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) 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.
3) Barth, D.S., Sutherling, W. & Beatty, J. Fast and slow magnetic phenomena in focal epileptic seizures. Science, 1984, 226: 855-857.
4) Castiglioni, A.J. & Barth, D.S. A program for computing power spectra on a microcomputer. J. Neurosci. Methods, 1984, 10:17-21.
5) Barth, D.S., Sutherling, W. & Beatty, J. Intracellular currents of interictal penicillin spikes: Evidence from neuromagnetic mapping. Brain Research, 1986, 368: 36-48.
6) 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.
7) 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.
8) 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.
9) 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.
10) 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.
11) Sutherling, W.W. & Barth, D.S. Neocortical propagation in temporal lobe spike foci on magnetoencephalography and electroencephalography. Ann. Neurol., 1989, 25: 373-381.
12) 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.
13) 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.
14) 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.
15) 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.
16) Di, S., Baumgartner, C. & Barth, D.S. Laminar analysis of extracellular field potentials in rat vibrissa/barrel cortex. J. Neurophysiol., 1990, 63: 832-846.
17) Barth, D.S. & Di, S. Three dimensional analysis of auditory evoked potentials in rat neocortex. J. Neurophysiol., 1990, 64:1527-1536.
18) Barth, D.S. & Di, S. Electrophysiological basis of epileptiform magnetic fields in neocortex. Brain Research, 1990, 530: 35-39.
19) Sutherling W.W., Barth D.S. Magnetoencephalography in clinical epilepsy studies. The UCLA experience. Adv. Neurol ., 1990;54:231-245.
20) Barth D.S., Sutherling W.W. Neuromagnetic studies of evoked and spontaneous activity in animals. Adv. Neurol ., 1990;54:119-131
21) 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.
22) Barth, D.S. & Di, S. Laminar excitability cycles in neocortex.J. Neurophysiol., 1991, 65: 891-898.
23) Di, S. & Barth, D.S. Topographic analysis of field potentials in rat vibrissa/barrel cortex. Brain Research, 1991, 546:106-113.
24) 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.
25) 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.
26) Barth, D.S. & Di, S. The electrophysiological basis of epileptiform magnetic fields in neocortex: Spontaneous ictal phenomena. Brain Research, 1991, 557: 95-102.
27) Barth, D.S. & Di, S. The functional anatomy of middle latency auditory evoked potentials in rat neocortex. Brain Research, 1991, 565: 109-115.
28) 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.
29) 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.
30) 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.
31) 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.
32) Di, S. & Barth, D.S. The functional anatomy of middle latency auditory evoked potentials: Thalamocortical connections. J. Neurophysiol., 1992, 68:425-431.
33) 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.
34) Barth, D.S. The neurophysiological basis of epileptiform magnetic fields and localization of neocortical sources. J. Clin. Neurophysiol., 1993, 10: 99-107.
35) 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.
36) Di, S. & Barth, D.S. Binaural vs. monaural auditory evoked potentials in rat neocortex. Brain Research, 1993, 630: 303-314.
37) Di, S., Brett, B. & Barth, D.S. Polysensory evoked potentials in rat parietotemporal cortex: Auditory and somatosensory responses. Brain Research, 1994, 642: 267-280.
38) 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.
39) 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.
40) 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.
41) Barth, D.S., Goldberg, N., Brett, B. & Di, S. The spatiotemporal organization od auditory, visual, and polysensory evoked potentials in rat cortex. Brain Research, 1995, 678:177-180.
42) 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.
43) 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.
44) MacDonald, K.D. & Barth, D.S. High frequency (gamma-band) oscillating potentials in rat somatosensory and auditory cortex. Brain Research, 1995, 694:1-12.
45) 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.
46) MacDonald, K.D., Brett, B. & Barth, D.S. Inter- and intra-hemispheric spatiotemporal organization of spontaneous electrocortical oscillations. J. Neurophysiol., 1996, 76:423-437.
47) Barth, D.S. & MacDonald, K.D. Thalamic modulation of high-frequency oscillating potentials in auditory cortex. Nature, 1996, 383:78-81.
48) 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.
49) Brett, B. & Barth, D.S. Subcortical modulation of high frequency (gamma-band) oscillating potentials in auditory cortex. J. Neurophysiol., 1997, 78:573-581.
50) 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., 1997, 79:474-477.
51) Sukov, W. & Barth, D.S. Three dimensional analysis of spontaneous and thalamically evoked gamma oscillations in auditory cortex. J. Neurophysiol., 1998, 79(6):2875-2884 .
52) Jones, M.S. & Barth, D.S. The spatiotemporal organization of fast (>200 Hz) electrical oscillations in rat vibrissa/barrel cortex. J. Neurophysiol. , 1999, 82(3):1599-1609.
53) 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.
54) Kim, W.Y., Fritzsch, B., Serls, A., Bakel, L.A,. Huang, E.J., Reichardt, L.F., Barth, D.S. & Lee, J.E. NeuroD-null mice are deaf due to a severe loss of the inner ear sensory neurons during development. Development. 2001;128(3):417-426.
55) Sukov, W. & Barth, D.S. Cellular mechanisms of thalamically evoked gamma oscillations in auditory cortex. J. Neurophysiol., 2001, 85:1235-1245.
56) Jones, M.S. & Barth, D.S. Effects of bicuculline methiodide on fast (>200 Hz) electrical oscillations in rat somatosensory cortex. J. Neurophysiol.,2002,88:1016-1025.
57) 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..
58) Barth, D.S. Sub-millisecond synchronization of fast electrical oscillations in neocortex. J. Neurosci., 2003, 23:2502-2510.
59) 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, 460:223-37.
60) 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.
61) Brett-Green, B. & 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.
62) 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.
63) Menzel, R.R. and Barth, D.S. Multisensory and secondary somatosensory cortex in the rat. Cereb. Cortex, 2005, 15:1676-1689.
64) 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.
65) 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.
66) 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.
67) 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.
68) Rodgers, K.M., Benison, A.M., Klein, A. and Barth, D.S. Auditory, somatosensory, and multisensory insular cortex of the rat. Cerebral Cortex, 2008, doi: 10.1093/cercor/bhn054