Publications

  1. Barth, D.S., Sutherling, W., Engel, J. Jr. & Beatty, J. Neuromagnetic localization of epileptiform spike activity in the human brain. Science, 1982, 218: 891-894.
  2. Richer, F., Barth, D.S. & Beatty, J. Neuromagnetic localization of two components of the transient visual evoked response to patterned stimulation. Il Nuovo Cimento, 1983, 2D (2): 420-428.
  3. Beatty, J., Barth, D.S. & Sutherling, W. Magnetically localizing the sources of epileptic discharges within the human brain. Naval Research Reviews, 1984, 36: 20-28.
  4. Barth, D.S., Sutherling, W., Engel, J. Jr. & Beatty, J. Neuromagnetic evidence of spatially distributed sources underlying epileptiform spikes in the human brain. Science, 1984, 223: 293-296.
  5. Barth, D.S., Sutherling, W. & Beatty, J. Fast and slow magnetic phenomena in focal epileptic seizures. Science, 1984, 226: 855-857.
  6. Barth, D.S., Sutherling, W., Engel, J. Jr. & Beatty, J. Neuromagnetic localization of single and multiple sources underlying epileptiform spikes in the human brain. In R.J. Porter et al. (Eds.), Advances in Epileptology: XVth Epilepsy International Symposium. New York: Raven Press, 1984, pp. 379-384.
  7. Castiglioni, A.J. & Barth, D.S. A program for computing power spectra on a microcomputer. J. Neurosci. Methods, 1984, 10:17-21.
  8. Barth, D.S., Sutherling, W. & Beatty, J. Animal neuromagnetometry and its specific application to the study of focal epileptic phenomena. In Weinberg, Stroink, and Katila (Eds.), Biomagnetism: Applications and Theory, New York: Pergamon Press, 1985, pp. 237-248.
  9. Sutherling, W., Barth, D.S. & Beatty, J., Magnetic fields of epileptic foci: Equivalent localization and propagation. In Weinberg, Stroink, and Katila (Eds.), Biomagnetism: Applications and Theory, New York: Pergamon Press, 1985, pp. 249-260.
  10. Beatty, J., Barth, D.S. & Sutherling, W., Neuromagnetic localization of intracranial current sources in the epilepsies: Introduction. In Weinberg, Stroink, and Katila (Eds.), Biomagnetism: Applications and Theory, New York: Pergamon Press, 1985, pp. 235-236.
  11. Barth, D.S., Sutherling, W. & Beatty, J. Intracellular currents of interictal penicillin spikes: Evidence from neuromagnetic mapping. Brain Research, 1986, 368: 36-48.
  12. Barth, D.S., Sutherling, W., *Broffman, J. & Beatty, J. Magnetic localization of a current source implanted in a sphere and a human cranium. Electroenceph. Clin. Neurophys., 1986, 63: 260-273.
  13. Beatty, J., Barth, D.S., Richer, F. & Johnson, R.A. Neuromagnetometry. In M.G.H. Coles, S.W. Porges, and E. Donchin (Eds.), Psychophysiology: Systems, processes, and applications. New York: Guilford Press, 1986, pp. 26-40.
  14. Sutherling, W.W., Crandall, P.H., Engel, J.Jr., Darcey, T.M., Cahan, L.D. & Barth, D.S. The magnetic field of complex partial seizures agrees with intracranial localizations. Ann. Neurol., 1987, 21: 548-558.
  15. Barth, D.S. & Sutherling, W.W. Current source-density and neuromagnetic analysis of the direct cortical response in rat cortex. Brain Research, 1988, 450: 280-294.
  16. Sutherling, W.W., Crandall, P.H., Cahan, L.D. & Barth, D.S. The magnetic field of epileptic spikes agrees with intracranial localizations in complex partial epilepsy. Neurology, 1988, 38: 778-786.
