Magnesium gluconate has the wide application for the prevention and treatment of hypomagnesemia. The objective of the current study was to investigate the effect of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on magnesium gluconate for the change in the structural properties and isotopic abundance ratio (PM+1/PM) using LC-MS and NMR spectroscopy. Magnesium gluconate was divided into two parts – one part was control, and another part was treated with The Trivedi Effect® - Biofield Energy Healing Treatment remotely by seven renowned Biofield Energy Healers and defined as The Trivedi Effect® Treated sample. The LC-MS analysis of both the control and treated samples revealed the presence of the mass of the protonated magnesium gluconate at m/z 415 at the retention time of 1.53 minutes with almost similar fragmentation pattern. The relative peak intensities of the fragment ions of the treated sample were significantly altered compared with the control sample. The proton and carbon signals for CH, CH2 and CO groups in the proton and carbon NMR spectra were observed almost similar for the control and the treated samples. The isotopic abundance ratio analysis revealed that the percentage of the isotopic abundance ratio of PM+1/PM (2H/1H or 13C/12C or 17O/16O or 25Mg/24Mg) was significantly increased in treated sample by 80.38%, compared with the control sample. Briefly, 13C, 2H, 17O, and 25Mg contributions from (C12H23MgO14)+ to m/z 416; 18O and 26Mg contributions from (C12H23MgO14)+ to m/z 417 in the treated sample were significantly increased compared with the control sample. Thus, the treated magnesium gluconate could be valuable for designing better pharmaceutical and/or nutraceutical formulations through its changed physicochemical and thermal properties, which might be providing better therapeutic response against various diseases such as diabetes mellitus, allergy, aging, inflammatory diseases, immunological disorders, and other chronic infections. The Trivedi Effect® treated magnesium gluconate might be supportive to design the novel potent enzyme inhibitors using its kinetic isotope effects.
Published in | Advances in Biochemistry (Volume 5, Issue 1) |
DOI | 10.11648/j.ab.20170501.12 |
Page(s) | 7-15 |
Creative Commons |
This is an Open Access article, distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium or format, provided the original work is properly cited. |
Copyright |
Copyright © The Author(s), 2017. Published by Science Publishing Group |
Magnesium Gluconate, The Trivedi Effect®, Biofield Energy Healing Treatment, Consciousness Energy Healing Treatment, Biofield Energy Healers, LC-MS, NMR, Isotopic Abundance Ratio, Isotope Effects
[1] | Heaton FW (1990) Role of magnesium in enzyme systems in metal ions in biological systems, In: Sigel H, Sigel A (Eds.), Volume 26: Compendium on magnesium and its role in biology, nutrition and physiology, Marcel Dekker Inc., New York. |
[2] | Garfinkel L, Garfinkel D (1985) Magnesium regulation of the glycolytic pathway and the enzymes involved. Magnesium 4: 60-72. |
[3] | Deepti R, Nalini G (2014) Magnesium plays a salient role in the cells. J Clin Biomed Sci 4: 341-345. |
[4] | Gröber U, Schmidt J, Kisters K (2015) Magnesium in prevention and therapy. Nutrients 7: 8199-8226. |
[5] | William JH, Danziger J (2016) Magnesium deficiency and proton-pump inhibitor use: A clinical review. J Clin Pharmacol 56: 660-668. |
[6] | Guerrera MP, Volpe SL, Mao JJ (2009) Therapeutic uses of magnesium. Am Fam Physician 80: 157-162. |
[7] | Ramachandran S, Fontanille P, Pandey A, Larroche C (2006) Gluconic acid: Properties, applications and microbial production. Food Technol Biotechnol 44: 185-195. |
