Trigeminal neurons detect cellphone radiation: thermal or nonthermal is not the question.
A.A. MARINO, P.Y. Kim & C. Frilot II. Electromagn. Biol. Med. 36:123–131, 2016. [PDF]
Analysis of brain recurrence.
C. Frilot II, P.Y. Kim, S. Carrubba, D.E. McCarty, A.L. Chesson Jr. & A.A. MARINO. In Recurrence Quantification Analysis, Understanding Complex Systems. C.L. Webber Jr. & N. Marwan, eds. Springer International Publishing, 2014. [PDF]
Electromagnetic hypersensitivity syndrome revisited again.
A.A. MARINO. Int. J. Neurosci. 123:593–594, 2013. [PDF]
Response to letter to the Editor concerning “Electromagnetic hypersensitivity: evidence for a novel neurological syndrome.”
A.A. MARINO, S. Carrubba & D.E. McCarty. Int. J. Neurosci. 122:402–403, 2012. [PDF].
Electromagnetic hypersensitivity: evidence for a novel neurological syndrome.
D.E. McCarty, S. Carrubba, A.L. Chesson, Jr., C. Frilot II, E. Gonzalez-Toledo & A.A. MARINO. Int. J. Neurosci. 121:670–676, 2011. [PDF]. (Introduction, an MP3 audio file).
Simulated MR magnetic field induces steady-state changes in brain dynamics: implications for interpretation of functional MR studies.
A.A. MARINO, S. Carrubba, C. Frilot II, A.L. Chesson Jr. & E. Gonzalez-Toledo. Magn. Reson. Med. 64: 349–357, 2010. [PDF]
Multiple sclerosis impairs ability to detect abrupt appearance of a subliminal stimulus.
S. Carrubba, A. Minagar, E. Gonzalez Toledo, A.L. Chesson, C. Frilot II & A.A. MARINO. Neurolog. Res. 32: 297–302, 2010. [PDF]
Mobile-phone pulse triggers evoked potentials.
S. Carrubba, C. Frilot II, A.L. Chesson Jr. & A.A. MARINO. Neurosci. Lett. 469: 164–168, 2010. [PDF]
The electric field is a sufficient physical determinant of the human magnetic sense.
S. Carrubba, C. Frilot, II, F.X. Hart, A.L. Chesson, Jr. & A.A. MARINO. Int. J. Radiat. Biol. 85: 622–632, 2009. [PDF]
Evidence that transduction of electromagnetic field is mediated by a force receptor.
A.A. MARINO, S. Carrubba, C. Frilot & A.L. Chesson, Jr. Neurosci. Lett. 452: 119–123, 2009. [PDF]
Magnetosensory function in rats: localization using positron emission tomography.
C. Frilot II, S. Carrubba & A.A. MARINO. Synapse 63:421–428, 2009. [PDF]
Method for detection of changes in the EEG induced by the presence of sensory stimuli.
S. Carrubba, C. Frilot, A.L. Chesson, Jr. & A.A. MARINO. J. Neurosci. Meth. 173: 41–46, 2008. [PDF]
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]
Nonlinear EEG activation evoked by low-strength low-frequency magnetic fields.
S. Carrubba, C. Frilot, A.L. Chesson & A.A. MARINO. Neurosci. Lett. 417: 212–216, 2007. [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]
Evidence of a nonlinear human magnetic sense.
S. Carrubba, C. Frilot II, A.L. Chesson Jr. & A.A. MARINO. Neuroscience 144: 356–367, 2007. [PDF]
Detection of nonlinear event-related potentials.
S. Carrubba, C. Frilot, A. Chesson & A.A. MARINO. J. Neurosci. Meth. 157: 39–47, 2006. [PDF]
Possible mechanism for detection of weak low-frequency electric fields.
O.V. Kolomytkin, F.X. Hart, S. Dunn, D. Kolomytkin & A.A. MARINO. Presentation. 28th Annual Meeting, Bioelectromagnetics Society. Cancun, Mexico, June 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]
Extracellular currents alter gap junction intercellular communication in synovial fibroblasts.
A.A. MARINO, O.V. Kolomytkin & C. Frilot. Bioelectromagnetics 24: 199–205, 2003. [PDF]
Comment on “Proposed test for detection of nonlinear responses in biological preparations exposed to RF energy.”
