Glass, H.G., Snyder, F.F. and Webster, E.: The rate of decline in resistance to anoxia of rabbits, dogs and guinea pigs from onset of viability to adult life. Amer. J. Physiol.140: 609, 1944.
2.
Rosen, M.G.: Effects of asphyxia on the fetal brain. Obstet. Gynec. 29: 687, 1967.
3.
Ellingson, R.J.: Studies of the electrical activity of the developing human brain. In The Developing Brain, Himwich, W. and Himwich, H., eds. Progress in Brain Research, vol. 9. Amsterdam, Elsevier, 1964, pp. 26-53.
4.
Weitzman, E.D. , Fishbein, W. and Graziani, L.: Auditory evoked responses obtained from the scalp electroencephalogram of the full-term human neonate during sleep. Pediatrics35: 458, 1965.
5.
Engel, R. and Butler, B.V.: Appraisal of conceptual age of newborns by electroencephalographic methods . J. Pediat.63: 386, 1963.
6.
Engel, R.: Electroencephalographic responses to sound and to light in premature and full term neonates. J. Lancet87: 181, 1967.
7.
Akiyama, Y., Schute, F.J., Schultz, M.A. and Parmelee, A.H.: Acoustically evoked responses in premature and full term newborn infants. Electroenceph. Clin. Neurophysiol.26: 371, 1969.
8.
Hughes, J.G. , Ehemann, B. and Brown, U.A.: Electroencephalography of the newborn; III. brain potentials of babies born of mothers given "Seconal Sodium." Amer. J. Dis. Child.76: 626, 1948.
9.
Bergström, R.M. , Bergström, L., Putkonen, P. and Sainio, K.: The effects of thalidomide on the electrical activity of the brain in the intrauterine guinea pig foetus. Med. Exp.11: 119, 1968.
10.
—, Sainio, K. and Taalas, J.: The effect of alcohol on the electrocorticogram of the intrauterine guinea pig foetus. In Scandinavian EEG Society, Eighth Meeting. Electroenceph. Clin. Neurophysiol.19: 614, 1965.
11.
—, Stenberg, D., Jokinen, Y. and Järvi, K.: The effect of anesthetics on the electrocardiogram of the intrauterine guinea pig foetus. Med. Pharmacol. Exp.15: 79, 1966.
12.
Rosen, M.G. and McLaughlin, A.: Fetal and ma ternal electroencephalography in the guinea pig. Exp. Neurol.16: 181, 1966a.
13.
— and —: Maternal and fetal electroencephalography in the guinea pig. Amer. J. Obstet. Gynec.95: 997, 1966b.
14.
Bleyer, W.A. and Rosen, M.G.: Meperidine-induced changes in the maternal and fetal electroencephalograms of the guinea pig. Electroenceph. Clin. Neurophysiol.24: 249, 1968.
15.
Satran, R. and Rosen, M.G.: Effect of meperidine administered during labor on the neonatal EEG. Ibid.21: 404, 1966.
16.
Rosen, M.G. and Scibetta, J.J.: The human fetal electroencephalogram; I. an electrode for continuous recording during labor. Amer. J. Obstet. Gynec.104: 1057, 1969.
17.
— and —: The human fetal electroencephalogram ; II. characterizing the EEG during labor. Presented at the Pan American Health Organization Meeting in Washington, D. C., in June, 1969 (In press).
18.
Lindsley, D.B. : Heart and brain potentials of human fetuses in utero. Amer. J. Psychol.55: 412, 1942.
19.
Dreyfus-Brisac, C.: The bioelectric development of the central nervous system during early life. In Human Development, Falkner, F., ed. Part IV. Philadelphia , Saunders, 1966, pp. 286-305.
20.
Engel, R.: Abnormal EEG's in the newborn period and their significance. Amer. J. Ment. Defic.69: 341, 1964.
21.
Gellis, S.: Crossing the birth barrier. Hospital Practice Oct. 1966, p. 28.
22.
Windle, W.F. : Brain damage at birth. JAMA206: 1967, 1968.
