Homœopathic Links 2021; 34(01): 003-016
DOI: 10.1055/s-0040-1717132
Philosophy and Discussion

Mathematical Interpretation of the Pharmacodynamics of Homoeopathic Medicines

John Michel Warner
1   Ex Research Assistant, Uvocorp LLC, Kiev, Ukraine
› Author Affiliations

Abstract

According to Hahnemann, homoeopathic medicines must be great immune responses inducers. In crude states, these medicines pose severe threats to the immune system. So, the immune-system of an organism backfires against the molecules of the medicinal substances. The complex immune response mechanism activated by the medicinal molecules can handle any threats which are similar to the threats posed by the medicinal molecules. The intersectional operation of the two sets, medicine-induced immune responses and immune responses necessary to cure diseases, shows that any effective homoeopathic medicine, which is effective against any disease, can induce immune responses which are necessary to cure the specific disease. In this article, this mechanism has been exemplified by the action of Silicea in human body. Also, a neuroimmunological assessment of the route of medicine administration shows that the oral cavity and the nasal cavity are two administration-routes where the smallest doses (sometimes even few molecules) of a particular homoeopathic medicine induce the most effective and sufficient (in amount) purgatory immune responses. Administering the smallest unitary doses of Silicea in the oral route can make significant changes in the vital force line on the dose–response relationship graph. The dose–response relationship graph further implicates that the most effective dose of a medicine must be below the lethality threshold. If multiple doses of any medicine are administered at same intervals, the immune-system primarily engages with the medicinal molecules; but along the passage of time, the engagement line splits into two: one engages with the medicinal molecules and another engages with diseases. The immune system's engagement with the diseases increases along the passage of time, though the engagement with the medicinal molecules gradually falls with the administration of descending doses. Necessarily, I have shown through mathematical logic that the descending doses, though they seem to be funny, can effectively induce the most effective immune responses.



Publication History

Article published online:
31 March 2021

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  • Bibliography

  • Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Para-259
    • References

    • 1 King A. BAD science: homeopathy - can the undetectable cure?. Br Dent J 2018; 224 (03) 128 DOI: 10.1038/sj.bdj.2018.94.
    • 2 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-29
    • 3 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-18
    • 4 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-32
    • 5 Suzanne L. Cassel, Stephanie C. Eisenbarth, Shankar S. Iyer, Jeffrey J. Sadler, Oscar R. Colegio, Linda A. Tephly, A. Brent Carter, Paul B. Rothman, Richard A. Flavell, and Fayyaz S. Sutterwala, “The Nalp3 inflammasome is essential for the development of silicosis” PNAS August 23, 105 (26) 9035–040; https://doi.org/10.1073/pnas.0803933105 from https://www.pnas.org/content/105/26/9035
    • 6 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-275
    • 7 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-279
    • 8 Hahneman S. 1842. Organon of Medicine, Translated by Josh Kunzli, Alain Naude and Peter Pendleton. 1982 Aphorism-253
    • 9 Elenkov IJ, Wilder RL, Chrousos GP, Vizi ES. The sympathetic nerve--an integrative interface between two supersystems: the brain and the immune system. Pharmacol Rev 2000; 52 (04) 595-638
    • 10 Dantzer R, Wollman EE. Relationships between the brain and the immune system. J Soc Biol 2003; 197 (02) 81-8
    • 11 Sherman S. Thalamus. Scholarpedia 2006; 1 (09) 1583 DOI: 10.4249/scholarpedia.1583.
    • 12 Otmishi P, Gordon J, El-Oshar S. et al. Neuroimmune interaction in inflammatory diseases. Clin Med Circ Respirat Pulm Med 2008; 2: 35-44
    • 13 Martin PR, Singleton CK, Sturmhöfel SH. “The Role of Thiamine Deficiency in Alcoholic Brain Disease”. Alcohol Res Health 2003; 27 (02) 134-142
    • 14 Dafny N. (n.d.) “Chapter 6: Pain Principles”, Neuroscience Online. https://nba.uth.tmc.edu/neuroscience/m/s2/chapter06.html . Accessed Aug 26, 2020