Evaluation of Antibiogram, Genotype and Phylogenetic Analysis of Biofield Treated Nocardia otitidis - Trivedi Science Abstract Nocardiosis is a soil-borne aerobic infection caused by Nocardia species commonly affects the respiratory tract. Nocardia otitidis (N. otitidis) is the key organism for non-mycobacterial tuberculosis. The current study was attempted to investigate the effect of Mr. Trivedi’s biofield energy treatment on N. otitidis and analyzed for antimicrobial susceptibility pattern, minimum inhibitory concentration (MIC), DNA polymorphism by Random Amplified Polymorphic DNA (RAPD) and 16S rDNA sequencing. The strain of N. otitidis (ATCC 14630) was divided into two parts, control and treated. Keywords: Nocardia otitidis; Nocardiosis; Antimicrobial susceptibility; Biofield energy treatment; 16S rDNA sequencing; Random amplified polymorphic DNA The genus Nocardia is associated with the group of microorganisms known as the aerobic actinomycetes and belongs to the family of Mycobacteriaceae. Since 1940s, the sulfonamides have been the drugs of choice for the treatment of nocardiosis [11]. &nsbp;
Evaluation of Biofield Treatment on Physical and Structural Properties of Bronze Powder - Trivedi Science Abstract Bronze, a copper-tin alloy, widely utilizing in manufacturing of gears, bearing, and packing technologies due to its versatile physical, mechanical, and chemical properties. The aim of the present work was to evaluate the effect of biofield treatment on physical and structural properties of bronze powder. Bronze powder was divided into two samples, one served as control and the other sample was received biofield treatment. Keywords: Biofield treatment; Bronze; X-ray diffraction; FT-IR; Particle size; SEM Introduction Bronze is a metallic alloy, primarily consist of copper and tin in 90:10 ratio, which is also known as “true bronze”. A physicist, William Tiller proposed the existence of a new force related to human body, in addition to four well known fundamental forces of physics: gravitational force, strong force, weak force, and electromagnetic force. Experimental Bronze powder was procured from Alfa Aesar, USA. X-ray diffraction study G = kλ / (bCosθ), Particle size analysis 1.
Influence of Biofield Treatment on Cadmium Powder Abstract Cadmium is widely utilized in nickel-cadmium batteries, stabilizers, and coating applications due to its versatile physico-chemical properties. The aim of present study was to evaluate the impact of biofield treatment on atomic, thermal, and physical properties of cadmium powder. The cadmium powder was divided into two groups, one group as control and another group as treated. The treated group received Mr. Trivedi’s biofield treatment. Keywords: Biofield treatment; Cadmium; X-ray diffraction; Differential scanning calorimetry; Particle size; Surface area; Scanning electron microscopy Introduction Cadmium (Cd) element belongs to group IIB in the Periodic Table, which originally exists in Hexagonal Closed Packing (HCP) crystal structure. Experimental Cadmium powder used in present investigation was procured from Alpha Aesar, USA. X-ray diffraction analysis Crystallite size=k λ/ b Cosθ. Where, λ is the wavelength of x-ray (=1.54056 Å) and k is the equipment constant (=0.94). Conclusion
Biofield Treatment on Brass Powder | Trivedi Science Abstract Brass, a copper-zinc (Cu-Zn) alloy has gained extensive attention in industries due to its high corrosion resistance, machinability and strength to weight ratio. The aim of present study was to evaluate the effect of biofield treatment on structural and physical properties of brass powder. The brass powder sample was divided into two parts: control and treated. The treated part was subjected to Mr.Trivedi’s biofield treatment. Control and treated brass powder were characterized using particle size analyser, X-ray diffraction (XRD), scanning electron microscope (SEM), and Fourier transform infrared (FT-IR) spectroscopy. Keywords: Biofield treatment; Brass; X-ray diffraction; Fourier transform infrared; Particle size; Scanning electron microscopy Introduction Brass, an alloy mainly consist of copper (Cu) and zinc (Zn), is widely used in various industries because of their good formability, high corrosion resistance, strength to weight ratio, and ductility. Experimental Figure 1. 1.
The Impact of Trivedi Effect on Silicon Carbide Abstract Silicon carbide (SiC) is a well-known ceramic due to its excellent spectral absorbance and thermo-mechanical properties. The wide band gap, high melting point and thermal conductivity of SiC is used in high temperature applications. The present study was undertaken to investigate the effect of biofield treatment on physical, atomic, and structural characteristics of SiC powder. Keywords: Biofield treatment; Silicon carbide; X-ray diffraction; FT- IR; Particle size; Surface area Introduction Ceramics have been used for many years in structural, abrasive and electronics devices; and mostly are metal oxides. The biofield is a cumulative outcome of electric and magnetic field, exerted by the human body [10]. Based on the knowledge of existing literatures and considering the industrial significance of SiC, in present work an effort has been made to study the impact of biofield treatment on physical and structural properties of SiC. Experimental X-ray diffraction study (XRD) G=kλ/(bCosθ),
The Potential Impact of Biofield Treatment on Human Brain Tumor Cells: A Time-Lapse Video Microscopy - Trivedi Science Abstract Study background: Glioblastoma (GBM) is the most common subtype of primary brain tumor in adults. The aim was to evaluate the impact of biofield treatment potential on human GBM and non-GBM brain cells using two time-lapse video microscopy technique. Methods: The human brain tumor, GBM cultured cells were divided into two groups viz. Results: GBM control cells showed a basal level of cell death 10 hours prior and 10 hours after the biofield treatment, and the rate remained unchanged over the 20 hours period, while in treatment group of GBM, cell death rate was exponentially increased (41%) after biofield treatment as compared to control. Figure 5: Percent change of cell death after 20 hours treatment period with respect to control. Conclusion: Altogether, data suggests that biofield treatment has significantly increased the cell death rate of treated GBM cells and simultaneously boost the viability of normal brain cells. Introduction Materials and Methods Results and Discussion 1.
