SINCRONIZACION CEREBRAL POR ESTIMULACION AUDIOVISUAL:

1.^ The Clinical Guide to Light and Sound, Thomas Budzynski, PhD

2.^ Oster, G. (1973). Auditory beats in the brain. Scientific American, X, 94–102.

3.^ Entraining Tones and Binaural Beats, David Siever

4.^ Adrian, E. & Matthews, B. (1934) The Berger rhythm: Potential changes from the occipital lobes in man. Brain, 57, 355-384.

5.^ Amen, D. (1998). Change your brain, change your life. New York: Three Rivers Press.

6.^ Barlow, J. (1960). Rhythmic activity induced by photic stimulation in relation to intrinsic alpha activity of the brain in man.Electroencephalography and Clinical Neurophysiology, 12, 317-326.

7.^ Beardsley, T. (1999, June). Getting wired. Scientific American, 24-25.

8.^ Brownbeck, T. & Mason, L. (1999). Neurotherapy in the treatment of dissociation.

9.^ Chatrian, G., Petersen, M. & Lazarte, J. (1959). Response to clicks from the human brain: Some depth electrographic observations. Electroencephalography and Clinical Neurophysiology, 12, 479-489.

10.^ Donker, D., Njio, L., Storm Van Leewan, W., & Wieneke, G. (1978). Interhemispheric Relationships of Responses to Sine Wave Modulated Light in Normal Subjects and Patients. Encephalography and Clinical Neurophysiology, 44, 479-489.

11.^ Durup, G. & Fessard, A. (1935). L'electroencephalogramme de l'homme (The human electroencephalogram). Annale Psychologie, 36, 1 –

12.^ Fox, P. & Raichle, M. (1985). Stimulus rate determines regional blood flow in striate cortex. Annals of Neurology, 17, (3), 303-305.

13.^ Frederick, J., Lubar, J., Rasey, H., Brim, S., & Blackburn, J. (1999). Effects of 18.5 Hz audiovisual stimulation on EEG amplitude at the vertex. Journal of Neurotherapy, 3 (3), 23-27.

14.^ Glicksohn, J. (1986-87). Photic driving and altered states of consciousness: An exploratory study. Imagination, Cognition and Personality, 6 (2), 1986-87.

15.^ Goldman, G., Segal, J., & Segalis, M. (1938). L'action d'une excitation inermittente sur le rythme de Berger. (The effects of intermittent excitation on the Berger rhythms (EEG rhythms). C.R. Societe de Biologie Paris, 127, 1217-1220.

16.^ Joyce, M. & Siever, D. (2000). Audio-visual entrainment program as a treatment for behavior disorders in a school setting. Journal of Neurotherapy, 4 (2) 9-25.

17.^ Jung, R. (1939). Das Elektroencephalogram und seine klinische Anwendung.(The electroencephalogram and its clinical application). Nervenarzt, 12, 569-591.

18.^ Kinney, J. A., McKay, C., Mensch, A., & Luria, S. (1973). Visual evoked responses elicited by rapid stimulation. Encephalography and Clinical Neurophysiology, 34, 7-13.

19.^ Kroger, W. S. & Schneider, S. A. (1959). An electronic aid for hypnotic induction: A preliminary report. International Journal of Clinical and Experimental Hypnosis, 7, 93-98.

20.^ Lee, K., Schottler, F., Oliver, M., & Lynch, G. (1980). Brief bursts of high-frequency stimulation produce two types of structural change in rat hippocampus. Journal of Neurophysiology, 44 (2), 247-258.

21.^ Leonard, K., Telch, M., & Harrington, P. (1999). Dissociation in the laboratory: A comparison of strategies. Behaviour Research and Therapy, 37, 49-61.

22.^ Leonard, K., Telch, M., & Harrington, P. (2000). Fear response to dissociation challenge. Anxiety, Stress and Coping, 13, 355-369.

23.^ Lewerenz, C. (1963). A factual report on the brain wave synchronizer. Hypnosis Quarterly, 6 (4)

24.^ Manns, A., Miralles, R., & Adrian, H. (1981). The application of audiostimulation and electromyographic biofeedback to bruxism and myofascial pain-dysfunction syndrome. Oral Surgery, 52 (3), 247-252.

25.^ Margolis, B. (1966, June). A technique for rapidly inducing hypnosis. CAL (Certified Akers Laboratories), 21-24.

26.^ Mentis, M., Alexander, G., Grady, C., Krasuski, J., Pietrini, P., Strassburger, T., Hampel, H., Schapiro, M. & Rapoport, S. (1997). Frequency variation of a pattern-flash visual stimulus during PET differentially activates brain from striate through frontal cortex. Neuroimage, 5, 116-128.

27.^ Morosko, T. & Simmons, F., (1966). The effect of audio-analgesia on pain threshold and pain tolerance. Journal of Dental Research, Vol 45, 1608-1617.

28.Russell, H. (1996). Entrainment combined with multimodal rehabilitation of a 43-year-old severely impaired postaneurysm patient. Biofeedback and Self Regulation, 21, 4.

29.^ Siever, D. (2000). The rediscovery of audio-visual entrainment technology. Unpublished manuscript.

30.^ Siever, D. (2002). New technology for attention and learning. Unpublished manuscript.

31.^ Shealy, N., Cady, R., Cox, R., Liss, S., Clossen, W., & Veehoff, D. (1989). A comparison of depths of relaxation produced by various techniques and neurotransmitters produced by brainwave entrainment. Shealy and Forest Institute of Professional Psychology. A study done for Comprehensive Health Care, Unpublished.

32.^ Toman, J. (1941). Flicker potentials and the alpha rhythm in man. Journal of Neurophysiology, 4, 51-61.

33.^ Townsend, R. (1973). A device for generation and presentation of modulated light stimuli. Electroencephalography and Clinical Neurophysiology, 34, 97-99.