Nicht-humane StudienAissa, J., Jurgens, P., Litime, M.H., Behar, I. & Benveniste, J. (1996). Isolierte Organe und Information von Acetylcholin. In Endler, P.C. & Schulte, J. (Hrsg.), Homöopathie – Bioresonanztherapie. Physiologische und physikalische Vorraussetzungen - Grundlagenforschung (S. 163–168). Wien: Maudrich Verlag.
Aissa, J., Jurgens, P., Litime, M.H., Béhar, I. & Benveniste, J. (1995). Electronic transmission of the cholinergic signal. FASEB J, 9(4), A683.
Aissa, J., Litime, M.H., Attias, E. & Benveniste, J. (1993). Molecular signaling at high dilution or by means of electronic circuitry. Journal of Immunology, 150(8), A146.
Benveniste, J., Aissa, J. & Guillonnet, D. (1998). Digital Biology: Specificity of the digitized molecular signal. FASEB J, 12, A412.
Benveniste, J., Aissa, J. & Guillonnet, D. (1999). A simple and fast method for in vivo demonstration of electromagnetic molecular signaling (EMS) via high dilution or computer recording. FASEB J, 13(4), A163-A163.
Benveniste, J., Aissa, J., Litime, M.H., Tsangaris, G.T. & Thomas, Y. (1994). Transfer of the molecular signal by electronic amplification. FASEB J, 8, A398.
Benveniste, J., Jurgens, P. & Assa, J. (1996). Digital recording/transmission of the cholinergic signal. FASEB J, 10(6), 2761.
Benveniste, J., Kahhak, L. & Guillonnet, D. (1999). Remote detection of bacteria using an electromagnetic/digital procedure. FASEB J, 13(5), A852-A852.
Bokeria, L.A., Bokeria, O.L., Saliya, N.T., Mohamed Ali, V.H., Kuular, A.M., Dzidziguri, D.V., Sanikidze, T.V. & . Gotovsky, M.Y. (2012). Nitric oxide (NO) amount in rats’ blood and livers after bio-resonance effect. Journal of of New Medical Technologies, 19(1), 18–19.
Chen T., Guo Z. -P., Zhang Y. -H. & Gao Y. (2010). Effect of MORA bioresonance therapy in the treatment of Henoch-Schonlein purpura and influence on serum antioxidant enzymes. Journal of Clinical Dermatology, 39(5), 283–285.
Citro, M. (1995). Pharmacological frequency transfer. In Taddei-Ferretti, C. & Marotta, P. (Hrsg.), High Dilution Effects on Cells and Integrated Systems (346-349).
Endler, P.C., Heckmann, C., Lauppert, E., Pongratz, W., Smith, C.W. & Senekowitsch, F. (1996). Amphibienmetamorphose und Information von Thyroxin. Speicherung durch bipolare Flüssigkeit Wasser und auf technischen Datenträger; Übertragung von Information durch elektronischen Verstärker. In Endler, P.C. & Schulte, J. (Hrsg.), Homöopathie – Bioresonanztherapie. Physiologische und physikalische Vorraussetzungen - Grundlagenforschung (S. 127–162). Wien: Maudrich Verlag.
Endler, P.C., Pongratz, W., Vinattieri, C., Smith, C.W. & Schulte, J. (1995). Hormone effects by CD record/replay. FASEB J, 9, A392.
Fedorowski, A., Steciwko, A. & Rabczynski, J. (2004). Low-frequency electromagnetic stimulation may lead to regression of Morris hepatoma in buffalo rats. Journal of alternative and complementary medicine (New York, N.Y.), 10(2), 251–260.
Fedorowski, A., Steciwko, A. & Rabczynski, J. (2004). Serum cathepsin B activity during regression of Morris hepatoma 5123 D. Medical science monitor : international medical journal of experimental and clinical research, 10(5), 50.
Galle, M. (1997). Orientierende Untersuchung zur experimental-biologischen Überprüfung der Hypothesen zur Bioresonanz von Franz Morell. Erfahrungsheilkunde, 46(12).
Heredia-Rojas, J.A., Villarreal-Treviño, L., La Rodríguez-De Fuente, A.O., Herrera-Menchaca, L.I., Gomez-Flores, R., Mata-Cárdenas, B.D. & Le Rodríguez-Flores, L.E. (2015). Antimicrobial effect of vancomycin electro-transferred water against methicillin-resistant Staphylococcus aureus variant. African Journal of Traditional, Complementary and Alternative Medicines, 12(1), 104–108.
Heredia-Rojas, J.A., Gomez-Flores, R., Rodriguez-de la Fuente, A.O., Monreal-Cuevas, E., Torres-Flores, A.C., Rodriguez-Flores, L.E., Beltcheva, M. & Torres-Pantoja, A.C. (2012). Antimicrobial effect of amphotericin B electronically-activated water against Candida albicans. African Journal of Microbiology Research, 6(15), 3684–3689.
