GlicksohnJMyslobodskyMS. The representation of patterns of structural brain asymmetry in normal individuals. Neuropsychologia1993; 31(2): 145–159.
2.
RiddleDRPurvesD. Individual variation and lateral asymmetry of the rat primary somatosensory cortex. J Neurosci1995; 15(6): 4184–4195.
3.
WhiteLEAndrewsTJHuletteC. Structure of the human sensorimotor system. II: Lateral symmetry. Cerebral Cortex1997; 7: 31–47.
4.
KulynychJJVladarKFantieBDJonesDWWeinbergerDR. Normal asymmetry of the planum temporale in patients with schizophrenia. Three-dimensional cortical morphometry with MRI. Br J Psychiatry1995; 166: 742–749.
5.
McGrannJShawGLShenoyKVLengXMathewsRB. Computation by symmetry operations in a structured model of the brain: Recognition of rotational invariance and time reversal. Phys Rev E1994; 49: 5830–5839.
6.
ErdemMOzturkY. A new family of multivalued networks. Neural Networks1996; 9: 679–689.
7.
PateraJShawGLSlanskyRLengX. Model of adaptive temporal development of structured finite systems. Phys Rev A1989; 40: 1073–1087.
8.
ShawGLSilvermanDJPearsonJC. Model of cortical organization embodying a basis for a theory of information processing and memory recall. Proc Nat Acad Sci1985; 82: 2364–2368.
9.
ShenoyKVKaufmanJMcGrannJVShawGL. Learning by selection in the trion model of cortical organization. Cerebral Cortex1993; 3: 239–248.
10.
BodnerMChenJShawGLTachikiKH. Symmetry in higher brain function: Theory and experiment. Soc Neurosci1997; 23: 775. Abstract.
11.
BodnerMZhouY-DShawGLFusterJM. Symmetric temporal patterns in cortical spike trains during performance of a short-term memory task. Neurol Res1997; 19: 509–514.
12.
ShawGLBodnerM. Music enhances spatial-temporal reasoning: Towards a neurophysiological basis using EEG. Clin Electroencephalogr1999; 30: 151–155.
13.
MountcastleVB. An organizing principle for cerebral function: The unit module and the distributed system. In: EdelmanGMMountcastleVB (eds). The Mindful Brain. Cambridge: MIT Press; 1978: 1–50.
14.
DuffyFHHughesJRMirandaFBernadPCookP. Status of quantitative EEG (QEEG) in clinical practice. Clin Electroencephalogr1994; 25: 6–22.
15.
RauscherFHShawGLKyKN. Music and spatial task performance. Nature1993; 365: 611.
16.
SartheinJvon SteinARappelsbergerPPetscheHRauscherFHShawGL. Persistent patterns of brain activity: An EEG coherence study of the positive effect of music on spatial-temporal reasoning. Neurol Res1997; 19: 107–116.
17.
LengXMcGrannJVShawGL. Reversal of epileptic state by patterned electrical stimulation suggested by trion model calculations. Neurol Res1992; 14: 57–61.
