COMPATIBILITY OF BIOMAGNETIC PROFILES FOUND IN LIVING MATTER BY CROSS SPECIES DEMONSTRATION

Abraham A Embi Bs

doi:10.29121/granthaalayah.v6.i8.2018.1264

Authors

Abraham A Embi Bs Independent Citizen Scientist, 13442 SW 102 Lane Miami, Florida USA 33186

DOI:

https://doi.org/10.29121/granthaalayah.v6.i8.2018.1264

Keywords:

Human Hair Follicle, Magnetic Profiles, Linear Lorentz Forces, Cyclotron Resonance, Cross Species Biomagnetism

Abstract [English]

Biomagnetic research is the study of living entities (plants or animals) weak magnetic emissions. The purpose of this manuscript is to present a historical review and evolution of techniques introduced with the purpose of demonstrating bioelectromagnetic emissions of living tissue; as well as its potential uses in medical research. This will be accomplished by revisiting prior research papers. The hair follicle has been described as a miniorgan, having cellular divisions, thus metabolism. As previously described “metabolism entails electron transfers in both plants (photosynthesis and respiration) and animals (cellular respiration) involving movement of electrons from donor to acceptor along the electron transfer chain thus inducing a current within each cell and from cell to cell. According to Faraday’s Law and the Hall Effect, these currents induce electromagnetic fields (EMFs) perpendicular and horizontal, respectively, to the plane of the living tissues”. Originally the recordings entailed use of complex magnetic shielding and instrumentation. Recently, two tabletops microscopy techniques were introduced, the first using a Prussian Blue Technique mixed with fine iron particles (2000 nanometers in diameter), the second utilizes a three-tier methodology, where cross species magnetic profiles compatibilities are recorded. The utility and medical applications of the two tabletop techniques are discussed

Downloads

Download data is not yet available.

References

Baule G.M, McFee R. Detection of the magnetic field of the heart. American Heart Journal 1963;66: 95-96 PBMID: 14045992. DOI: https://doi.org/10.1016/0002-8703(63)90075-9

Cohen D. Magnetoencephalography: Detection of the Brain’s electrical activity with a superconducting magnetometer. Science 1972;175: 664-666 PMID: 5009769. DOI: https://doi.org/10.1126/science.175.4022.664

Cohen D, Kaufman LA. Magnetic determination of the relationship between the ST segment shift and the injury current produced by coronary occlusion. Circ Res 1975;36: 414-424 PMID: 1111998. DOI: https://doi.org/10.1161/01.RES.36.3.414

Cohen D, Palti Y, Cuffin BN, Schmid SJ. (1980). Magnetic fields produced by steady currents in the body. Proc. Natl. Acad. Sci. USA; 77(3): 1447-1451.

Scherlag BJ, Sahoo K, Embi AA Novel and Simplified Method for Imaging the Electromagnetic Energy in Plant and Animal Tissue. Journal of Nanoscience and Nanoengineering. Vol 2 No 1, 2016, pp 6-9.

Embi AA, Jacobson JI, Sahoo K, Scherlag BJ. Demonstration of Inherent Electromagnetic Energy Emanating from Isolated Human Hairs. Journal of Nature and Science. 2015;1: e55.

Embi, AA, Scherlag BJ. Demonstration of Human Hair Follicle Biomagnetic Penetration Through Glass Barriers International Journal of materials Chemistry and Physics. 2016. Vol. 2, No. 2, 2016, pp. 71-74

Abraham A. Embi, Benjamin J. Scherlag. Demonstration of Biomagnetic Responses of Paired Human Hair Follicles Using Nano-sized Iron Particles Solutions: Inhibition of Diamagnetic Crystallization. International Journal of Materials Chemistry and Physics. Vol. 2, No. 2, 2016, pp. 84-87

Embi AA. Similarity in Bioelectromagnetic Fields Emitted by Hairs of the Mosquito Larva (Culex quinquefasciatus) and Humans. J Nat Sci, 2(11): e250, 2016.

Abraham A. Embi1, Benjamin J. Scherlag. Bio-magnetism as a Mechanism Underlying the Processes Involved in Pollination. Agricultural and Biological Sciences Journal. Vol. 2, No. 1, 2016, pp. 10-14

Embi AA, Scherlag BJ. Demonstration of human hair follicle biomagnetic penetration through glass barriers. International Journal of Materials Chemistry and Physics. 2016;2: 71-74

Scherlag BJ, Sahoo K. Electromagnetic imaging of subdermal human hair follicles in vivo. Journal of Nature and Science. 2016;2: e-17

Abraham A. Embi Bs. (2018). “THE HUMAN HAIR FOLLICLE PULSATING BIOMAGNETIC FIELD REACH AS MEASURED BY CRYSTALS ACCRETION.” International Journal of Research - Granthaalayah, 6(7), 290-299. https://doi.org/10.5281/zenodo.1341349.

Embi AA. 2016 Human Blood Magnetic Profiles Interactions: Role in Mosquito Feeding. Journal of Nature and Science (JNSCI), 2(3): e186

Malkud S. Telogen Effluvium: A Review. Journal of Clinical and Diagnostic Research: JCDR. 2015;9(9): WE01-WE03. doi:10.7860/JCDR/2015/15219.6492. DOI: https://doi.org/10.7860/JCDR/2015/15219.6492

Abraham A Embi Bs. (2018). INTRODUCING ANTIOXIDANTS AS ESSENTIAL FOR THE MAINTENANCE OF TISSUE LIFE AS DEMONSTRATED IN HUMAN HAIR FOLLICLES.” International Journal of Research - Granthaalayah, 6(7), 263- 271. DOI: https://doi.org/10.29121/granthaalayah.v6.i7.2018.1305

https://doi.org/10.5281/zenodo.1341336