Heredia-Rojas, J.A., Torres-Flores, A.C., Rodriguez-De la Fuente, Abraham O, Mata-Cardenas, B.D., Rodriguez-Flores, L.E., Barron-Gonzalez, M.P., Torres-Pantoja, A.C. & Alcocer-Gonzalez, J.M. (2011). Entamoeba histolytica and Trichomonas vaginalis: trophozoite growth inhibition by metronidazole electro-transferred water. Experimental parasitology, 127(1), 80–83.
Hutschenreuter, P. & Brümmer, H. (1991). Die Narbe, das Keloid und die Mora Therapie. therapeutikon, 7(10), 507–515.
Islamov, B.I., Balabanova, R.M., Funtikov, V.A., Gotovskii, Y.V. & Meizerov, E.E. (2002). Effect of bioresonance therapy on antioxidant system in lymphocytes in patients with rheumatoid arthritis. Bulletin of Experimental Biology and Medicine, 134(3), 248–250.
Islamov B. I., Funtikov V. A., Bobrovskii R. V., Gotovskii Yu. V., Maiko, O.I. & Gogoleva,E.F. (1999 // 2000). Bioresonance therapy of rheumatoid arthritis and heat shock proteins // Biorezonansnaia terapiia gonartroza v usloviiakh polikliniki. Bulletin of experimental biology and medicine, 128 // 72(11 // 12), 1112–1115.
Korenbaum, V.I., Chernysheva, T.N., Apukhtina, T.P. & Sovetnikova, L.N. (2006). Absorption spectra of electronic-homoeopathic copies of homoeopathic nosodes and placebo have essential differences. Forschende Komplementärmedizin und klassische Naturheilkunde = Research in complementary and natural classical medicine, 13(5), 294–297.
Lednyczky, L., Waiserman, A., Sakharov, D. & Koshel, N. (1996). Geschädigte Drosophilalarven und Information von nicht geschädigten Drosophilalarven. In Endler, P.C. & Schulte, J. (Hrsg.), Homöopathie – Bioresonanztherapie. Physiologische und physikalische Vorraussetzungen - Grundlagenforschung (S. 181–192). Wien: Maudrich Verlag.
Montagnier, L., Aïssa, J., Ferris, S., Montagnier, J.-L. & Lavallée, C. (2009). Electromagnetic signals are produced by aqueous nanostructures derived from bacterial DNA sequences. Interdisciplinary sciences, computational life sciences, 1(2), 81–90.
Montagnier, L., Aïssa, J., Lavallée, C., Mbamy, M., Varon, J. & Chenal, H. (2009). Electromagnetic detection of HIV DNA in the blood of AIDS patients treated by antiretroviral therapy. Interdisciplinary sciences, computational life sciences, 1(4), 245–253.
Podchernyaeva, R.J., Lopatina, O.A., Mikhailova, G.R., Baklanova, O.V., Danlibaeva, G.A. & Gushina, E.A. (2008). Effect of exogenous frequency exposure on human cells. Bulletin of Experimental Biology and Medicine, 146(1), 148–152.
Pongratz, W., Endler, P.C., Lauppert, E., Senekowitsch, F., Heckmann, C. & Smith, C.W. (1996). Saatgut-Entwicklung und Information von Silbernitrat. Speicherung durch bipolare Flüssigkeit Wasser und auf technischen Datenträger; Übertragung von Information durch elektronischen Verstärker. In Endler, P.C. & Schulte, J. (Hrsg.), Homöopathie – Bioresonanztherapie. Physiologische und physikalische Vorraussetzungen - Grundlagenforschung (S. 163–176). Wien: Maudrich Verlag.
Thomas, Y., Litime, M.H.L. & Benveniste, J. (1996). Modulation of a human neutrophil activation by "electronic" phorbol myristate acetate (PMA). FASEB J, 10, A1479.
Thomas, Y., Schiff, M., Litime, M.H., Belkadi, L. & Benveniste, J. (1995). Direct transmission to cells of a molecular signal (phorbol myristate acetate, PMA) via electronic device. FASEB J, 9, A227.
Vinattieri, C. & Picard, G. (1995). Pharmacological Frequency Transfer on Animal and Vegetal Models. In Taddei-Ferretti, C. & Marotta, P. (Hrsg.), High Dilution Effects on Cells and Integrated Systems (S. 355–359).
Zhalko-Titarenko, O.V. & Liventsov, V.V. (1994). Bioresonance-induced tunneling in serum albumin in cancer treatment. Journal of Cellular Biochemistry Supplement, 0(18D), 116. |