Transient and steady-state magnetic fields induce increased fluorodeoxyglucose uptake in the rat hindbrain.
C. Frilot II, S. Carrubba & A.A. MARINO. Synapse 65: 617–623, 2011. [PDF]
Magnetosensory function in rats: localization using positron emission tomography.
C. Frilot II, S. Carrubba & A.A. MARINO. Synapse 63:421–428, 2009. [PDF]
Glycoproteins bound to ion channels mediate detection of electric fields: a proposed mechanism and supporting evidence.
O.V. Kolomytkin, S. Dunn, F.X. Hart, C. Frilot, D. Kolomytkin & A.A. MARINO. Bioelectromagnetics 28:379–385, 2007. [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]
Nonlinear determinism in the immune system. In vivo influence of electromagnetic fields on different functions of murine lymphocyte subpopulations.
A.A. MARINO, R.M. Wolcott, R. Chervenak, F. Jourd’heuil, E. Nilsen & C. Frilot II. Immunol. Invest. 30:313–334, 2001. [PDF]
Nonlinear dynamical law governs magnetic field changes in lymphoid phenotype.
A.A. MARINO, R.M. Wolcott, R. Chervenak, F. Jourd’heuil, E. Nilsen & C. Frilot II. Bioelectromagnetics 22:529–546, 2001. [PDF]
Coincident nonlinear changes in the endocrine and immune systems due to low-frequency magnetic fields.
A.A. MARINO, R.M. Wolcott, R. Chervenak, F. Jourd’heuil, E. Nilsen, C. Frilot II & S.B. Pruett. NeuroImmunoModulation 9:65–77, 2001. [PDF]
Nonlinear response of the immune system to power-frequency magnetic fields.
A.A. MARINO, R.M. Wolcott, R. Chervenak, F. Jourd’heuil, E. Nilsen & C. Frilot II. Am. J. Physiol. Regulatory Integrative Comp. Physiol. 279:R761–R768, 2000. [PDF]
Electromagnetic fields can affect osteogenesis by increasing the rate of differentiation.
P.S. Landry, K.K. Sadasivan, A.A. MARINO & J.A. Albright. Clin. Orthop. Relat. Res., 338: 262–270, 1997. [PDF]
Electromagnetic fields enhance chemically-induced hyperploidy in mammalian oocytes.
J.B. Mailhes, D. Young, A.A. MARINO & S.N. London. Mutagenesis, 12: 347–351, 1997. [PDF]
Meta-analysis of multi-generational studies in mice exposed to power-frequency electric fields.
A.A. MARINO. J. Bioelectricity 9:213–231, 1990. [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]
Power frequency electric field induces biological changes in successive generations of mice.
A.A. MARINO, M. Reichmanis, R.O. Becker, B. Ullrich & J.M. Cullen. Experientia 36: 309–311, 1980. [PDF]
Fracture healing in rats exposed to extremely low frequency electric fields.
A.A. MARINO, J.M. Cullen, M. Reichmanis & R.O. Becker. Clin. Orthop. Relat. Res. 145: 239–244, 1979. [PDF]
Power frequency electric fields and biological stress: a cause-and-effect relationship.
A.A. MARINO, J.M. Cullen, M. Reichmanis & R.O. Becker, in Biological Effects of Extremely Low Frequency Electromagnetic Fields. Proc. 18th Hanford Life Sciences Symposium, Richland Wash., U.S. Dept. of Energy. DOE Symposium Series 50: 258–276, 1978. [PDF]
In vivo bioelectrochemical changes associated with exposure to ELF electric fields.
A.A. MARINO, T.J. Berger, B.P. Austin, R.O. Becker & F.X.Hart. Physiol. Chem. Phys. 9: 433–441, 1977. [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]
The effect of continuous exposure to low frequency electric fields on three generations of mice: a pilot study.
A.A. MARINO, R.O. Becker & B. Ullrich. Experientia 32: 565, 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]