Investigation of nanoparticles present in biochemic tissue salt Kalium phosphoricum in different potencies

Abstract

BackgroundBiochemic tissue salts are defined as essential inorganic salts needed to maintain homoeostasis within living tissue. Kali phosphoricum is one of the twelve biochemic tissue salts. Nanomedicine is an expanding field, in which nanoparticles play an integral part and are known to exist in the natural world and can also be manufactured by scientists. This study sought to determine whether Kali phos included nanoparticles and whether may help to mitigate brain problems. Material and MethodTo investigate whether potassium phosphate nanoparticles were present in Kali phos, ultraviolet-visible spectroscopy and Fourier transform infrared spectroscopy were used. To analyze the biochemical parameters, the homogenate of brain was incubated with lactose powder (control group), different potencies of Kali phos and K2HPO4. 25% homogenate of normal brain tissue was made with the help of ice cold 0.02M Tris-Cl (pH 7.4) buffer. Different antioxidant enzymes and glycolytic enzyme activities were measured. ResultsIt may be concluded from this investigation, utilizing these chosen potencies, that the biochemic tissue salt Kali phos does contain nanoparticles of potassium phosphate, adding to the development of the nanomedicine field. Lower potency remedies were more effective in modulating the level of antioxidant and glycolytic enzymes. ConclusionAlthough there is clearly a body of scientific evidence, mainstream medicine claims that there is simply an inadequate amount of such evidence. These results may expand the range of use and applications of biochemic tissue salts, lay the groundwork for the creation of empirical homoeopathic evidence, and bring innovative research avenues.