[8] | Fleming TE, Mansmann Jr HC (1999) Methods and compositions for the prevention and treatment of diabetes mellitus. United States Patent 5871769, 1-10. |
[9] | Fleming TE, Mansmann Jr HC (1999) Methods and compositions for the prevention and treatment of immunological disorders, inflammatory diseases and infections. United States Patent 5939394, 1-11. |
[10] | Coudray C, Rambeau M, Feillet-Coudray C, Gueux E, Tressol JC, Mazur A, Rayssiguier Y (2005) Study of magnesium bioavailability from ten organic and inorganic Mg salts in Mg-depleted rats using a stable isotope approach. Magnes Res 18: 215-223. |
[11] | Weglicki WB (2000) Intravenous magnesium gluconate for treatment of conditions caused by excessive oxidative stress due to free radical distribution. United States Patent 6100297, 1-6. |
[12] | Turner RJ, Dasilva KW, O'Connor C, van den Heuvel C, Vink R (2004) Magnesium gluconate offers no more protection than magnesium sulphate following diffuse trau-matic braininjury in rats. J Am Coll Nutr 23: 541S-544S. |
[13] | Martin RW, Martin JN Jr, Pryor JA, Gaddy DK, Wiser WL, Morrison JC (1988) Comparison of oral ritodrine and magnesium gluconate for ambulatory tocolysis. Am J Obstet Gynecol 158: 1440-1445. |
[14] | Lee KH, Chung SH, Song JH, Yoon JS, Lee J, Jung MJ, Kim JH (2013) Cosmetic compositions for skin-tightening and method of skin-tightening using the same. United States Patent 8580741 B2. |
[15] | Stenger VJ (1999) Bioenergetic fields. Sci Rev Alternative Med 3. |
[16] | Sances F, Flora E, Patil S, Spence A, Shinde V (2013) Impact of biofield treatment on ginseng and organic blueberry yield. Agrivita 35: 22-29. |
[17] | Hammerschlag R, Jain S, Baldwin AL, Gronowicz G, Lutgendor SK, Oschman JL, Yount GL (2012) Biofield research: A roundtable discussion of scientific and methodological issues. J Altern Complement Med 18: 1081-1086. |
[18] | Rubik B (2002) The biofield hypothesis: Its biophysical basis and role in medicine. J Altern Complement Med 8: 703-717. |
[19] | Koithan M (2009) Introducing complementary and alternative therapies. J Nurse Pract 5: 18-20. |
[20] | Trivedi MK, Branton A, Trivedi D, Nayak G, Mondal SC, Jana S (2015) Effect of biofield treated energized water on the growth and health status in chicken (Gallus gallus domesticus). Poult Fish Wildl Sci 3: 140. |
[21] | Trivedi MK, Patil S, Shettigar H, Mondal SC, Jana S (2015) The potential impact of biofield treatment on human brain tumor cells: A time-lapse video microscopy. J Integr Oncol 4: 141. |
[22] | Trivedi MK, Branton A, Trivedi D, Nayak G, Shettigar H, Gangwar M, Jana S (2015) Antibiogram of multidrug-resistant isolates of Pseudomonas aeruginosa after biofield treatment. J Infect Dis Ther 3: 244. |
[23] | Trivedi MK, Branton A, Trivedi D, Shettigar H, Nayak G, Mondal SC, Jana S (2015) Antibiogram, biochemical reactions and genotyping characterization of biofield treated Staphylococcus aureus. American Journal of BioScience 3: 212-220. |
[24] | Trivedi MK, Branton A, Trivedi D, Nayak G, Gangwar M, Jana S (2015) Evaluation of vegetative growth parameters in biofield treated bottle gourd (Lagenaria siceraria) and Okra (Abelmoschus esculentus). International Journal of Nutrition and Food Sciences.4: 688-694. |
[25] | Trivedi MK, Branton A, Trivedi D, Nayak G, Gangwar M, Jana S (2015) Morphological and molecular analysis using RAPD in biofield treated sponge and bitter gourd. American Journal of Agriculture and Forestry 3: 264-270. |
[26] | Trivedi MK, Branton A, Trivedi D, Nayak G, Bairwa K, Jana S (2015) Physical, thermal, and spectroscopic characterization of biofield energy treated murashige and skoog plant cell culture media. Cell Biology 3: 50-57. |