A.A. MARINO & C. Frilot. Bioelectromagnetics 24: 70–72, 2003. [PDF]
Action potentials from neuroblastoma cells in weak magnetic fields.
H. Sonnier, O. Kolomytkin & A. MARINO. Neurosci. Lett. 337: 163–166, 2003. [PDF]
Nonlinearity in biological systems: How can physics help?
A.A. MARINO & C. Frilot. In Energy and Information Transfer in Biological Systems. F. Musumeci, L.S. Brizhik, and M.-W. Ho, eds. World Scientific Press, pp. 245–263, 2002. [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]
Nonlinearity in biological systems: how can physics help?
A.A. MARINO. Presentation. International Workshop on Energy and Information Transfer in Biological Systems. Catania, Italy, 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]
Sensory transduction as a proposed model for biological detection of electromagnetic fields.
H. Sonnier & A.A. MARINO. Electro- and Magnetobiology 20:153–175, 2001. [PDF]
Assessing health risks of cell towers.
A.A. MARINO. In Cell Towers: Wireless Convenience? or Environmental Hazard? B. Blake Levitt, ed. Square One Publishers, pp. 87–103, 2001. [PDF]
In the eye of the beholder: the role of style of thought in the determination of health risks from electromagnetic fields.
A.A. MARINO. Frontier Perspectives 9: 22–27, 2000. [PDF]
Assessing health risks of EMFs from cell towers.
A.A. MARINO. Presentation. Cell Towers Forum: State of the Science, State of the Law. Litchfield, CT, December 2000. [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]
Low-frequency electromagnetic fields alter the replication cycle of MS2 bacteriophage.
J. Staczek, A.A. MARINO, L.B. Gilleland, A. Pizarro & H.E. Gilleland, Jr. Curr. Microbiol. 36: 298–301, 1998. [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]
Comments on “Short exposures to 60 Hz magnetic fields do not alter MYC expression in HL60 or Daudi cells” by Saffer and Thurston. (Radiat. Res. 144: 18–25, 1995).
A. A. MARINO. Radiat. Res. 145: 513–515, 1996. [PDF]
The EMF bioeffects debate results from a paradigmatic shift.
A.A. MARINO. Abstract. 18th Annual Meeting, Bioelectromagnetics Society. Victoria, B.C., Canada, June 1996. [PDF]
EMF bioeffects debate results from a paradigmatic shift.
A.A. MARINO. Presentation. 18thAnnual Meeting, Bioelectromagnetics Society. Victoria, B.C., Canada, June 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]
Electromagnetic fields in the classroom.
A.A. MARINO, in The Healthy School Handbook. N. Miller, ed., NEA Professional Library, Washington, DC, pp. 221–241, 1995. [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]
Electrical potential measurements in human breast cancer and benign lesions.
A.A. MARINO, D.M. Morris, M.A. Schwalke, I.G. Iliev & S. Rogers. Tumor Biol. 15: 147–152, 1994. [PDF]
Association between cell membrane potential and breast cancer.
A.A. MARINO, I.G. Iliev, M.A. Schwalke, E. Gonzalez, K.C. Marler & C.A. Flanagan. Tumor Biol. 15: 82–89, 1994. [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]
Electromagnetic fields, cancer, and the theory of neuroendocrine-related promotion.
A.A. MARINO. Bioelectrochem. Bioenerg. 29: 255–276, 1993. [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]
Human sensitivity to weak magnetic fields.
G. Bell, A.A. MARINO, A. Chesson & F. Struve. Lancet 338: 1521–1522, 1991. [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]
Partizanist discrimination in California favors electric power companies (Editorial).
A.A. MARINO. J. Bioelectricity 9(2): v–vii, 1990. [PDF]
Bioelectricity.
A.A. MARINO. Collier’s Encyclopedia, 1991. [PDF]
Beauty and a beast (Editorial).
A.A. MARINO. J. Bioelectricity 9(1): v–vi, 1990. [PDF]
Exposure system for production of uniform magnetic fields.
G.B. Bell & A.A. MARINO. J. Bioelectricity 8: 147–158, 1989. [PDF]
Trust me, I’m a doctor (Editorial).
