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The Fourth Phase of Water
Published in Aruna Bakhru, Nutrition and Integrative Medicine, 2018
Before I recount the Galileo-like saga that befell Benveniste, I should mention that his results have been confirmed in multiple laboratories (Belon et al. 1999). Furthermore, a possible physical-chemical basis for understanding how water could hold information is now evident: it may lie in water's liquid-crystalline fourth phase. The idea of water memory is no longer a scientific joke but, among some groups, a phenomenon ripe for exploration and one that is now being actively pursued.
Differential expression and signaling of the human histamine H3 receptor isoforms of 445 and 365 amino acids expressed in human neuroblastoma SH-SY5Y cells
Published in Journal of Receptors and Signal Transduction, 2018
Gustavo Nieto-Alamilla, Juan Escamilla-Sánchez, María-Cristina López-Méndez, Anayansi Molina-Hernández, Agustín Guerrero-Hernández, José-Antonio Arias-Montaño
Histamine regulates a variety of functions in the central nervous system of mammals including the sleep-wake cycle, ingestion of food and water, memory and learning. These actions are mediated by four G protein-coupled receptors (H1–H4), and the first three are widely expressed in the brain [1]. Histamine H3 receptors (H3Rs) are primarily located on synaptic terminals, although there is also evidence for postsynaptic H3Rs in some brain areas, namely cerebral cortex, striatum and hippocampus [1,2].
Rate limiting factors for DNA transduction induced by weak electromagnetic field
Published in Electromagnetic Biology and Medicine, 2019
B. Qing Tang, Tongju Li, Xuemei Bai, Minyi Zhao, Bing Wang, Glen Rein, Yongdong Yang, Peng Gao, Xiaohuan Zhang, Yanpeng Zhao, Qian Feng, Zhongzhen Cai, Yu Chen
The EM signals from pathogenic bacteria and viral DNA can further be recorded as analog files. When bacterial EMS files were played back to immobilized human cell lines, all cells with a tumor origin synthesized the bacterial DNA and resulted in cell death, while normal cells were not affected (Montagnier et al., 2015). These findings are of great importance in the field of medicine as DNA spectral information can be used not only for diagnostic purposes (Giuliani et al., 2011), but also for treatment (Montagnier et al., 2015). Similar results were obtained using P53, a potent tumor suppressor. By transferring molecular information of P53 to aqueous solutions, the EM imprinted solutions were shown to inhibit cancer cells proliferation, have anti-metastasis activity and increased apoptosis (Kim, 2013). Other reports demonstrated the suppression of the metabolic activity of neuroblastoma cells by EM signals coming from retinoic acid (Foletti et al., 2012b; Grimaldi and Grieco, 2013) and the inhibition of bacterial growth by the molecular signals generated from antibiotic agents (Heredia-Rojas et al., 2015; Rad and Jalali, 2018). It is clear that the development of electromagnetic information imprinting in aqueous solutions as an inexpensive and non-toxic medical treatment holds great promise (Norman et al., 2016). Commercial devices now exist which can transfer molecular information into the water and are currently being used by practitioners of Electronic Medicine to make “remedies“. Thus real-life applications of this new technology exist despite a shortage of rigorous scientific research on the subject of water memory. However, since the macroscopic quantum properties of water have been recently measured, a mechanism of action using quantum field theory has been proposed and a recent conference was held at the Royal Society of Medicine in London, it is reasonable to consider water imprinting a new emerging field of science. We believe our article contributes to the scientific understanding of this new field.