Other

2009

1. Johnson, DH, R Jung, U. Ernst. Computational Neuroscience (CNS*2009), BMC Neuroscience, 10 (Suppl 1):I1, 2009.
2. Venugopal S, S. Crook, T. M. Hamm, R Jung. A computational study of the interaction between persistent inward currents and recurrent inhibition of alpha motoneurons before and after spinal cord injury. Program No. 657.10/BB11. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online. (Chicago, IL, Oct 17-21, 2009, Poster presentation)
3. Fairchild M, JL Burton, SJ Kim, A Iarkov, JJ Abbas, R Jung. Use of adaptive neuromuscular electrical stimulation for hip movement in an incomplete spinal cord injury rodent model. Program No. 55.9/K18. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online. (Chicago, IL, Oct 17-21, 2009, Poster presentation)
4. Turkin V, D O’Neill, R Jung, TM Hamm. Comparison of frequency-current relations and persistent inward currents in rat motoneurons measured in situ. Program No. 860.12/Z27. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online.
5. Kanchiku T, T Taguchi, Y Kato, H Suzuki, Y Imajo, R Jung. A rodent model of functional neuromuscular stimulation for motor therapy after spinal cord regeneration therapy. Program No. 176.14/AA19. 2009 Neuroscience Meeting Planner. Chicago, IL: Society for Neuroscience, 2009. Online.
6. Hamm T, S Venugopal, V Turkin, B Hilllen, JJ Abbas, G Yamaguchi, A Iarkov, R Jung. Modeling Neuromusculoskeletal Alterations after Spinal Cord Injury. CRCNS09, Collaborative Research in Computational Neurosceince PI meeting, Pittsburgh, June 7-9, 2009. (Talk by R Jung and T Hamm)
7. Protas D, B Brown, R Jung and DL Jindrich. Neurotransmitter antagonists affect motor evoked potentials in an anesthetized rodent model. 16th Annual undergraduate research poster symposium, 2009, SOLS, ASU, Tempe, AZ. (Poster presentation by D Protas).

2008

1. Graham, J.W. and R. Jung,. Morphologically realistic computational models of rat hindlimb motoneurons and the effects of spinal cord injury. Program No. 76.10/NN18. 2008 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience, 2008. Online. (Washington DC, Nov 15-19, 2008, Poster presentation)
2. Protas, D.T., B.G. Brown, R. Jung, D.L. Jindrich. Selective neurotransmitter blockers affect motor evoked potentials in anesthetized rats. Program No. 74.7/MM15. 2008 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience, 2008. Online. (Washington DC, Nov 15-19, 2008, Poster presentation)
3. Hillen, B, K., J. Abbas, D. Jindrich, R. Jung. Computational model of the effects of muscle activation profile on foot drag in the SCI rat. Program No. 469.8/MM13. 2008 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience, 2008. Online. (Washington DC, Nov 15-19, 2008, Poster presentation)
4. Kurian, M, S. Crook, R. Jung. Modeling changes in motoneuron morphology after spinal cord injury. Program No. 469.12/MM17. 2008 Neuroscience Meeting Planner. Washington, DC: Society for Neuroscience, 2008. Online. (Washington DC, Nov 15-19, 2008, Poster presentation)
5. Jung, R. Neurotechnology for Making Neural Circuits Functional. pg. 12. Proceedings of the Twelfth International Conference on Cognitive and Neural Systems (12th ICCNS), Boston University, Boston, MA, May 14–17, 2008.
6. Jung, R. Adaptive Neurotechnology to Make Neural Circuits Functional. American Physiological Society, March Meeting, March 10-14, 2008. New Orleans, LA