Antibiogram Pattern of Shigella flexneri: Effect of BioField Treatment - Trivedi Science Abstract: Shigellosis is a major public health burden in India and its neighboring countries due to infection of Shigella species. The current study was attempted to investigate the effect of biofield treatment on Shigella flexneri (S. flexneri) with respect of antimicrobial susceptibility assay, biochemical characteristics and biotyping. The American Type Culture Collection (ATCC 9199) strain of S. flexneri was used in this experiment. The study was conducted in revived and lyophilized state of S. flexneri. Both revived (Group; Gr. Keywords: Shigella flexneri; Biofield treatment; Antimicrobial susceptibility; Minimum inhibitory concentration; Biochemical reaction; Biotype; Shigellosis Abbreviations: MIC: Minimum Inhibitory Concentration; ATCC: American Type Culture Collection; NBPC 30: Negative Breakpoint Combo 30; MSM: Men Who have Sex with Men; NICED: National Institute of Cholera and Enteric Diseases; CDC: Centers for Disease Control and Prevention Introduction Materials and Methods 1.
Effect of Biofield Treatment on Boron Nitride Abstract Boron nitride (BN) is known for high hardness, thermal stability, thermal conductivity, and catalytic action. The aim of this study was to investigate the effect of biofield treatment on physical, structural and spectral properties of BN powder. The control and treated sample of BN powder were characterized by X-ray diffraction (XRD), surface area analysis and Fourier transform infrared spectroscopy (FT-IR). Keywords: Biofield treatment; Boron nitride; X-ray diffraction; FT- IR; Surface area Introduction Boron nitride (BN) is a well-known ceramic material with fascinating properties, such as low density, high melting point, strength, corrosion resistance, and good chemical stability, excellent electrical and thermal properties. Nevertheless, the h-BN has similar crystal structure to graphite hence it is also known as white graphite [6,7]. Mr. Experimental The BN powder was purchased from Sigma Aldrich, USA. X-ray diffraction study Surface area analysis Infrared Spectroscopy 1.
Antibiogram, Biochemical Reactions and Genotyping Characterization of Biofield Treated <i>Staphylococcus aureus</i> Antibiogram, Biochemical Reactions and Genotyping Characterization of Biofield Treated Staphylococcus aureus American Journal of BioScience Volume 3, Issue 6, November 2015, Pages: 212-220 Received: Sep. 19, 2015; Accepted: Sep. 30, 2015; Published: Oct. 16, 2015 Views 1954 Downloads 36 Authors Mahendra Kumar Trivedi, Trivedi Global Inc., Henderson, USA Alice Branton, Trivedi Global Inc., Henderson, USA Dahryn Trivedi, Trivedi Global Inc., Henderson, USA Gopal Nayak, Trivedi Global Inc., Henderson, USA Sambhu Charan Mondal, Trivedi Science Research Laboratory Pvt. Snehasis Jana, Trivedi Science Research Laboratory Pvt. Abstract Staphylococcus aureus (S. aureus) is the key organism for food poisoning due to massive production of heat stable exotoxins. Staphylococci, Staphylococcus aureus, Antimicrobial Sensitivity, Biofield Treatment, Biochemical Reaction, Biotype, 16S rDNA, Gram-Positive Bacteria Balaban N, Rasooly A (2000) Staphylococcal enterotoxins.
Mahendra Trivedi Biofield Effect on Manganese (II, III) Oxide Abstract In Mn3O4, the crystal structure, dislocation density, particle size and spin of the electrons plays crucial role in modulating its magnetic properties. Present study investigates impact of Biofield treatment on physical and atomic properties of Mn3O4. Keywords: Biofield treatment, Mn3O4, X-ray diffraction, FT-IR, Paramagnetic, ESR, Brunauer-Emmett-Teller analysis, Particle size analysis. Introduction Transition metal oxides (TMOs) constitute most interesting classes of solids, which exhibits different varieties of structures and properties [1]. Recently, magnetism and electrochemical properties in Mn3O4 nanoparticles are controlled by modulating the crystal structure by various processes such as annealing at high temperature [9], doping [10], hydrothermal [11], ultrasonic bath [12] and co-precipitation etc. Experimental Manganese (II, III) oxide powders used in the present investigation were obtained from Sigma Aldrich, USA (97% in purity). Crystallite size = [kλ/(bCosθ)] Table 1.
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