Editorial
Main Article Content
Keywords
brain, fMRI, mind, sex-related difference, Faradarmani Consciousness Field, MRS, metabolite, spectrum, Shannon entropy, amplitude, Faradarmani, MRS spectrum, total choline, total creatine, myo-inositol, NAA, NAAG, Energy, Brain Metabolome
Abstract
Continuing the line of research on the brain’s interaction with T-Consciousness Fields, this time researchers have focused on a key mechanism underlying brain function—namely, changes in the concentration of metabolites or biochemical molecules present in the brain. The central question is whether connection with the Faradarmani Consciousness Field leads to changes at the molecular and biomolecular level—changes that can be traced in the brain’s bloodstream and across different brain regions. To address this question, the studies presented in this issue, alongside brain imaging using MRI, also include an analysis of proton spectra obtained through Magnetic Resonance Spectroscopy (MRS). These analyses compare the brain's molecular composition before and after the influence of Faradarmani Consciousness Field. The material and molecular changes observed in the brain offer valuable insights into how the brain responds to and interacts with a non-material and non-energy factor—Taheri Consciousness Fields.