2007

1. Graham, JW and Jung, R, “Modeling morphological changes in spinal motoneurons following spinal cord injury to explore changes in electrical behavior” BMC Neuroscience 2007, 8 Suppl (2): P104.
2. Kurian, MP and Crook, SM (2007) Modeling motoneuron excitability following spinal cord injury, Society for Neuroscience Abstracts (#76.6).
3. Crook, S, Gleeson, P and Silver, RA (2007) NetworkML: Level 3 of the NeuroML standards for multiscale model specification and exchange, Society for Neuroscience Abstracts (#102.28)
4. Jennings, AB, Crook, S, Duch, C and Ryglewski, S (2007) Mathematical models of octopaminergic dorsal unpaired median neurons, Society for Neuroscience Abstracts (#536.20).
5. Kim, S-J, Mukherjee, M, Iarkov, A, Abbas, JJ, Jung, R Adaptive control for neuromuscular stimulation movement therapy. J. Neurotrauma, 24(7): P236, pg 1288. 2007 doi:10.1089/neu.2007.9972. (Poster presentation at 25th Annual National Neurotrauma Society Meeting. Missouri, KA 2007 by Kim, S-J).
6. Hillen, BK, Abbas, JJ, Yamaguchi, G, Jung, R. Effects of spinal cord injury on musculoskeletal parameters in the rodent. Program No. 404.20. 2007 Neuroscience Meeting Planner. San-Diego, CA: Society for Neuroscience, 2007. Online. (Society for Neuroscience Annual Meeting, San Diego, CA, Nov 3-7, 2007. Poster presentation)
7. Fairchild, M, Graham, JW, Iarkov, AV, Hagner, D, Jung, R. Characterization of motoneuron morphology in a complete and incomplete spinal cord injury rodent model. Program No. 76.4. 2007 Neuroscience Meeting Planner. San-Diego, CA: Society for Neuroscience, 2007. Online. (Society for Neuroscience Annual Meeting, San Diego, CA, Nov 3-7, 2007. Poster presentation)
8. Graham, JW and Jung, R. Morphologically realistic computational models of rat hindlimb motoneurons after spinal cord injury. Program No. 76.5. 2007 Neuroscience Meeting Planner. San-Diego, CA: Society for Neuroscience, 2007. Online. (Society for Neuroscience Annual Meeting, San Diego, CA, Nov 3-7, 2007. Poster presentation)
9. Bhowmik, M, Channer, D, Allison, S, Herman, Jung, R, Abbas, JJ. Locomotor retraining after spinal cord injury using adaptive control of electrical stimulation. Program No. 75.3. 2007 Neuroscience Meeting Planner. San Diego, CA: Society for Neuroscience, 2007. Online.

2006

1. Jung, R. Making Injured Neuromusculoskeletal Systems Functional, National Academies Keck Futures Initiative conference on “Smart Prosthetics: Exploring Assistive Devices for the Body and Mind”, Nov. 9-11, 2006, Irvine, CA. (Poster presentation)
2. Iarkov, A, Graham, J, Kanchiku T, Hagner, D, Jung, R. Location and 3d reconstruction of motoneurons innervating gastrocnemius medialis and tibialis anterior in the rat. Program No. 88.18. 2006 Neuroscience Meeting Planner. Atlanta, GA: Society for Neuroscience, 2006. Online. (Society for Neuroscience Annual Meeting, Atlanta, GA, Oct 14-18, 2006. Poster presentation)
3. Lynskey JV, Kanchiku T, Abbas JJ, Jung R. A Rodent Model of Forelimb Neuromuscular Stimulation for Motor Therapy. Society for Neuroscience Annual Meeting, Atlanta, GA, Oct 14-18-16, 2006. Program No. 284.12. 2006 Neuroscience Meeting Planner. Atlanta, GA: Society for Neuroscience, 2006. Online. (Society for Neuroscience Annual Meeting, Atlanta, GA, Oct 14-18, 2006. Poster presentation)

2005

1. Venkatasubramanian, G, Kanchiku, T, Mukherjee, M, Abbas, JJ, Jung, R. Functional neuromuscular stimulation after spinal cord injury: a rodent model. J. Neurotrauma, 22(10):P307, pg.1241, 2005. (Poster presentation at 23rd Annual National Neurotrauma Society Meeting, Washington DC, Nov 10-11, 2005).
2. Mukherjee, M, Belanger, A, Kanchiku, T, Lynskey, J, Thota, A, Abbas, J, R. Jung, J. Functional neuromuscular stimulation after incomplete spinal cord injury in rodents promotes recovery of locomotion. J. Neurotrauma, 22(10):P222 pg.1220, 2005. (Poster presentation at 23rd Annual National Neurotrauma Society Meeting, Washington DC, Nov 10-11, 2005).
3. Belanger, A, Kanchiku, T, Mukherjee, M, Lynskey, J, Abbas, JJ, Jung, R. A Rodent Model of Functional Neuromuscular Stimulation Therapy after Incomplete Spinal Cord Injury; Program No. 105.11. 2005 Abstract Viewer/Itinerary Planner. Washington, DC: Society for Neuroscience, 2005. Online. (Society for Neuroscience Annual Meeting, Washington DC. Nov12-16, 2005. Poster presentation)
4. Venkatasubramanian,G, Kanchiku, T, Mukherjee, M, Abbas, JJ, Jung, R. Functional Neuromuscular Stimulation (FNS) Assisted Locomotion in a Paraplegic Rodent. Program No. 105.12. 2005 Abstract Viewer/Itinerary Planner. Washington, DC: Society for Neuroscience, 2005. Online. (Society for Neuroscience Annual Meeting, Washington DC. Nov12-16, 2005. Poster presentation)

2004

1. Venkatasubramanian, G, Ichihara, K, Abbas, JJ, Jung, R. Functional Neuromuscular Stimulation in a Paraplegic Rodent Model: Electrode Design, Implantation and Assessment J. Neurotrauma 21(9):P225, pg. 1320 2004. (Poster Presentation at the 22nd National Neurotrauma Society, Oct 21-Oct 22, San Diego, CA, MS, 2004 by Jung, R and Venakatasubramanian, G)

