Journal
Articles:
* If you are unable to
view any of the following papers, please email your request for reprint to xiaoqin.wang @ jhu.edu or click [Reprint request]
2008:
Bendor, D. and X. Wang. Neural
response properties of core fields AI, R, and RT in the auditory cortex of
marmoset monkeys. J Neurophysiol. (in press, 2008).
Wang, X., T. Lu, D. Bendor and E.L. Bartlett. Neural coding of temporal information in auditory thalamus and
cortex. Neuroscience 154: 294-303 (2008)
Eliades, S.J. and X. Wang. “Neural substrates of vocalization feedback monitoring
in primate auditory cortex”. Nature 453: 1102-1106 (2008). [PDF]
Eliades, S.J. and X.
Wang. Chronic multi-electrode neural recording in free-roaming monkeys. J Neurosci
Methods. 172(2):201-214 (2008). ). [PDF]
Sadagopan, S. and X. Wang. “Level
Invariant Representation of Sounds by Populations of Neurons in Primary
Auditory Cortex”. J. Neurosci. 28:3415-3426 (2008). [PDF]
2006-2007:
Wang, X.. “A sharper view from the top”. Nat Neurosci,
10:1509-1511 (2007). [PDF]
Bendor, D.A. and X. Wang. “Differential neural coding of acoustic flutter within primate auditory cortex”. Nature Neuroscience 10:763-771 (2007). [PDF with supplementary information]
Wang, X. “Neural coding strategies in auditory
cortex”. Hearing Research 229:81-93 (2007) [PDF]
Zhang J, Evans A, Hermoye L, Lee SK, Wakana S, Zhang W, Donohue P,
Miller MI, Huang H, Wang X, van Zijl PC, Mori
S. “Evidence of slow maturation of the superior longitudinal fasciculus in early childhood by diffusion tensor imaging”.
Neuroimage. 38(2):239-247 (2007)
[PDF]
Pistorio, A.L., B. Vintch, and X. Wang.
“Acoustical analysis
of vocal development in a
Bendor, D.A. and X. Wang. “Cortical
representations of pitch in monkeys and humans”. Curr Opin Neurobiol. 16: 391-399 (2006) [PDF]
Pistorio,
A.L., S.H. Hendry, X. Wang. “A modified technique for high-resolution
staining of myelin”. Journal of Neuroscience Methods 153: 135-146 (2006) [PDF]
DiMattina, C. and X. Wang. “Virtual
vocalization stimuli for investigating neural representations of
species-specific vocalizations”. Journal
of Neurophysiology 95:1244-1262 (2006). [PDF]
Miller, C. T. and X. Wang. “Sensory-motor interactions
modulate a primate vocal behavior: antiphonal calling in common
marmosets”. Journal of Comparative Neurobiology A. 192:27-38 (2006). [PDF]
2000-2005:
Bendor, D.A. and X.
Wang. “The neuronal representation of pitch in primate auditory
cortex”. Nature
436:1161-1165 (2005). [PDF with supplementary
information] [News & Views]
Wang, X., T. Lu, R.K. Snider and L. Liang. “Sustained firing in auditory cortex evoked by
preferred stimuli”. Nature 435:341-346 (2005). [PDF] [News & Views]
Bartlett, L. and X. Wang. “Long-lasting modulation by
stimulus context in primate auditory cortex”. Journal of Neurophysiology 94:83-104
(2005). [PDF]
Eliades, S.J. and X. Wang. “Dynamics
of auditory-vocal interaction in monkey auditory cortex”. Cereb.
Cortex 15:1510-1523 (2005).
[PDF]
Mohseni, P., K. Najafi,
S.J. Eliades and X. Wang, “Wireless multichannel biopotential
recording using an integrated FM telemetry circuit”. IEEE Trans. Neural Systems and Rehabilitation
Engineering 13: 263-271 (2005). [PDF]
Wang, X. “The unexpected
consequences of a noisy environment”. Trends
Neurosci. 27:364-366 (2004). [PDF]
Lu,
T. and X. Wang. “Information content of auditory
cortical responses to time-varying acoustic stimuli”.
