Articles Information
International Journal of Materials Chemistry and Physics, Vol.2, No.2, Apr. 2016, Pub. Date: Feb. 24, 2016
Demonstration of Biomagnetic Responses of Paired Human Hair Follicles Using Nano-sized Iron Particles Solutions: Inhibition of Diamagnetic Crystallization
Pages: 84-87 Views: 2466 Downloads: 1472
Authors
[01]
Abraham A. Embi, Cardiology Department, Cedars University of Miami Hospitals, Miami, USA.
[02]
Benjamin J. Scherlag, Heart Rhythm Institute, University of Oklahoma Health Sciences Center, Oklahoma City, USA.
Abstract
Introduction: In previous studies a solution of nano-sized iron particles mixed with Prussian Blue Stain (PBSFe2000) in the presence of a human hair, was used to demonstrate the inherent electromagnetic forces emanating from the hair follicles. Further studies also showed that the magnetic activity of both inanimate (magnet fragment) and the human hair follicle triggered either ferro or ferric cyanide crystalllization in a single open slide preparation (SSP). Methods: Single or pairs of freshly plucked human hairs from the forearm of the authors were placed on a clean glass slide. The paired hairs were arranged with the follicles facing each other. The SSP is an open air technique where one drop of either PBSFe2 (diamagnetic) or PBSFe3 (paramagnetic) was placed to cover the single or paired hair follicles. The solution was then allowed to evaporate and images recorded. Results: When hair follicles were placed in close proximity and covered with the diamagnetic solution there was an absence of crystals formation surrounding each follicle. Conversely when hair follicles were placed in close proximity and covered with the paramagnetic solution, both hairs showed a normal crystallization pattern seen in each follicle. Conclusion: When two hair follicles were placed opposite one another but in close proximity the diamagnetic PBSFe2 solution showed inhibition of crystallization in the proximity of the follicles similar to that seen when the same solution was applied to the single pattern as seen in a single individual hair SSPs. No changes in crystallization patterns were observed between single and paired follicles with the paramagnetic PBSFe3.
Keywords
Biomagnetism, Hair Follicles, Crystallization, Nano-sized Iron Particles, Diamagnetism, Paramagnetism, Opposing Bioelectromagnetism, Atracting Bioelectromagnetism
References
[01]
Scherlag BJ, Sahoo K, Embi AA. A Novel and Simplified Method for Imaging the Electromagnetic Energy in Plant and Animal Tissues, 2015 Journal of Nanocience and Nanoengeneering Vol 2 No.1, 2016 pp 6-9.
[02]
Embi AA, Jacobson JI, Sahoo K, Scherlag BJ (2015) Demonstration of Inherent Electromagnetic Energy Emanating from Isolated Human Hairs. Journal of Nature and Science, 1(3): e55.
[03]
Embi AA, Jacobson JI, Sahoo K, Scherlag BJ (2015) Demonstration of Electromagnetic Energy Emanating from Isolated Rodent Whiskers and the Response to Intermittent Vibrations. Journal of Nature and Science, 1(3):e52.
[04]
Scherlag BJ, Huang B, Zhang L, Sahoo K, Towner R, Smith N, Embi AA, Po (2015) Imaging the Electromagnetic Field of Plants (Vigna radiata) Using Iron Particles: Qualitative and quantitative correlates. Journal of nature and Science 1(3): e61.
[05]
Commoner B, Heise JH, Townsend J Light induced paramagnetism in chloroplasts (1956) Proc Natl Acad Sci U S A. Oct; 42(10): 710–718.
[06]
Magnetic Properties of Solids. http://hyperphysics.phy-astr.gsu.edu/Hbase/solids/magpr.html#c2
[07]
Embi AA, Scherlag BJ. Human hair follicle biomagnetism: potential biochemical correlates Journal of Molecular Biochemistry (2015) 4, 32-35.
[08]
Gordon A. Bain and John F. Berry Diamagnetic Corrections and Pascal's Constants J. Chem. Educ., 2008, 85 (4): 532
[09]
Williamson SJ, Kaufman L. Biomagnetism Journal of Magnetism and Magnetic Materials. 1981; 22 (2): 129-201.
[10]
G.L. Miessler and D.A. Tarr, Inorganic Chemistry (Prentice-Hall, 2nd edn 1999) [ISBN 0138418918], pp. 358–360.
[11]
T. Engel and P. Reid, Physical Chemistry (Pearson Benjamin-Cummings, 2006) [ISBN 080533842X], pp. 477–479.