2003

1. Ichihara , K, Venkatasubramanian, G, Abbas, JJ, Jung, R. Electrical stimulation paradigms to assist in locomotor training after spinal cord injury. J. Neurotrauma, 20(10):P412 pg.1131, 2003.(Presentation at the National Neurotrauma Society, Nov. 6-Nov. 7, Biloxi, MS, 2003)
2. Gullapalli, J, Fugaccia, I, Anderson, KJ, Grisanti, K, Jung, R, Scheff, SW, Hardy, P. Anisotropic diffusion coefficient characterizes spinal cord injury. J. Neurotrauma 20(10):P236 pg. 1086, 2003.(Presentation at the National Neurotrauma Society, Nov. 6-Nov. 7, Biloxi, MS, 2003)
3. Jung, R. Interfacing with the nervous system for neuromotor control, Proceedings of the 2003 Annual Fall Meeting of the Biomedical Engineering Society, 10.5.5, 2003. Oct 1-3, Nashville, TN (Invited talk by R. Jung)
4. Venkatasubramanian, G, Ichihara, K, Abbas, JJ, Jung, R. A rodent model for locomotor training using functional neuromuscular stimulation. Program No. 498.11. 2003 Abstract Viewer/Itinerary Planner. Washington, DC: Society for Neuroscience, 2003. Online. 2003 Society for Neuroscience 31st Annual Meeting, Nov. 8-12, 2003, New Orleans, LA. (Poster presentation)
5. Veeraraghavalu, K, Abbas, JJ, Yamaguchi, G, Jung, R. Biomechanical model of an unloaded rat hindlimb. Program No. 76.20. 2003 Abstract Viewer/Itinerary Planner. Washington, DC: Society for Neuroscience, 2003. Online. Society for Neuroscience 31st Annual Meeting, Nov. 8-12, 2003, New Orleans, LA. (Poster presentation)

2002

1. Jung, R, Carlson, S, Knapp, E, Thota, A, Thompson, B, Ravi, N, Alton, J and T. Coates. Locomotor training in a rodent model of incomplete spinal cord injury. J. Neurotrauma 19(10):P359, pg. 1337, 2002.(Poster presentation at the First Joint Symposium of the National and International Neurotrauma Societies, Oct. 27-Nov. 1, Tampa, FL, 2002 by R. Jung)
2. Jung, R, Carlson, Knapp, SE, Thompson, B, Thota, A and Ravi, N. Kinematics of rodent gait after incomplete spinal cord injury. Soc. Neurosci. Abstr. P853.4, 2002 (Poster presentation Jung, R & Thota, A. Society for Neuroscience 30th Annual Meeting, Nov. 2-7, 2002, Orlando FL.)
3. Ravi, N, Booth, V, Abbas, JJ, Jung, R. A two-compartment vertebrate motoneuron model to investigate effects of afferent nerve stimulation Soc. Neurosci. Abstr. P667.13, 2002 (Poster presentation, Ravi, N & Jung, R at Society for Neuroscience 30th Annual Meeting, Nov. 2-7, 2002, Orlando FL.)
4. Jung, R, Carlson, S, Knapp, E, Thota, A, Thompson, B, Ravi, N and Coates, T. Locomotor training in a rodent model of incomplete spinal cord injury. Proceedings of the Eighth Annual Kentucky Spinal Cord and Head Injury Research Symposium. June 24-26, Lexington, KY, 2002. (Oral presentation by R. Jung).

2001

1. Thota, A, Jung, R and Abbas, JJ. Adaptive control of end-point position by weighted activation of force fields. Annals of Biomed. Eng., vol.29 (Suppl. 1), 10.2.4, pg. S-121, 2001. (Oral presentation by Thota, A at 2001 Annual Fall Meeting of the Biomedical Engineering Society, Durham, North Carolina. Oct. 4-7)
2. Jung, R, Carlson, S, Knapp, E, Ravi, N, Thompson, B and Thota, A. Locomotor training in a rodent model of incomplete spinal cord injury, Clinical Advances in Neurorehabilition Science, Sept. 27-29, 2001, Lexington, KY (Poster presentation by R. Jung)