  17. Sutherling, W.W., Crandall, P.H., Darcey, T.M., Becker, D.P., Levesque, M.F. & Barth, D.S. The magnetic and electric fields agree with intracranial localizations of somatosensory cortex. Neurology, 1988, 38: 1705-1714.
  18. Sutherling, W.W. & Barth, D.S. Neocortical propagation in temporal lobe spike foci on magnetoencephalography and electroencephalography. Ann. Neurol., 1989, 25: 373-381.
  19. Barth, D.S., Di, S. & Baumgartner, C. Laminar cortical interactions during epileptic spikes studied with principal component analysis and physiological modeling. Brain Research, 1989, 484: 13-35.
  20. Sutherling, W. W., Crandall, P., Levesque, M., Darcey, T. and Barth, D. S. Physical interpretation of the frontal lobe seizure: The dipole approximation and sensorimotor cortex. In P. Chauvel, A. Delgado-Escueta, E. Halgren and J. Bancaud (Eds.), Frontal Lobe Seizures and Epilepsies, New York, Raven Press, 1989, pp. 665.
  21. Barth, D.S., Baumgartner, C. & Sutherling, W.W. Neuromagnetic field modeling of multiple brain regions producing interictal spikes in human epilepsy. Electroenceph. Clin. Neurophys., 1989, 73: 389-402.
  22. Baumgartner, C., Sutherling, W.W., Di, S. & Barth, D.S. Investigation of multiple simultaneously active brain sources in the electroencephalogram. J. Neurosci. Meth., 1989, 30: 175-184.
  23. Barth, D.S., Baumgartner, C. & Di, S. Laminar interactions in rat motor cortex during cyclical excitability changes of the penicillin focus. Brain Research, 1990, 508: 105-117.
  24. Barth, D.S. and Sutherling, W.W. Neuromagnetic studies of evoked and spontaneous activity in animals. In S. Sato (Ed.), Advances in Neurology. Vol. 54: Magnetoencephalography, New York, Raven Press, 1990, pp. 119-131.
  25. Baumgartner, C., Sutherling, W. W., Di, S. and Barth, D. S. Multiple source modeling of the human epileptic spike complex in the magnetoencephalogram. Advances in Biomagnetism, New York, Plenum Press, 1990, pp. 299-302.
  26. Di, S., Baumgartner, C. & Barth, D.S. Laminar analysis of extracellular field potentials in rat vibrissa/barrel cortex. J. Neurophysiol., 1990, 63: 832-846.
  27. Baumgartner, C., Barth, D.S. and Sutherling, W. W. Spatiotemporal modeling of somatosensory evoked magnetic fields. Advances in Biomagnetism, New York, Plenum Press, 1990, pp. 161-164.
  28. Barth, D.S. & Di, S. Three dimensional analysis of auditory evoked potentials in rat neocortex. J. Neurophysiol., 1990, 64:1527-1536.
  29. Sutherling, W. W., Baumgartner, C., Darcey, T. M. and Barth, D. S. Comparison of dynamic spatiotemporal field structures of dorsolateral fronto-central seizures and hand sensorimotor cortex. Advances in Biomagnetism, New York, Plenum Press, 1990, pp. 291-294.
  30. Barth, D.S. & Di, S. Electrophysiological basis of epileptiform magnetic fields in neocortex. Brain Research, 1990, 530: 35-39.
  31. Di, S., Baumgartner, C., Sutherling, W. W. and Barth, D. S. In vivo neuromagnetic study of normal and pathological intracellular current in rat cortex. In S.J. Williamson et al. (eds.) Advances in Biomagnetism, New York, Plenum Press, 1990, pp. 339-342.
  32. Sutherling WW, Barth DS. Magnetoencephalography in clinical epilepsy studies. The UCLA experience. Adv. Neurol ., 1990;54:231-245.
  33. Barth D.S., Sutherling W.W. Neuromagnetic studies of evoked and spontaneous activity in animals. Adv. Neurol ., 1990;54:119-131.
