, S., Ritt, J., Marder, E., and Kopell, N.: Network Oscillations Generated by Balancing Graded Asymmetric Reciprocal Inhibition in Passive Neurons. J. Neurosci. 19:2765-2779, 1999. (In pdf Form)

  •  Nadim, F., Manor, Y., Nusbaum, M.P., and Marder, E.: Frequency Regulation of a Slow Rhythm by a Fast Periodic Input. J. Neurosci., 18(13): 5053-5067, 1998. (In pdf Form)

  • Marder, E., Manor, Y., Nadim, F., Bartos, M., and Nusbaum, M.P.: Frequency Control of a Slow Oscillatory Network by a Fast Rhythmic Input: Pyloric to Gastric Mill Interactions in the Crab Stomatogastric Nervous System. In: Neuronal Mechanisms for Generating Locomotor Activity. (Kiehn O., Harris-Warrick, R.M., Jordan, L.M., Hultborn, H., and Kudo, N. eds.). Annals New York Acad. Sci. 860: 226-238, 1998.
     
  • Nadim, F., Manor, Y., Epstein, S., and Marder, E.: Entrainment of a Slow Neuronal Oscillator by a Fast One.  In Computational Neuroscience: Trends in Research, 1998, James M. Bower ed. (Plenum Press, NY).

  • Manor, Y., Nadim, F., and Marder, E.: Using the Dynamic Clamp Technique to Study Frequency Regulation of the Pyloric Rhythm.  In Computational Neuroscience: Trends in Research, 1998, James M. Bower ed. (Plenum Press, NY).

  • Birmingham, J.T., Manor, Y., Nadim, F., Abbott, L.F., and Marder, E.: An Empirical Model Describing the Dynamics of Graded Synaptic Transmission in the Lobster Pyloric Network.  In Computational Neuroscience: Trends in Research, 1998, James M. Bower ed. (Plenum Press, NY).

  • Manor, Y. and Nadim, F.: Dynamic Synapse Simulator for Studying Neuronal Circuitry Using LabWindows/CVI. In Virtual Instrumentation in Education 1997 Conference Proceedings, National Instruments Corp., 207-216, 1997.

  • Nadim, F., Manor, Y., Abbott, L.F., and Marder, E.: Strength and timing of graded synaptic transmission depend on frequency and shape of the presynaptic waveform.  In Computational Neuroscience: Trends in Research, 1997, James M. Bower ed. (Plenum Press, NY, 1997).

  • Manor, Y., Nadim, F., Nusbaum, M.P., and Marder, E.: Modeling the MCN1-activated gastric mill rhythm: the interaction between fast and slow oscillators.  In Computational Neuroscience: Trends in Research, 1997, James M. Bower ed. (Plenum Press, NY, 1997).

  • Manor, Y., Nadim, F. Abbott, L.F., and Marder, E.: Temporal Dynamics of Graded Synaptic Transmission in the Lobster Stomatogastric Ganglion. J. Neurosci. 17(14):5610-5621, 1997. (In pdf Form)

  • Nadim, F. and Calabrese, R.L.: A Slow Outward Current Activated by FMRFamide in Heart Interneurons of the Medicinal Leech. J. Neurosci. 17(11)4461-4472, 1997. (In pdf Form)

  • Olsen, O.H., Nadim, F., Hill, A.V., and Edwards, D.H.: Uniform Growth and Neuronal Integration. J. Neurophysiol., 76:1850-1857, 1996. (In pdf Form)

  • Nadim, F., Olsen, O.H., De Schutter, E., and Calabrese, R.L.: Modeling the Leech Heartbeat Elemental Oscillator I. Interactions of Intrinsic and Synaptic Currents. J. Comput. Neurosci. 2:215-235, 1995. (In pdf Form)

  • Olsen, O.H., Nadim, F., and Calabrese, R.L.: Modeling the Leech Heartbeat Elemental Oscillator II. Exploring the Parameter Space. J. Comput. Neurosci. 2:237-257, 1995. (In pdf Form)

  • Calabrese, R.L., Nadim, F., and Olsen, O.H.: Heartbeat Control in the Medicinal Leech: A Model System for Understanding the Origin, Coordination, and Modulation of Rhythmic Motor Patterns. J. Neurobiol. 27, 394-402, 1995.

  • Nadim, F., Olsen, O.H., De Schutter, E., and Calabrese, R.L.: The Interplay of Intrinsic and Synaptic Currents in a Half-Center Oscillator. In Neurobiology of Computation, Proceedings of the Third Annual Computation and Neural Systems Conference, James M. Bower ed. (Kluwer, Boston, 1994).

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