2000

1. Miller, A, Thompson, B, Jung, R. Kinematic analysis of locomotor recovery in the partial spinal cord injured rat. Annals of Biomed. Eng., vol.28 (Suppl. 1), T11.25, pg. S-113, 2000. (Poster presentation by A. Miller at the 2000 Annual Fall Meeting of the Biomedical Engineering Society, Oct. 12 - 14, Seattle, Washington)
2. Grandhe, S. and Jung, R. Presence of brain-spinal cord interactions alters lamprey locomotor response to periodic perturbation. Proceedings of the Ninth Annual Computational Neuroscience Meeting (CNS-2000), Brugge, Belgium, July 16-20, pg. 109, 2000. (Oral presentation by Grandhe, S).
3. Grandhe, S, Abbas, JJ and Jung, R. Periodic perturbation effects on locomotor rhythm and motor pattern generation in the lamprey. Soc. Neurosci. Abstr., 26(2):834.1, 2000. (Poster presentation by Jung, R).
4. Jung, R. Brain-spinal cord interactions in control of locomotion. Proceedings of the Whitaker Foundation Biomedical Engineering Research Conf., August 10-13, 2000, San Diego, CA. (Poster presentation by Jung, R)
5. Abbas, JJ and Jung, R. Bioengineering the nervous system- Approaches to investigate, replace and repair the injured spinal cord. Proceedings of the Sixth Annual Kentucky Spinal Cord and Head Injury Research Trust Symposium. June 10-13, Lexington, KY, 2000.

1999

1. Wang, H and Jung, R. Effects of supraspinal-spinal loops on the dynamic evolution of fictive locomotion Proceedings of the Eighth Annual Computational Neuroscience Meeting (CNS-99), Pittsburgh, pg. 89, 1999. (Poster presentation by Wang, H with Jung, R)
2. Li, D, Magnuson, DSK, and Jung, R. Non-stationary analysis of extracellular neural activity. Proceedings of the Eighth Annual Computational Neuroscience Meeting (CNS-99), Pittsburgh, pg. 89, 1999. (Poster presentation by Li, D with Jung, R)
3. Shao, M and Jung, R. Robustness of the CGSA in estimating the Hurst exponent from time series with fractal and harmonic components. Proceedings of the Eighth Annual Computational Neuroscience Meeting (CNS-99), Pittsburgh, pg. 89, 1999. (Poster presentation by Jung, R)
4. Jung, R, Brauer, EJ and Abbas, JJ. A real-time neuromorphic analog VLSI spinal cord interface for rhythmic motor control. Soc. Neurosci. Abstr., 25(1):422.3, 1999. (Oral presentation by Jung, R)
5. Shao, M and Jung, R. Persistent correlation in locomotor rhythm in the presence of brain-spinal cord interaction. Soc. Neurosci. Abstr., 25(1):49.14, 1999. (Poster presentation by Jung, R)

1998

1. Jung, R, Abbas, JJ, Brauer, EJ. Entrainment of an analog VLSI model of lamprey unit pattern generator. Annals of Biomedical Engineering, 26(1):NE.48, S-99, 1998. (Poster presentation by Jung, R)
2. Li, D, Magnuson, DSK, Jung, R. A non-uniform coupled phase oscillator model for a locomotor pattern generator. Annals of Biomedical Engineering, 26(1):NE.50, S-99, 1998. (Poster presentation by Li, D with Jung, R)
3. Grandhe, S and Jung, R. Periodic perturbation of a neural network model of the lamprey locomotor CPG. Annals of Biomedical Engineering, 26(1):NE.51, S-100, 1998. (Poster presentation by Grandhe, S with Jung, R)
4. Li, D, Green, DM, Magnuson, DSK and Jung, R. Time-varying analysis of the locomotor rhythm generator in neonatal rat spinal cord. Annals of Biomedical Engineering, 26(1):NE.49, S-99, 1998. (Poster presentation by Li, D with Jung, R)
5. Jung, J and Jung, R. Brain-spinal cord feedforward-feedback interactions affect output pattern and intracellular properties of motor networks in the lamprey. Proceedings of the Seventh Annual Computational Neuroscience Meeting (CNS-98), Santa Barbara, pg. 89, 1998. (Poster presentation by Jung, R)

1997

1. Jung, R and Generazzo, S. Perturbation of a neural network model of locomotor control in the lamprey. Proceedings of the Sixth Annual Computational Neuroscience Meeting (CNS-97), Big Sky, Montana, pg. 77. July 1997 (Poster presentation by Jung, R)

1996

1. Brewer, B and Jung, R. Contributions of pacemaker neurons in a central pattern generator for locomotor control. Suppl. to Proceedings of the 15th Southern Biomedical Engineering Conference, Dayton, OH, 1996. (Oral presentation by Brewer, B)

1995

1. Jung, R, Kiemel, T and Cohen, AH. Bifurcation analysis of a neural network model of locomotor control in the lamprey. Proceedings of the Computational and Neural Systems Conference (CNS-95), Monterey, CA, 1995. (Poster presentation by Jung, R)

1991

1. Jung, R. and Thames, MD. Cardio-respiratory baroreflex control in rats with chronic myocardial infarction. Circulation (Suppl.II), 84(4):2202, 1991. (Oral presentation by Jung, R)