  34. Baumgartner, C., Barth, D.S., Levesque, M.F. & Sutherling, W.W. Functional anatomy of human hand sensorimotor cortex from spatiotemporal analysis of electrocorticography. Electroenceph. Clin. Neurophys., 1991, 78: 56-65.
  35. Barth, D.S. & Di, S. Laminar excitability cycles in neocortex.J. Neurophysiol., 1991, 65: 891-898.
  36. Di, S. & Barth, D.S. Topographic analysis of field potentials in rat vibrissa/barrel cortex. Brain Research, 1991, 546:106-113.
  37. Baumgartner, C., Doppelbauer, A., Deecke, L., Barth, D.S., Zeitlhofer, J., Lindinger, G. & Sutherling, W.W. Neuromagnetic investigation of somatotopy of human hand somatosensory cortex. Exp. Brain Res., 1991, 87: 641-648.
  38. Baumgartner, C., Sutherling, W.W. & Barth, D.S. Spatiotemporal modeling of cerebral evoked magnetic fields to median nerve stimulation. Electroenceph. Clin. Neurophys., 1991, 79: 27-35.
  39. Barth, D.S. & Di, S. The electrophysiological basis of epileptiform magnetic fields in neocortex: Spontaneous ictal phenomena. Brain Research, 1991, 557: 95-102.
  40. Sutherling, W.W., Levesque, M.F., Crandall, P.H. & Barth, D.S. A complete physical description of the dynamic electric currents of human partial epilepsy and essential cortex using MEG, EEG, chronic ECoG grid recordings, and direct cortical stimulations. Epilepsy Surgery, Raven Press Ltd., New York, 1991, pp. 429-450.
  41. Sutherling, W.W., Levesque, M.F., Crandall, P.H. & Barth, D.S. Localization of partial epilepsy using magnetic and electric measurements. Epilepsia, 1991, 32 Suppl 5:S29-S40.
  42. Barth, D.S. & Di, S. The functional anatomy of middle latency auditory evoked potentials in rat neocortex. Brain Research, 1991, 565: 109-115.
  43. Barth, D.S. Empirical comparison of the MEG and EEG: Animal models of the direct cortical response and epileptiform activity in neocortex. Brain Topography, 1991, 4: 85-93.
  44. Sutherling, W.W., Crandall, P., Levesque, M., Darcey, T. & Barth, D.S. Physical description of frontal lobe seizures - The dipole approximation and sensorimotor cortex. Frontal Lobe Seizures and Epilepsies, 1992, 57: 339-347.
  45. Baumgartner, C., Barth, D.S., Levesque, M.F. & Sutherling, W.W. Human hand and lip sensorimotor cortex as studied on electrocorticography. Electroenceph. Clin. Neurophys., 1992, 84: 115-126.
  46. Di, S. & Barth, D.S. The functional anatomy of middle latency auditory evoked potentials: Thalamocortical connections. J. Neurophysiol., 1992, 68:425-431.
  47. Barth, D.S. & Di. S. Topographical analysis of epileptiform potentials in rat somatosensory cortex: The interictal to ictal transition. Brain Research, 1992, 591: 33-43.
  48. Barth, D.S. The neurophysiological basis of epileptiform magnetic fields and localization of neocortical sources. J. Clin. Neurophysiol., 1993, 10: 99-107.
  49. Barth, D.S. Magnetoencephalography. In E. Wyllie (ed.) The Treatment of Epilepsy: Principles and Practice. Part Two: Basic Principles of Electroencephalography, Lea & Febiger, 1993, pp. 285-297.
  50. Barth, D.S., Kithas, J. & Di, S. The anatomical organization of evoked potentials in rat parietal cortex: Somatosensory and auditory responses. J. Neurophysiol., 1993, 69: 1837-1849.
