Biochemistry

   

Evaluation of the Physicochemical and Thermal Properties of the Biofield Energy Healing Treated Ofloxacin

Authors: Alice Branton, Mahendra Kumar Trivedi, Dahryn Trivedi, Gopal Nayak, Snehasis Jana

Ofloxacin is a broad-spectrum antibiotic useful for the treatment of many Gram-positive and Gram-negative bacterial infections. The objective of this research work was to evaluate the impact of the Trivedi Effect® on the physicochemical and thermal properties of ofloxacin using modern analytical techniques. The sample was divided into two parts. One part of ofloxacin was considered as the control sample (no biofield energy treatment was provided), whereas the second part was received the Biofield Treatment remotely by a famous Biofield Energy Healer, Alice Branton and was termed as the treated sample. The PXRD peak intensities and crystallite sizes were significantly altered ranging from 7.45% to 73.06% and -44.1% to 77.95%, respectively in the treated sample compared to the control sample. The particle size values were significantly altered at d10 (-19.47%), d50 (1.14%), d90 (-8.70%), and D (4, 3) (-10.20%); whereas, the specific surface area was significantly increased by 15.66% in the treated sample compared to the control sample. The latent heat of fusion and latent heat of decomposition of the treated ofloxacin were significantly increased by 16.24% and 88.03%, respectively compared with the control sample. The total weight loss was significantly decreased by 6.21 %; additionally, the residue amount was significantly increased by 47.16% in the treated ofloxacin compared with the control sample. Thus, the Trivedi Effect® might generate a new polymorphic form of ofloxacin which would be more soluble, bioavailable, and be thermally more stable compared with the untreated sample. The Biofield Treated ofloxacin would be more efficacious against urinary tract infections, infections of the urethra and cervix, infectious diarrhoea, pneumonia, cellulitis, chronic bronchitis, prostatitis, plague, etc.

Comments: 8 Pages.

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Submission history

[v1] 2019-07-30 01:26:09

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