[27] | Trivedi MK, Branton A, Trivedi D, Nayak G, Mishra RK, Jana S (2015) Comparative physicochemical evaluation of biofield treated phosphate buffer saline and hanks balanced salt medium. American Journal of BioScience 3: 267-277. |
[28] | Trivedi MK, Patil S, Nayak G, Jana S, Latiyal O (2015) Influence of biofield treatment on physical, structural and spectral properties of boron nitride. J Material Sci Eng 4: 181. |
[29] | Trivedi MK, Nayak G, Patil S, Tallapragada RM, Latiyal O, Jana S (2015) Characterization of physical and structural properties of brass powder after biofield treatment. J Powder Metall Min 4: 134. |
[30] | Trivedi MK, Patil S, Shettigar H, Bairwa K, Jana S (2015) Effect of biofield treatment on spectral properties of paracetamol and piroxicam. Chem Sci J 6: 98. |
[31] | Trivedi MK, Patil S, Shettigar H, Bairwa K, Jana S, Bairwa K (2015) Spectroscopic characterization of chloramphenicol and tetracycline: An impact of biofield. Pharm Anal Acta 6: 395. |
[32] | Trivedi MK, Tallapragada RM, Branton A, Trivedi D, Nayak G, Latiyal O, Jana S (2015) Potential impact of biofield treatment on atomic and physical characteristics of magnesium. Vitam Miner 3: 129. |
[33] | Trivedi MK, Tallapragada RM, Branton A, Trivedi D, Nayak G, Latiyal O, Jana S (2015) Physical, atomic and thermal properties of biofield treated lithium powder. J Adv Chem Eng 5: 136. |
[34] | Trivedi MK, Branton A, Trivedi D, Nayak G, Bairwa K, Jana S (2015) Physical, thermal, and spectroscopic characterization of biofield energy treated methyl-2-naphthyl ether. J Environ Anal Chem 2: 162. |
[35] | Trivedi MK, Patil S, Mishra RK, Jana S (2015) Characterization of thermal and physical properties of biofield treated acrylamide and 2-chloroacetamide. Organic Chem Curr Res 4: 143. |
[36] | Trivedi MK, Branton A, Trivedi D, Nayak G, Saikia G, Jana S (2015) Isotopic abundance analysis of biofield treated benzene, toluene and p-xylene using gas chromatography-mass spectrometry (GC-MS). Mass Spectrom Open Access 1: 102. |
[37] | Trivedi MK, Branton A, Trivedi D, Nayak G, Saikia G, Jana S (2015) Quantitative determination of isotopic abundance ratio of 13C, 2H, and 18O in biofield energy treated ortho and meta toluic acid isomers. American Journal of Applied Chemistry 3: 217-223. |
[38] | Trivedi MK, Branton A, Trivedi D, Nayak G, Panda P, Jana S (2016) Determination of isotopic abundance of 13C/12C or 2H/1H and 18O/16O in biofield energy treated 1-chloro-3-nitrobenzene (3-CNB) using gas chromatography-mass spectrometry. Science Journal of Analytical Chemistry.4: 42-51. |
[39] | Trivedi MK, Branton A, Trivedi D, Nayak G, Sethi KK, Jana S (2016) Gas chromatography-mass spectrometry based isotopic abundance ratio analysis of biofield energy treated methyl-2-napthylether (Nerolin). American Journal of Physical Chemistry.5: 80-86. |
[40] | Schellekens RC, Stellaard F, Woerdenbag HJ, Frijlink HW, Kosterink JG (2011) Applications of stable isotopes in clinical pharmacology. Br J Clin Pharmacol 72: 879-897. |
[41] | Muccio Z, Jackson GP (2009) Isotope ratio mass spectrometry. Analyst 134: 213-222. |
[42] | Vanhaecke F, Kyser K (2012) Isotopic composition of the elements In Isotopic Analysis: Fundamentals and applications using ICP-MS (1stedn), Edited by Vanhaecke F, Degryse P. Wiley-VCH GmbH & Co. KGaA, Weinheim. |
[43] | Smith RM (2004) Understanding Mass Spectra: A Basic Approach, Second Edition, John Wiley & Sons, Inc, ISBN 0-471-42949-X. |
[44] | Meija J, Coplen TB, Berglund M, Brand WA, De Bievre P, Groning M, Holden NE, Irrgeher J, Loss RD, Walczyk T, Prohaska T (2016) Isotopic compositions of the elements 2013 (IUPAC technical Report). Pure Appl Chem 88: 293-306. |
[45] | Asperger S (2003) Chemical Kinetics and Inorganic Reaction Mechanisms Springer science + Business media, New York. |