  51. Di, S. & Barth, D.S. Binaural vs. monaural auditory evoked potentials in rat neocortex. Brain Research, 1993, 630: 303-314.
  52. Di, S., Brett, B. & Barth, D.S. Polysensory evoked potentials in rat parietotemporal cortex: Auditory and somatosensory responses. Brain Research, 1994, 642: 267-280.
  53. Barth, D.S. Kithas, J. & Di, S. The anatomical organization of evoked potentials in rat parietal cortex: Electrically evoked commissural responses. J Neurophysiol., 1994, 72:139-149.
  54. Brett, B., Di, S., Watkins, L. & Barth, D.S. An HRP study of parallel thalamocortical projections responsible for the generation of mid-latency auditory evoked potentials. Brain Research, 1994, 647: 65-75.
  55. Nakasato, N., Levesque, M.F., Barth, D.S., Baumgartner, C., Rogers, R.L. & Sutherling, W.W. Comparisons of MEG, EEG, and ECoG source localization in neocortical partial epilepsy in humans. Electroenceph. clin. Neurophysiol., 1994, 91:171-178.
  56. Barth, D.S., Goldberg, N., Brett, B. & Di, S. The spatiotemporal organization of auditory, visual, and polysensory evoked potentials in rat cortex. Brain Research, 1995, 678:177-180.
  57. Gharib, S., Sutherling, W.W., Nakasato, N., Barth, D.S., Baumgartner, C., Alexopoulos, N, Taylor, S. & Rogers, R.L. MEG and ECoG localization accuracy test. Electroenceph. clin. Neurophysiol., 1995, 94:109-114.
  58. Franowicz, M.N. & Barth, D.S. A comparison of evoked potentials and high frequency (gamma-band) oscillating potentials in rat auditory cortex. J. Neurophysiol., 1995, 74:96-112.
  59. MacDonald, K.D. & Barth, D.S. High frequency (gamma-band) oscillating potentials in rat somatosensory and auditory cortex. Brain Research, 1995, 694:1-12.
  60. Brett, B. & Barth, D.S. The effects of subcortical lesions on evoked potentials and spontaneous high frequency (gamma-band) oscillating potentials in rat auditory cortex. Brain Research, 1996, 721:155-166.
  61. MacDonald, K.D., Brett, B. & Barth, D.S. Inter- and intra-hemispheric spatiotemporal organization of spontaneous electrocortical oscillations. J. Neurophysiol., 1996, 76:423-437.
  62. Barth, D.S. & MacDonald, K.D. Thalamic modulation of high-frequency oscillating potentials in auditory cortex. Nature, 1996, 383:78-81.
  63. Jones, M.S. & Barth, D.S. Sensory-evoked high frequency (gamma-band) oscillating potentials in somatosensory cortex of the unanesthetized rat. Brain Research, 1997, 768:167-176.
  64. Brett, B. & Barth, D.S. Subcortical modulation of high frequency (gamma-band) oscillating potentials in auditory cortex. J. Neurophysiol., 1997, 78:573-581.
  65. MacDonald, K.D., Fifkova, E., Jones, M.S. & Barth, D.S. Focal stimulation of the thalamic reticular nucleus induces focal gamma waves in cortex. J. Neurophysiol., 1998, 79:474-477.
  66. Sukov, W. & Barth, D.S. Three dimensional analysis of spontaneous and thalamically evoked gamma oscillations in auditory cortex. J. Neurophysiol., 1998, 79: 2875-2884.
  67. Jones, M.S. & Barth, D.S. The spatiotemporal organization of fast (>200 Hz) electrical oscillations in rat vibrissa/barrel cortex. J. Neurophysiol., 1999, 82:1599-1609.
  68. Jones, M.S., MacDonald, K.D., Choi, B.J. Dudek, F.E. & Barth, D.S. Intracellular correlates of fast (>200 Hz) electrical oscillations in rat somatosensory cortex. J. Neurophysiol., 2000, 84:1505-1518.
