Evidence for a Primitive DC Electrical Analog System Controlling Brain Function

Robert O. Becker


Modern neurophysiology views the problem of integration of brain function as the result of massive interconnectivity of the neurons and almost all research in this area is based upon this concept. In the first article of this series I outlined some of the theoretical problems with this view. In this article I shall review the evidence gathered over the past 50 years indicating that a separate operational system exists, based upon extra-neuronal DC electrical currents, that serves this integrating function.

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H. Berger, Uber das elektrenkephalogramm des menschun, Archives o/Psychiatry 87 (1929), p.

G. H. Bishop, The Interpretation of Cortical Potentials, Cold Spring Harbor Symposia on

Quantitative Biology IV (1936), pp. 205-319.

R. W. Gerard & B. Libet, The Control of Normal and "Convulsive" Brain Potentials,

American Journal o/Psychiatry 96 (1940), pp. 1125-1154.

B. Libet & R. W. Gerard, Steady Potential Fields and Neurone Activity, Journal 0/

Neurophysiology 4 (1941), pp. 438-455.

A. A. P. Leao, Journal 0/Neurophysiology 7 (1944), p. 359.

A. A. P. Leao,fournalo/Neurophysiology 10 (1947), p. 409.

S. Goldring, G. Ulett, J. L. O'leary, & A. Greditzer, Initial Survey of Slow Potential Changes obtained Under Resting Conditions and Incident to Convulsive Therapy, EEG & Clinical Neurophysiology 2 (1950), pp. 297-308.

G. H. Bishop & J. L. O'Leary, The Effect of Polarizing Currents on Cell Potentials and Their Significance in the Interpretation of Central Nervous System Activity, EEG & Clininical Neurophysiology 2 (1950), pp. 401-416.

S. Goldring & J. L. O'Leary, Experimentally Derived Correlates Between ECG and Steady

Cortical Potentials, EEG & Clinical Neurophysiology 2 (1950), pp. 275-288.

H. Kaspers, The cortical DC potential and its relationship with the EEG, EEG & Clinical Neurophysiology 13 (1961), p. 651.

J. L. O'leary & S. Goldring, Changes Associated with Forebrain Excitation Processes: D. C. Potentials of the Cerebral Cortex, In Handbook o/Physiology, Section /, Volume I Neurophysiology, a. Field., H. W. Magoun & V. E. Hall, Eds., American Physiological Society, Washington, DC, 1959).

A. M. Siniukhin, Nature of the Variation of the Bioelectric Potentials in the Regeneration Process of Plants, Biophysics 2 (Russia) (1957), pp. 53-69.

R. O. Becker, The Bioelectric Factors in Amphibian Limb Regeneration, Journal o/Bone & Joint Surgery43A (I 961), pp. 643-656.

M. Singer, The Influence of the Nerve in the Regeneration of the Amphibian Extremity, Quarterly Review o/Biology 27 (1952), pp.l69-200.

E. O. Becker, The Bioelectric Field Pattern in the Salamander and its Simulation by an Electronic Analog, IRE Trans. MedicalElectronics ME-7 (1960), pp.202-208.

R. O. Becker, Search For Evidence ofAxial Current Flow in the Peripheral Nerves of the Salamander, Science 134 (1961), pp. 101-102.

R. O. Becker, The Direct Current Field: A Primitive Control and Communication System Related to Growth Processes, Proceedings XVI International Congress o/Zoology Volume 3 Specialized Symposia (1963), pp. 179-183.

R. O. Becker, The Neural Semiconduction Control System and its Interaction with Applied Electrical Currents and Magnetic Fields, Exerpta Medica International Congress Series # 105, XI International Congress o/Radiology (Exerpta Medica Foundation, Rome, 1965), pp. 17531759.

C. H. Bachman, R. O. Becker, & H. Friedman, The Graded Boundry Carbon -Saline Electrode, Perceptual & Motor Skills 19 (1964) pp. 67-73.

R. O. Becker, The Geomagnetic Environment and its Relationship to Human Biology, New York StateJournal o/Medicine63 (1963), pp. 2215-2219.

l. H. Friedman, RO. Becker, & c. H. Bachman, Direct Current Potentials in Hypnoanalgesia, Archives ofGeneral Psychiatry 7 (1962), pp. 193-197.

M. Reichmanis, A. A. Marino, & R O. Becker, Electrical Correlates of Acupuncture Points, IEEE Trans. Biomedical Engineering 22 (1975), pp. 533-535.

R O. Becker, M. Reichmanis, A. A. Marino, &J. A. Spadaro, Electrophysiological Correlates of Acupuncture Points and Meridians, Psychoenergetic Systems 1 (1976), pp. 105-112.

C. A. L. Bassett, R J. Pawluk,& R O. Becker, Effects of Electric Currents on Bone in vivo, Science 204 (1964), pp. 652-654.

R O. Becker, & D. G. Murray, The Electrical Control System Regulating Fracture Healing in amphibians, Clinical Orthopedic & Rei Research 73 (1970), pp. 169-197.

R. O. Becker, Stimulation of Partial Limb Regeneration in Rats, Nature 235 (1972), pp.l 09111.

R O. Becker, Electrical Control Systems and Regenerative Growth,fournalofBioelectricity 1 (1982), pp.267-277.

R O. Becker, Electromagnetic Controls Over Biological Growth Processes, Journal of Bioelectricity 3 (1984), pp. 105-118.

R O. Becker & C. Esper, Electrostimulation and Undetected Malignant Tumors, Clinical Orthopedic&Rel Research 161 (1981), pp. 336-339.

R O. Becker, The Machine Brain and Properties of the Mind, Subtle Energies, I, 2 (1990), pp. 79-87.

R Galambos,The Glia-Neuronal Interaction: Some Observations, Journal ofPsychiatry Research 8 (1971), pp. 219-224.

A. H. Cornell-Bell, S. M. Finkbeiner, M. S. Cooper, & S. J. Smith, Glutamate Induces Calcium Waves in Cultured Astrocytes: Long Range Glial Signalling, Science, 247 (1990), pp. 470-473.

M. Madden, The Role ofSchwann Cells in Paradoxical Regeneration in the Axolotl, Journal of Embryo, Experimental Morphology 41 (1977), pp. 1-13.

E. D. Hay, The Fine Structure of the Nerves in the Epidermis of Regenerating Salamander Limbs, Experimental Cell Research 19 (1960), pp.299-317, 1960.

J. M. Cullen & R O. Becker, Neuro-Epidermal Juxtaposition and its Effect on Limb Regeneration, In Mechanisms ofGrowth Control (RO. Becker, Ed., C. C. Thomas, Springfield, Il, 1981), pp. 479-485.

W. Hild, J. J. Chang, & I. Tasaki, Electrical Responses ofAstrocyte Glia Cells from the Mammalian Central Nervous System Cultivated in vitro, Experientia 14 (1958) pp. 220-221.

S. Kuffler & D. D. Potter, Glia in the Leech Central Nervous System, Journal of Neurophysiology 27 (1964), pp. 290-309.

M. J. Dennis, & R Miledi, Electrically Induced Release of Acetylcholine from Denervated Schwann Cells, Journal ofPhysiology 237 (1974), pp. 431-452.


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