10.Platel, H., C. Price, J. C. Baron,et al. (1997) The structural components of music perception.
Brain120, 299–43.
11.Liegeois-Chauvel, C., I. Peretz, M. Babai,et al. (1998) Contribution of different cortical areas in
the temporal lobes to music processing.Brain121, 1853–67.
12.Pantev, C., R. Oostenveld, A. Engelien,et al. (1998) Increased auditory cortical representation in
musicians.Nature392, 811–14.
13.Blood, A. J., R. J. Zatorre, P. Bermudes,et al. (1999) Emotional responses to pleasant and
unpleasant music correlate with activity in paralimbic brain regions.Nat. Neurosci.2, 382–7.
14.Wallin, N. L., B. Merker, and S. Brown(eds) (1999) The Origins of Music. Cambridge, MA: MIT
Press.
15.Sergent, J., E. Zuck, S. Terriah,et al. (1992) Distributed neural network underlying musical sight-
reading and keyboard performance.Sci.257, 106–9.
16.Besson, M.and F. Faita(1995) An Event Related Potential (ERP) study of musical expectancy:
comparison of musicians with non-musicians.J. Exp. Psychol.: Human Percept. Perform. 21,
1278 – 96.
17.Patel, A. D.and I. Peretz(1997) Is music autonomous from language? A neuropsychological
appraisal. In I. Deliege and J. Sloboda (eds) Perception and Cognition of Music. Wichita, KS:
Psychology Press.
18.Besson, M., F. Faita, I. Peretz,et al. (1998) Singing in the brain: independence of lyrics and tunes.
Psychol. Sci.9, 494–8.
19.Patel, A. D., E. Gibson, J. Ratner,et al. (1998) Processing syntactic relations in language and
music: an event-related potential study.J. Cognit. Neurosci.10, 717–33.
20.Patel, A. D., I. Peretz, M. Tramo,et al. (1998) Processing prosodic and musical patterns: a neu-
ropsychological investigation.Brain Lang. 61, 123–44.
21.Parsons, L. M., P. T. Fox, J. S. Sergent,et al. Neural systems underlying musical piano perform-
ance from memory. Submitted.
22.Fox, P. T., M. A. Mintun, M. E. Raichle,et al. (1984) A noninvasive approach to quantitative func-
tional brain mapping with H 215 O tissue activity.J. Nucl. Med. 30, 141–9.
23.Talairach, J.and P. Tournoux(1988) Co-planar Stereotaxic Atlas of the Human Brain. New York:
Thieme Medical Publishers.
24.Fox, P. T., M. A. Mintun, E. M. Reiman,et al. (1988) Enhanced detection of focal brain responses
using inter-subject averaging and change-distribution analysis of subtracted PET images.
J. Cereb. Blood Flow Metab.8, 642–53.
25.Woods,R.P.,S.R.Cherry,and J. R. Mazziotta(1992) Rapid automatic algorithm for aligning
and reslicing PET images.J. Comp. Assist. Tomogr.17, 536–46.
26.Woods, R. P., J. C. Mazziotta, and S. R. Cherry. (1993) MRI-PET registration with automated
algorithm.J. Comput. Assisted Tomogr.17, 536–46.
27.Lancaster, J. L., T. G. Glass, B. R. Lankiplli,et al. (1995) A modality-independent approach to
spatial normalization of tomographic images of the human brain.Hum. Brain Map.3,209–23.
28.Fox, P. T.and M. A. Mintun(1989) Noninvasive brain mapping by change-distribution analysis
of averaged PET images of H 215 O tissue activity.J. Nucl. Med.30, 141–9.
29.Xiong J., J. H. Gao, J. L. Lancaster,et al. (1996) Clustered pixels analysis for functional MRI
activation studies of the human brain.Hum. Brain Map.3, 287–301.
30.Lancaster, J. L., M. G. Woldorff, L. M. Parsons,et al. (2000) Automatic Talairach labels for func-
tional brain mapping.Hum. Brain Map. 10, 120–31.
265