Abstract
M.Tech. (Homoeopathy)
The use of ultra-high dilutions and their effect has been the subject of much debate and controversy
for the practice of homeopathy. The effect of these dilutions is considered to be due to nonmolecular
information transfer to the solvent during the process of succussion and dilution. High
dilutions are not suitable to pharmacokinetic investigation due to their lack of detectable active
ingredient and the lack of analytical methods with sufficient sensitivity; however, laboratory and
clinical studies are providing experimental evidence contributing to the pharmacodynamics of high
dilution remedies.
The aim of this study is to investigate the effect of ultra-high dilutions of Thyroxine on the
morphogenesis of Xenopus laevis tadpoles using potencies of 6C, 30C and 200C, to determine if
the effect is stimulatory or inhibitory to morphogenesis and whether the various potencies have
similar or different effects on morphogenesis.
The morphogenesis of Xenopus laevis, the African clawed frog, is dependent entirely on the
thyroid system and the production of thyroxine; they require the initiation and maintenance of high
levels of circulating thyroid hormones to make the transition from tadpole to juvenile frog.
Exposure of tadpoles to exogenous thyroid hormones can induce precocious morphogenesis,
whilst withholding thyroid hormones by surgical ablation of the thyroid gland will prevent any
further development until such time that the hormone is replaced.
Homeopathy is based on the “Law of Similars” and the idea of “Like cures like”. This implies that
a crude substance capable of producing particular symptoms in a healthy individual, in
homeopathic dilution, is able to cure these same symptoms expressed as a disease. Using this
model, the effect of homeopathically prepared ultra-high dilutions of Thyroxine on the
morphogenesis of Xenopus laevis tadpoles was determined. The high levels of naturally circulating
thyroid hormones at particular stages of development being analogous to the crude substance
causing symptoms, in this case, stimulating tail reduction. Eight-hourly applications of ultra-high
dilutions of Thyroxine were administered to the water the tadpoles were housed in from Day 32 of
the experiment, while measuring their tail length every three days from Day 32 to Day 48 and
daily measurements from Day 48 to Day 58.
Tail length measurements were analysed using parametric Univariate Analysis of Variance and
non-parametric Friedman and Wilcoxon Signed-Rank Test. Mean tail length and peak tail length...