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 enhance chemically-induced hyperploidy in mammalian oocytes.
J.B. Mailhes, D. Young, A.A. MARINO & S.N. London. Mutagenesis, 12: 347–351, 1997. [PDF]

Electrochemical modification of tumor growth in mice.
D.M. Morris, A.A. MARINO & E. Gonzalez. J. Surg. Res. 53:306–309, 1992. [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]

Effect of electrostatic fields on the chromosomes of Ehrlich ascites tumor cells exposed in vivo.
J.T. Mitchell, A.A. MARINO, T.J. Berger & R.O. Becker. Physiol. Chem. Phys. 10: 79–85, 1978. [PDF]