..CR_regulatory_systems

The effects of low-frequency environmental-strength electromagnetic fields on brain electrical activity: a critical review of the literature.
S. Carrubba & A.A. Marino. Electromagn. Biol. Med. 27:83–101, 2008. [PDF]

Magnetosensory evoked potentials: consistent nonlinear phenomena.
S. Carrubba, C. Frilot, A.L. Chesson, Jr., C.L. Webber, Jr., J.P. Zbilut & A.A. MARINO. Neurosci. Res. 60: 95–105, 2008. [PDF]

Evidence of a nonlinear human magnetic sense.
S. Carrubba & A.A. MARINO. Presentation. 28th Annual Meeting, Bioelectromagnetics Society. Cancun, Mexico, June 11–15, 2006. [PDF]

Effect of low-frequency magnetic fields on brain electrical activity in human subjects.
A.A. MARINO, E. Nilsen, A.L. Chesson Jr., & C. Frilot. Clin. Neurophysiol. 115: 1195–1201, 2004. [PDF]

Localization of electroreceptive function in rabbits.
A.A. MARINO, E. Nilsen & C. Frilot. Phys. Behav. 79:803–810, 2003. [PDF]

Nonlinear changes in brain electrical activity due to cell-phone radiation.
A.A. MARINO, E. Nilsen & C. Frilot. Bioelectromagnetics 24: 339–346, 2003. [PDF]

Consistent magnetic-field induced dynamical changes in rabbit brain activity detected by recurrence quantification analysis.
A.A. MARINO, E. Nilsen & C. Frilot. Brain Res. 951:301–310, 2002. [PDF]

Chaos and fractals in medicine and biology.
A.A. MARINO. Presentation. Temple Univ., Center for Frontier Science. Philadelphia, PA, March 2000. [PDF]

Electromagnetic fields are transduced like other stimuli.
A.A. MARINO. Presentation. XXXIII International Congress of Physiological Sciences. St. Petersburg, Russia, July 1997. [PDF]

Bone injury response: an animal model for testing theories of regulation.
P.S. Landry, A.A. MARINO, K.K. Sadasivan & J.A. Albright. Clin. Orthop. Relat. Res. 332: 260–273, 1996. [PDF]

Low-level EMFs are transduced like other stimuli.
A.A. MARINO, G.B. Bell & A. Chesson. J. Neurolog. Sci. 144: 99–106, 1996. [PDF]

Different outcomes in biological experiments involving weak EMFs: Is chaos a possible explanation?
A.A. MARINO. Am. J. Physiol. 268 (Regulatory Integrative Comp. Physiol. 37: R1013–R1018, 1995. [PDF]

Frequency-specific responses in the human brain caused by electromagnetic fields.
G.B. Bell, A.A. MARINO & A.L. Chesson. J. Neurol. Sci. 123: 26–32, 1994. [PDF]

Frequency-specific blocking in the human brain caused by electromagnetic fields.
G.B. Bell, A.A. MARINO & Andrew L. Chesson. NeuroReport 5: 510–512, 1994. [PDF]

Alterations in brain electrical activity caused by magnetic fields: detecting the detection process.
G.B. Bell, A.A. MARINO & A.L. Chesson. Electroencephalog. Clin. Neurophysiol. 83: 389–397, 1992. [PDF]

Electrical states in the rabbit brain can be altered by light and electromagnetic fields.
G. Bell, A.A. MARINO, A. Chesson & F. Struve. Brain Res. 570: 307–315, 1992. [PDF]

Development of a diagnostic test for sensitivity to electromagnetic fields based on quantitative analysis of brain waves.
A.A. MARINO, G.B. Bell & A. Chesson. In Proc. 9thAnnual Intl. Symposium: Man and His Environment in Health and Disease. p. 35, Dallas, TX, 1991. [PDF]

Human sensitivity to weak magnetic fields.
G. Bell, A.A. MARINO, A. Chesson & F. Struve. Lancet 338: 1521–1522, 1991. [PDF]

Electromagnetically induced alterations in the EEG: detecting the detection process.
A.A. MARINO & G.B. Bell. J. Bioelectricity 9: 239, 1990. [PDF]

Bioelectric mechanism: parsimony and priority.
A.A. MARINO. Presentation. Gordon Conference on Bioelectrochemistry. Plymouth, NH, August 1988. [PDF]

Health risks from electric power facilities.
A.A. MARINO. Abstract. International Utility Symposium: Health Effects of Electric and Magnetic Fields. Ontario Hydro, Toronto, 1986. [PDF]

Chapter 9: Mechanisms of Biological Effects of Electromagnetic Energy.
A.A. MARINO. In Electromagnetism & Life. R.O. Becker & A.A. MARINO, eds., State University of New York Press, Albany, pp. 159–171, 1982. [PDF]

Chapter 8: Effects of Electromagnetic Energy on Biological Functions.
A.A. MARINO. In Electromagnetism & Life. R.O. Becker & A.A. MARINO, eds., State University of New York Press, Albany, pp. 134–158, 1982. [PDF]

Chapter 7: Effects of Electromagnetic Energy on the Cardiovascular and Hematological Systems.
A.A. MARINO. In Electromagnetism & Life. R.O. Becker & A.A. MARINO, eds., State University of New York Press, Albany, pp. 122–133, 1982. [PDF]

Chapter 6: Effects of Electromagnetic Energy on the Endocrine System.
A.A. MARINO. In Electromagnetism & Life. R.O. Becker & A.A. MARINO, eds., State University of New York Press, Albany, pp. 112–121, 1982. [PDF]

Chapter 5: Effects of Electromagnetic Energy on the Nervous System.
A.A. MARINO. In Electromagnetism & Life. R.O. Becker & A.A. MARINO, eds., State University of New York Press, Albany, pp. 96–111, 1982. [PDF]

Sensitivity to change in electrical environment: a new bioelectric effect.
A.A. MARINO, J.M. Cullen, M. Reichmanis, R.O. Becker & F.X. Hart. Am. J. Physiol. 239 (Regulatory Integrative Comp. Physiol. 8): R424–427, 1980. [PDF]

Evaluation of electrochemical information transfer system. I. Effect of electric fields on living organisms.
A.A. MARINO, T.J. Berger, B.P. Austin, R.O. Becker & F.X. Hart. J. Electrochem. Soc. 123: 1199–1200, 1976. [PDF]

Electric field effects in selected biologic systems.
A.A. MARINO, T.J. Berger, J.T. Mitchell, B.A. Duhacek & R.O. Becker. Conference on Electrically Mediated Growth Mechanisms. NY Academy of Sciences, September 1973. Ann. N.Y. Acad. Sci. 238: 436–444, 1974. [PDF]