[46] | Trivedi MK, Mohan TRR (2016) Biofield energy signals, energy transmission and neutrinos. American Journal of Modern Physics 5: 172-176. |
[47] | Cleland WW (2003) The use of isotope effects to determine enzyme mechanisms. J Biol Chem 278: 51975-51984. |
[48] | Nikolic VD, Illic DP, Nikolic LB, Stanojevic LP, Cakic MD, Tacic AD, Ilic-Stojanovic SS (2014) The synthesis and characterization of iron (II) gluconate. Advanced technologies 3: 16-24. |
APA Style
Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak, Barry Dean Wellborn, et al. (2017). Effect of the Energy of Consciousness (The Trivedi Effect®) on the Structural Properties and Isotopic Abundance Ratio of Magnesium Gluconate Using LC-MS and NMR Spectroscopy. Advances in Biochemistry, 5(1), 7-15. https://doi.org/10.11648/j.ab.20170501.12
ACS Style
Mahendra Kumar Trivedi; Alice Branton; Dahryn Trivedi; Gopal Nayak; Barry Dean Wellborn, et al. Effect of the Energy of Consciousness (The Trivedi Effect®) on the Structural Properties and Isotopic Abundance Ratio of Magnesium Gluconate Using LC-MS and NMR Spectroscopy. Adv. Biochem. 2017, 5(1), 7-15. doi: 10.11648/j.ab.20170501.12
AMA Style
Mahendra Kumar Trivedi, Alice Branton, Dahryn Trivedi, Gopal Nayak, Barry Dean Wellborn, et al. Effect of the Energy of Consciousness (The Trivedi Effect®) on the Structural Properties and Isotopic Abundance Ratio of Magnesium Gluconate Using LC-MS and NMR Spectroscopy. Adv Biochem. 2017;5(1):7-15. doi: 10.11648/j.ab.20170501.12
@article{10.11648/j.ab.20170501.12, author = {Mahendra Kumar Trivedi and Alice Branton and Dahryn Trivedi and Gopal Nayak and Barry Dean Wellborn and Deborah Lea Smith and Dezi Ann Koster and Elizabeth Patric and Jagdish Singh and Kathleen Starr Vagt and Krista Joanne Callas and Parthasarathi Panda and Kalyan Kumar Sethi and Snehasis Jana}, title = {Effect of the Energy of Consciousness (The Trivedi Effect®) on the Structural Properties and Isotopic Abundance Ratio of Magnesium Gluconate Using LC-MS and NMR Spectroscopy}, journal = {Advances in Biochemistry}, volume = {5}, number = {1}, pages = {7-15}, doi = {10.11648/j.ab.20170501.12}, url = {https://doi.org/10.11648/j.ab.20170501.12}, eprint = {https://article.sciencepublishinggroup.com/pdf/10.11648.j.ab.20170501.12}, abstract = {Magnesium gluconate has the wide application for the prevention and treatment of hypomagnesemia. The objective of the current study was to investigate the effect of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on magnesium gluconate for the change in the structural properties and isotopic abundance ratio (PM+1/PM) using LC-MS and NMR spectroscopy. Magnesium gluconate was divided into two parts – one part was control, and another part was treated with The Trivedi Effect® - Biofield Energy Healing Treatment remotely by seven renowned Biofield Energy Healers and defined as The Trivedi Effect® Treated sample. The LC-MS analysis of both the control and treated samples revealed the presence of the mass of the protonated magnesium gluconate at m/z 415 at the retention time of 1.53 minutes with almost similar fragmentation pattern. The relative peak intensities of the fragment ions of the treated sample were significantly altered compared with the control sample. The proton and carbon signals for CH, CH2 and CO groups in the proton and carbon NMR spectra were observed almost similar for the control and the treated samples. The isotopic abundance ratio analysis revealed that the percentage of the isotopic abundance ratio of PM+1/PM (2H/1H or 13C/12C or 17O/16O or 25Mg/24Mg) was significantly increased in treated sample by 80.38%, compared with the control sample. Briefly, 13C, 2H, 17O, and 25Mg contributions