Journal of Neurophysiology 91:301-313 (2004). [PDF]
Barbour,
D.L. and X. Wang. “Auditory cortical responses elicited in
awake primates by random spectrum
stimuli”. Journal of Neuroscience
23: 7194-7206 (2003). [PDF]
Barbour,
D.L. and X. Wang. “Contrast tuning in auditory
cortex”. Science 299:1073-1075 (2003). [PDF] [News & Views]
Eliades, S.J. and X. Wang.
“Sensory-motor interaction in the primate auditory cortex during self-Initiated vocalizations”. Journal of Neurophysiology
89:2194-2207 (2003). [PDF]
Wang,
X., Lu T, and Liang L. “Cortical processing of temporal modulations”. Speech Communication 41:107-121, (2003). [PDF]
Beitel, R.E., C.E.
Schreiner, S.W. Cheung, X. Wang, and M.M. Merzenich. “Reward-dependent plasticity
in the primary auditory cortex of adult monkeys trained to discriminate
temporally modulated signals”. Proc.
Natl. Acad. Sci. USA 100:11070-11075 (2003). [PDF]
Barbour,
D.L. and X. Wang. “Temporal coherence
sensitivity in auditory cortex”. Journal
of Neurophysiology 88:2684-2699
(2002). [PDF]
Liang, L., T. Lu and X.
Wang. “Neural representations of sinusoidal amplitude
and frequency modulations in the primary auditory cortex of awake
primates”. Journal of
Neurophysiology 87:2237-2261 (2002).
[PDF]
Lu,
T., L. Liang and X. Wang. “Temporal and rate representations of time-varying signals in
the auditory cortex of awake primates”. Nature
Neuroscience 4:1131-1138 (2001). [PDF] [News & Views]
Wang,
X. and S.C. Kadia. “Differential representation of species-specific primate
vocalizations in the auditory cortices of marmoset and cat”. Journal of Neurophysiology 86:2616-2620 (2001). [PDF] [News & Views]
Lu,
T., L. Liang and X. Wang. “Neural representation of temporally asymmetric stimuli in
the auditory cortex of awake primates”. Journal of Neurophysiology
85:2364-2380 (2001). [PDF]
Cheung,
S.W., S.S. Nagarajan, P.H. Bedenbaugh,
C.E. Schreiner, X. Wang, A. Wong. “Auditory cortical neuron response
differences under isoflurane versus pentobarbital
anesthesia”. Hearing
Research 156:115-127 (2001). [PDF]
Wang,
X. “On cortical coding of vocal communication sounds in primates”. Proc. Natl. Acad. Sci. USA
97:11843-11849 (2000). [PDF]
Lu,
T. and X. Wang. “Temporal discharge
patterns evoked by rapid sequences of wide- and narrow-band clicks in the
primary auditory cortex of cat”. Journal of Neurophysiology
84:236-246 (2000). [PDF]
Prior to 2000:
Nagarajan,
S.S., Wang, X., Merzenich, M.M., Schreiner, C.E.,
Johnston, P., Jenkins, W., Miller, S. and Tallal, P.
“Speech modifications algorithms used for training language-learning
impaired children”. IEEE Trans.
Rehabilitation Engineering 6:257-268 (1998). [PDF]
Spengler, F.,
T.P.L. Roberts, D. Poeppel, N. Byl,
X. Wang, H.A. Rowley, M.M. Merzenich. “Learning
transfer and neuronal plasticity in humans trained in tactile discrimination”.