  69. Sukov, W. & Barth, D.S. Cellular mechanisms of thalamically evoked gamma oscillations in auditory cortex. J. Neurophysiol., 2001, 85:1235-1245.
  70. Kim, W-Y., Fritzsch, B., Serls, A., Bakel, L.A., Huang, E.J., Reichardt, L.F., Barth, D.S. and Lee, J.E. NeuroD-null mice are deaf due to a severe loss of the inner ear sensory neurons during development. Development, 2001, 128:417-426.
  71. Jones, M.S. and Barth, D.S. Effects of bicuculline methiodide on fast (>200 Hz) electrical oscillations in rat somatosensory cortex, J. Neurophysiol., 2002, 88:1016-1025.
  72. Brett-Green, B., Fifkova, E., Larue, D., Winer, J. and Barth, D.S. A multimodal zone in rat parieto-temporal cortex: intra- and extracellular physiology and thalamocortical connections. J. Comp. Neurol., 2003, 460:223-237.
  73. Staba, R.J., Brett-Green, B., Paulsen, M. and Barth, D.S. Effects of ventrobasal lesion and cortical cooling on fast oscillations (>200Hz) in rat somatosensory cortex. J. Neurophysiol., 2003, 89:2380-2388.
  74. Barth, D.S. Sub-millisecond synchronization of fast electrical oscillations in neocortex. J. Neurosci., 2003, 23:2502-2510.
  75. Brett-Green, B., Paulsen, M., Staba, R.J., Fifková, E. and Barth, D.S. Two Distinct Regions of Secondary Somatosensory Cortex in the Rat: Topographical Organization and Multisensory Responses. J. Neurophysiol, 2004, 91:1327-1336.
  76. Staba, R.J., Bergmann, P. and Barth, D.S. Dissociation of slow waves and fast oscillations above 200 Hz during GABA application in somatosensory cortex. J. Physiol., 2004, 561.1:205-214.
  77. Brett-Green, B. and Barth, D.S. Multisensory evoked potentials in rat cortex. In G. Calvert, C. Spence and B. Stein (eds.), Handbook of Multisensory Integration, Boston, MIT Press, 2004, pp. 357-370.
  78. Staba, R.J., Ard, T., Benison, A. and Barth, D.S. Intracortical pathways mediate nonlinear fast oscillation (>200 Hz) interactions within rat barrel cortex. J. Neurophysiol., 2005, 93:2934-2939.
  79. Menzel, R.R. and Barth, D.S. Multisensory and secondary somatosensory cortex in the rat. Cerebral Cortex, 2005, 15:1676-1689.
  80. Benison, A.M, Ard, T.D., Crosby, A.M. and Barth, D.S. Temporal patterns of field potentials in vibrissa/barrel cortex reveal stimulus orientation and shape. J. Neurophysiol., 2006, 95:2242-2251.
  81. Rodgers, K.M., Benison, A.M. and Barth, D.S. Two dimensional coincidence detection in the vibrissa/barrel field. J. Neurophysiol., 2006, 96:1981-1990.
  82. Benison, A.M., Rector, D.M. and Barth, D.S. Hemispheric mapping of secondary somatosensory cortex in the rat. J. Neurophysiol., 2007, 97:200-7.
  83. Rodgers, K.M., Benison, A.M., Klein, A. and Barth, D.S. Auditory, somatosensory, and multisensory insular cortex of the rat. Cerebral Cortex, 2008, 18(12): 2941-2951.
  84. Christianson, J.P., Benison, A.M., Jennings, J., Sandsmark, E.K., Amat, J., Kaufman, R.D., Baratta, M.V., Paul., E.D., Campeau, S., Watkins, L.R., Barth D.S., & Maier, S.F. The sensory insular cortex mediates the stress-buffering effects of safety signals but not behavioral control. J. Neurosci., 2008, 28(50):13703-13711.