from (C12H23MgO14)+ to m/z 416; 18O and 26Mg contributions from (C12H23MgO14)+ to m/z 417 in the treated sample were significantly increased compared with the control sample. Thus, the treated magnesium gluconate could be valuable for designing better pharmaceutical and/or nutraceutical formulations through its changed physicochemical and thermal properties, which might be providing better therapeutic response against various diseases such as diabetes mellitus, allergy, aging, inflammatory diseases, immunological disorders, and other chronic infections. The Trivedi Effect® treated magnesium gluconate might be supportive to design the novel potent enzyme inhibitors using its kinetic isotope effects.}, year = {2017} }
TY - JOUR T1 - Effect of the Energy of Consciousness (The Trivedi Effect®) on the Structural Properties and Isotopic Abundance Ratio of Magnesium Gluconate Using LC-MS and NMR Spectroscopy AU - Mahendra Kumar Trivedi AU - Alice Branton AU - Dahryn Trivedi AU - Gopal Nayak AU - Barry Dean Wellborn AU - Deborah Lea Smith AU - Dezi Ann Koster AU - Elizabeth Patric AU - Jagdish Singh AU - Kathleen Starr Vagt AU - Krista Joanne Callas AU - Parthasarathi Panda AU - Kalyan Kumar Sethi AU - Snehasis Jana Y1 - 2017/03/09 PY - 2017 N1 - https://doi.org/10.11648/j.ab.20170501.12 DO - 10.11648/j.ab.20170501.12 T2 - Advances in Biochemistry JF - Advances in Biochemistry JO - Advances in Biochemistry SP - 7 EP - 15 PB - Science Publishing Group SN - 2329-0862 UR - https://doi.org/10.11648/j.ab.20170501.12 AB - Magnesium gluconate has the wide application for the prevention and treatment of hypomagnesemia. The objective of the current study was to investigate the effect of The Trivedi Effect® - Energy of Consciousness Healing Treatment (Biofield Energy Healing Treatment) on magnesium gluconate for the change in the structural properties and isotopic abundance ratio (PM+1/PM) using LC-MS and NMR spectroscopy. Magnesium gluconate was divided into two parts – one part was control, and another part was treated with The Trivedi Effect® - Biofield Energy Healing Treatment remotely by seven renowned Biofield Energy Healers and defined as The Trivedi Effect® Treated sample. The LC-MS analysis of both the control and treated samples revealed the presence of the mass of the protonated magnesium gluconate at m/z 415 at the retention time of 1.53 minutes with almost similar fragmentation pattern. The relative peak intensities of the fragment ions of the treated sample were significantly altered compared with the control sample. The proton and carbon signals for CH, CH2 and CO groups in the proton and carbon NMR spectra were observed almost similar for the control and the treated samples. The isotopic abundance ratio analysis revealed that the percentage of the isotopic abundance ratio of PM+1/PM (2H/1H or 13C/12C or 17O/16O or 25Mg/24Mg) was significantly increased in treated sample by 80.38%, compared with the control sample. Briefly, 13C, 2H, 17O, and 25Mg contributions from (C12H23MgO14)+ to m/z 416; 18O and 26Mg contributions from (C12H23MgO14)+ to m/z 417 in the treated sample were significantly increased compared with the control sample. Thus, the treated magnesium gluconate could be valuable for designing better pharmaceutical and/or nutraceutical formulations through its changed physicochemical and thermal properties, which might be providing better therapeutic response against various diseases such as diabetes mellitus, allergy, aging, inflammatory diseases, immunological disorders, and other chronic infections. The Trivedi Effect® treated magnesium gluconate might be supportive to design the novel potent enzyme inhibitors using its kinetic isotope effects. VL - 5 IS - 1 ER -