Neuroscience Letters 232:151-154
(1997). [PDF]
Tallal, P.,
S.L. Miller, G. Bedi, G. Byma,
X. Wang, S.S. Nagarajan, C.E. Schreiner, W.M. Jenkins
and M.M. Merzenich. “Language comprehension in
language-learning impaired children iImproved with
acoustically modified speech”. Science 271:81-84
(1996). [PDF]
Wang,
X., M.M. Merzenich, K. Sameshima
and W.M. Jenkins. “Remodeling of hand
representation in adult cortex determined by timing of tactile
stimulation”. Nature 378:71-75
(1995). [PDF]
Wang,
X., M.M. Merzenich, R. Beitel
and C.E. Schreiner. “Representation of a
species-specific vocalization in the primary auditory cortex of the common
marmoset: temporal and spectral characteristics”. Journal of Neurophysiology 74:2685-2706 (1995). [PDF]
Wang,
X. and M.B. Sachs. “Transformation of temporal discharge
patterns in a VCN stellate cell model: Implications
for physiological mechanisms”. Journal of
Neurophysiology 73:1600-1616 (1995). [PDF]
Wang,
X. and M.B. Sachs. “Neural encoding of
single-formant stimuli in the cat II. Responses of anteroventral cochlear nucleus units”. Journal of Neurophysiology 71:59-78 (1994).
[PDF]
Merzenich, M.M., C.E.
Schreiner, W.M. Jenkins and X. Wang. “Neural mechanisms
underlying temporal integration, segregation, and input sequence
representation: Some implications for the origin of learning
disabilities”. Annals of the
Wang,
X. and M.B. Sachs. “Neural encoding of
single-formant stimuli in the cat I. Response of auditory nerve fibers”.
Journal of Neurophysiology 70:1054-1075
(1993). [PDF]
Wang,
X. and M.B. Sachs. “Coding of envelope
modulation in the auditory nerve and anteroventral
cochlear nucleus”. Phil.
Trans. Royal Soc. Lond. [B] 336: 399-402 (1992). [PDF]
Koral, K., X.Q. Wang, W.L.
Book
Chapters:
Eliades, S.J. and X.
Wang. Dynamics of vocalization-induced sensory-motor interactions in the
primate auditory cortex. In: Auditory Cortex: Towards a synthesis of
human and animal research. Ed. by P. Heil
et al.,
Eliades, S.J. and X.
Wang. The role of auditory-vocal interaction in hearing. In: Auditory
signal processing: physiology, psychoacoustics, and models Ed. by Pressnitzer, D., de Cheveigné, A.,
McAdams, S., and Collet, Springer,
Barbour, D. and X. Wang. AM and FM
coherence sensitivity in the auditory cortex as a potential neural mechanism.
In: Auditory signal processing: physiology, psychoacoustics, and models
Ed. by Pressnitzer, D., de Cheveigné,
A., McAdams, S., and Collet, Springer,
Wang,
X.,
Wang,
X, T. Lu and L. Liang. “Temporal processing in the primate auditory cortex”.
In: Physiological and Psychophysical Bases of Auditory Function, Ed. Houtsma AJM, Kohlraush A, Prijs VF and Schoonhoven R.
Maastricht: Shaker Publishing BV, p.352-357 (2001). [PDF]
Wang,
X. “What is the neural code of species-specific communication sounds in
the auditory cortex?” In: Psychophysical and Physiological Advances in
Hearing. Ed. A.R. Palmer et al., Whurr Publishers
Ltd.,
Merzenich, M.M., X. Wang, C. Xerri and R. Nudo. “Functional plasticity of cortical representations of the
hand”. In: Somesthesis and the
Neurobiology of the Somatosensory Cortex. Ed. by O. Franzén et al., Birkhäuser Verlag AB,
Sachs,
M.B., X. Wang and S.C. Molitor. “Cross-correlation analysis and phase-locking in a model of
the ventral cochlear nucleus stellate cell”.
In: The Mammalian Cochlear Nuclei: Organization and Function. Ed. by M.A.Merchan et al., Plenum Press,
Sachs, M.B., C.C. Blackburn, M.I.
Banks and X. Wang.
“Processing of the auditory-nerve code for speech by
populations of cells in the anteroventral cochlear
nucleus”. In: The Auditory Processing of Speech: From Sounds to
Words. Ed. by M.E.H. Schouten,
Mouton De Gruyter Publishers,