A.A. MARINO. J. Bioelectricity 8(2): v–vi, 1989. [PDF]
Natural bioelectricity and effects of applied electromagnetic energy.
A.A. MARINO. Fields and Living Systems Workgroup Meeting. Temple University Center for Frontier Sciences, Philadelphia, PA, 1989. [PDF]
Negative studies and common sense (Editorial).
A.A. MARINO. J. Bioelectricity 8(1): v–vii, 1989. [PDF]
Quasi-static charge interactions in bone.
A.A. MARINO, J. Rosson, E. Gonzalez, L. Jones, S. Rogers & E. Fukada. J. Electrostatics 21: 347–360, 1988. [PDF]
Environmental electromagnetic energy and public health.
A.A. MARINO. In Foundations of Modern Bioelectricity, A.A. Marino, ed., Marcel Dekker, New York, pp. 965–1044, 1988. [PDF]
Direct current and bone growth.
A.A. MARINO. In Foundations of Modern Bioelectricity, A.A. Marino, ed., Marcel Dekker, New York, pp. 657–709, 1988. [PDF]
Are power lines hazardous to health?
A.A. MARINO. Public Power 45:1820, 1987. [PDF]
Silver-nylon cloth: In vitro and in vivo evaluation of antimicrobial activity.
E.A. Deitch, A.A. MARINO, V. Malakanok & J.A. Albright. J. Trauma 27: 301–304, 1987. [PDF]
Slow healing fractures: can they be prevented?
G. Fontanesi, G.C. Traina, F. Giancecchi, I. Tartaglia, R. Rotini, B. Virgili, R. Cadossi, G. Ceccherelli & A.A. MARINO. Ital. J. Orthop. Traumatol. 12(3):371–385, 1986. [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]
Electrical treatment of Lewis lung carcinoma in mice.
A.A. MARINO, D.M. Morris & T. Arnold. J. Surg. Res. 41: 198–201, 1986. [PDF]
Penetration of electric fields into a concentric-sphere model of biological tissue.
F.X. Hart & A.A. MARINO. Med. Biol. Eng. Comput. 24: 105–108, 1986. [PDF]
Chronic electromagnetic stressors in the environment: a risk factor in human cancer.
A.A. MARINO & D.M. Morris. J. Environ. Sci. C3(2): 189–219, 1985. [PDF]
Electromagnetic energy in the environment and human disease.
A.A. MARINO. Clin. Ecol. 3(3): 154–157, 1985. [PDF]
Electromagnetic fields and public health.
A.A. MARINO, in Assessments and Viewpoints on the Biological and Human Health Effects of Extremely Low Frequency Electromagnetic Fields, American Institute of Biological Sciences, Arlington, VA, pp. 205–232, 1985. [PDF]
We need a science court (Editorial).
A.A. MARINO. J. Bioelectricity 4(1): vii–viii, 1985. [PDF]
Electric silver antisepsis.
A.A. MARINO, E.A. Deitch & J.A. Albright. IEEE Trans. Biomed. Eng. BME-32: 336–337, 1985. [PDF]
Electrochemical properties of silver-nylon fabrics.
A.A. MARINO, V. Malakanok, E.A. Deitch, J.A. Albright & R.D. Specian. J. Electrochem. Soc. 132: 68–72, 1985. [PDF]
Public health aspects of the energy flux of high-voltage powerlines.
F.X. Hart & A.A. MARINO. Innov. Tech. Bio. Med. (French) 5: 636–640, 1984. [PDF]
Health aspects of environmental electromagnetism.
A.A. MARINO. Abstract. 2nd Annual International Symposium: Man and His Environment. Wadley Institutes, Dallas, TX, 1984. [PDF]
Where is the EPA’s sense of decency? (Editorial)
A.A. MARINO. J. Bioelectricity 3(12): 1–2, 1984. [PDF]
Electrical augmentation of the antimicrobial activity of silver-nylon fabrics.
A.A. MARINO, E.A. Deitch & J.A. Albright. J. Biol. Phys. 12: 93–98, 1984. [PDF]
Electrical stimulation in orthopaedics: past, present and future.
A.A. MARINO. J. Bioelectricity 3: 235–244, 1984. [PDF]
Weak electrical fields affect plant development.