  85. Rodgers, K.M., Hutchinson, M.R., Northcutt, A., Maier, S.F., Watkins, L.R. and Barth, D.S. The cortical innate immune response increases local neuronal excitability leading to seizures. Brain, 2009, 132:2478-86.
  86. Benison, A.M., Chumachenko, S., Harrison, J.A., Maier, S.F., Falci, S.P., Watkins, L.R. and Barth, D.S. Caudal granular insular cortex is sufficient and necessary for the long-term maintenance of allodynic behavior in the rat due to mononeuropathy. J. Neurosci., 2011, 31:6317-28.
  87. Christianson, J.P., Jennings, J.H., Ragole, T., Flyer, J.G.N., Benison, A.M., Barth, D.S., Watkins, L.R., and Maier, S.F. Safety signals mitigate the consequences of uncontrollable stress via a circuit involving the sensory insular cortex and bed nucleus of the stria terminalis. Biol. Psychiatry, 2011, 70: 458-464.
  88. Rodgers, K.M., Bercum, F.M., McCallum, D.L., Rudy, J.W., Frey, L.C., Johnson, K.W., Watkins, L.R. and Barth, D.S. Acute neuroimmune modulation attenuates the development of anxiety-like freezing behavior in an animal model of traumatic brain injury. J. Neurotrauma, 2012, 29:1886-1897.
  89. Rodgers, K.M., Deming, Y.K., Bercum, F.M., Chumachenko, S.Y., Wieseler, J.L., Johnson, K.W., Watkins, L.R. and Barth, D.S. Reversal of established traumatic brain injury-induced, anxiety-like behavior in rats after delayed, post-injury neuroimmune suppression. J. Neurotrauma. 2014 Mar 1;31(5):487–97.
  90. Grace P.M., Ramos, K.M., Rodgers K.M., Wang X., Hutchinson M.R., Lewis M.T., Morgan K.N., Kroll J.L., Taylor F.R., Strand K.A., Zhang Y., Berkelhammer D., Huey M.G., Greene L.I., Cochran T.A., Yin H., Barth D.S., Johnson K.W., Rice K., Maier S.F., Watkins L.R. Activation of adult rat CNS endothelial cells by opioid-induced toll-like receptor 4 (TLR4) signaling induces proinflammatory, biochemical, morphological, and behavioral sequelae. Neuroscience, 2014, 7:280-299.
  91. Alem, O., Benison, A.M., Barth, D.S., Kitching, J. and Knappe, S. Magnetoencephalography of epilepsy with a microfabricated atomic magnetrode. J. Neurosci. 2014, 34(43):14324-14327.
  92. Rodgers, K.M., Dudek, F.E. and Barth, D.S. Progressive, seizure-like, spike-wave discharges are common in both injured and uninjured Sprague-Dawley rats: Implications for the fluid percussion injury model of post-traumatic epilepsy. J. Neurosci. 2015, 35(24):9194-9204.
    1. Bercum, F.M, Rodgers, K.M., Benison, A.M., Smith, Z.Z., Taylor, J., Kornreich, E., Grabenstatter, H.L., Dudek, F.E. and Barth, D.S. Maternal stress combined with terbutaline leads to comorbid autistic-like behavior and epilepsy in a rat model. .J. Neurosci. 2015, 35(48): 15894-15902.
    2. Taylor, J.A., Rodgers, K.M., Bercum, F.M, Booth, C.J., Dudek, F.E. and Barth, D.S. Voluntary Control of Epileptiform Spike–Wave Discharges in Awake Rats. J. Neurosci. 2017, 37(24): 5861-5869.
    3. Smith, Z.Z., Benison, A.M., Bercum, F.M., Dudek, F.E. and Barth, D.S. Progression of convulsive and nonconvulsive seizures during epileptogenesis after pilocarpine-induced status epilepticus. J. Neurophysiol. 2018, 119(5): 1818-1835.