A.A. MARINO, F.X. Hart & M. Reichmanis. IEEE Trans. Biomed. Eng. BME 30: 833–834, 1983. [PDF]
Silver nylon: a new antimicrobial agent.
E.A. Deitch, A.A. MARINO, T.E. Gillespie & J.A. Albright. Antimicrob. Agents Chemother. 23: 356–359, 1983. [PDF]
Bioelectric considerations in the design of high-voltage power lines.
M. Reichmanis & A.A. MARINO. J. Bioelectricity 1: 329–338, 1982. [PDF]
Bioelectric considerations in the design of high-voltage power lines.
M. Reichmanis & A.A. MARINO. J. Bioelectricity 1: 329–338, 1982. [PDF]
The electrical environment produced at bone fracture sites by inductive coupling.
F.X. Hart & A.A. MARINO. Abstract. In Transactions of the 2nd Annual Meeting of the Bioelectrical Repair and Growth Society 2: 70, 1982.
ELF dosage in ellipsoidal models of man due to high-voltage transmission lines.
F.X. Hart & A.A. MARINO. J. Bioelectricity 1: 129–154, 1982. [PDF]
The foundations of bioelectricity (Editorial).
A.A. MARINO. J. Bioelectricity 1: iii, 1982. [PDF]
Electret-induced bone formation in rats.
A.A. MARINO, J. Cullen, R.O. Becker & E. Fukada. In IEEE 1981: Frontiers of Engineering in Health Care, B.A. Cohen, ed., pp. 220–222, 1981. [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]
Piezoelectricity in collagen films.
A.A. MARINO, J.A. Spadaro, E. Fukada, L.D. Kahn & R.O. Becker. Calcif. Tissue Int. 31: 257–259, 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]
Systemic effects of electromagnetic energy.
A.A. MARINO. Workshop on Electrically Induced Osteochondrogenesis. American Academy of Orthopaedic Surgeons & NIAMDD, Atlanta, Georgia, 1979. [PDF]
Microenvironmental Changes Due to Electromagnetic Energy.
A.A. MARINO. Workshop on Electrically Induced Osteochondrogenesis. American Academy of Orthopaedic Surgeons & NIAMDD, Atlanta, Georgia, 1979. [PDF]
Kirlian photography: potential for use in diagnosis.
A.A. MARINO, R.O. Becker & B. Ullrich. Psychoenerg. Syst. 3: 47–54, 1979. [PDF]
Space osteoporosis: an electromagnetic hypothesis.
A.A. MARINO, R.O. Becker, F.X. Hart & F. Anders, Jr. Aviat. Space Environ. Med. 50: 409–410, 1979. [PDF]
Laplace plane analysis of impedance on the H meridian.
M. Reichmanis, A.A. MARINO & R.O. Becker. Am. J. Chin. Med. 7(2): 188–193, 1979. [PDF]
Laplace plane analysis of skin impedance: a preliminary investigation.
M. Reichmanis, A.A. MARINO & R.O. Becker. J. Electrochem. Soc. 125: 1765–1768, 1978. [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]
High voltage lines: hazard at a distance.
A.A. MARINO & R.O. Becker. Environment 20: 6–15, 1978. [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]
Hazard at a distance: effects of exposure to the electric and magnetic fields of high voltage transmission lines.
A.A. MARINO & R.O. Becker. Med. Res. Eng. 12: 6–9, 1978. [PDF]
Electromagnetic pollution.
R.O. Becker & A.A. MARINO. The Sciences, January, 1978, pp. 14, 15, 23. [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]
Biological effects of extremely low frequency electric and magnetic fields: a review.
A.A. MARINO & R.O. Becker. Physiol. Chem. Phys. 9: 131–147, 1977. [PDF]
Energy flux along high voltage transmission lines.
F.X. Hart & A.A. MARINO. IEEE Trans. Biomed. Eng. BME-24: 493–495, 1977. [PDF]
Laplace plane analysis of transient impedance between acupuncture points Li-4 and Li-12.
M. Reichmanis, A.A. MARINO & R.O. Becker. IEEE Trans. Biomed. Eng. BME-24: 402–405, 1977. [PDF]
Clinical experiences with low intensity direct current stimulation of bone growth.
R.O. Becker, J.A. Spadaro & A.A. MARINO. Clin. Orthop. Relat. Res. 124: 75–83, 1977. [PDF]
Electrical osteogenesis: an analysis.
A.A.MARINO & R.O. Becker. Clin. Orthop. Rel. Res. 123: 280–282, 1977. [PDF]
Laplace plane analysis of impedance between acupuncture points H-3 and H-4.
M. Reichmanis, A.A. MARINO & R.O. Becker. Comp. Med. East & West 5: 189–195, 1977. [PDF]
Biophysics of animal response to an electrostatic field.
F.X. Hart & A.A. MARINO. J. Biol. Phys. 4: 123–143, 1976. [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]
Photoconductivity in bone and tendon.
R.G. Fuller, A.A. MARINO & R.O. Becker. Biophys. J. 16: 845–846, 1976. [PDF]
Electrophysiological correlates of acupuncture points and meridians.
R.O. Becker, M. Reichmanis, A.A. MARINO & J.A. Spadaro. Psychoenerg. Syst. 1: 105–112, 1976. [PDF]
DC skin conductance variation at acupuncture loci.
M. Reichmanis, A.A. MARINO & R.O. Becker. Am. J. Chin. Med. 4: 69–72, 1976. [PDF]
Electrical correlates of acupuncture points.
M. Reichmanis, A.A. MARINO & R.O. Becker. IEEE Trans. Biomed. Eng. BME-22: 533–535, 1975. [PDF]
Piezoelectricity in hydrated frozen bone and tendon.
A.A. MARINO & R.O. Becker. Nature 253: 627–628, 1975. [PDF]
Electrostatic field induced changes in mouse serum proteins.
A.A. MARINO, T.J. Berger, R.O. Becker & F.X. Hart. Experientia 30: 1274–1275, 1974. [PDF]
Piezoelectricity in bone as a function of age.
A.A. MARINO & R.O. Becker. Calc. Tiss. Res. 14: 327–331, 1974. [PDF]
Piezoelectricity and autoinduction.
A.A. MARINO & R.O. Becker. Clin. Orthop. Relat. Res. 100: 247–249, 1974. [PDF]
Electrical stimulation of articular cartilage regeneration.
B. Baker, J.A. Spadaro, A.A. MARINO & R.O. Becker. Conference on Electrically Mediated Growth Mechanisms. NY Academy of Sciences, September 1973. Ann. N.Y. Acad. Sci. 238: 491–499, 1974. [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]
Origin of the piezoelectric effect in bone.
A.A. MARINO, S.C. Soderholm & R.O. Becker. Calc. Tiss. Res. 8: 177–180, 1971. [PDF]
Piezoelectric effect and growth control in bone.
A.A. MARINO & R.O. Becker. Nature 228: 473, 1970. [PDF]
Evidence for epitaxy in the formation of collagen and apatite.
A.A. MARINO & R.O. Becker. Nature 226: 652–653, 1970. [PDF]
The effect of electric current on rat tail tendon collagen in solution.
A.A. MARINO & R.O. Becker. Calc. Tiss. Res. 4: 330–338, 1970. [PDF]
Temperature dependence of the electron paramagnetic resonance signal in tendon collagen.
A.A. MARINO & R.O. Becker. Nature 222: 164–165, 1969. [PDF]
Correction concerning electron paramagnetic resonance in human bone mineral.
A.A. MARINO & R.O. Becker. Nature 221(181): 661, 1969. [PDF]
Mechanically induced free radicals in bone.
A.A. MARINO & R.O. Becker. Nature 218: 466–467, 1968. [PDF]
Dielectric and Paramagnetic Resonance Properties of Bone. (Ph.D. Dissertation)
A.A. MARINO. Dissertation number 6907760. Syracuse University. ProQuest 302408678, 1968. [PDF]
Dielectric determination of bound water of bone.
A.A. MARINO, R.O. Becker & C.H. Bachman. Phys. Med. Biol. 12: 367–378, 1967. [PDF]
Evidence for direct physical bonding between the collagen fibers and apatite crystals in bone.
A.A. MARINO & R.O. Becker. Nature 213: 697–698, 1967. [PDF]
The electron paramagnetic resonance spectra of bone and its major components.
R.O. Becker & A.A. MARINO. Nature 210: 583–588, 1966. [PDF]