Physicochemical and UV/VIS measurements of UHD solutionsof water, potentized water,and different potencies of organic substance

Conventional science regards the study of UHD (highly homeopathically potentized) solutions as pseudo-science. However, an increasing number of rigorous scientific investigations demonstrate differences in physicochemical and physical characteristics of such solutions. Strictly chemically regarded, they correspond to highly distilled water. Our research team developed a system of physicochemical and UV spectrographic measurements, whereby the differences may be consistently confirmed with high statistical significance.Methods:For measurement of the physicochemical parameters,we usedpH,electrical conductivity,and oxidation-reduction potential (ORP)sensors.For UV/VIS spectroscopymeasurements,we useda Macherey-Nagelspectrophotometer.For UHD research, we used two batches of substances: Russian (R) and Brazilian (B). In R, distilled water (W) was used for dilutions and potencies as follows: potentized water (W cH9), potentized dilution of antibodies to interferon-gamma (Abs IFNγ cH9), the same original substance in the form of a mixture of potencies (Abs IFNγ cH12, cH30, cH50, shortly Abs IFNγ mix). Furthermore, we prepared higher potencies of the substances (supplementary potentiation) in a specially prepared solution and measured their characteristics. In B, the solution was used for further dilutions and potencies as follows: potentized water (W cH1) and Glyphosate potencies (Gly cH6 => cH8, cH30 => cH 32, and cH200 => cH 202).For direct or post-hoc analysis, we used Wilcoxon signed-rank test, two-tailed.Results:UV-VIS spectroscopy (R): measurements of received liquids potentized for further cH1 show statistically significant differences between all substances, except between water W and W cH9 at 260 nm. Significant differences (p-values) were as follows: Abs IFNγ mixvs. W= 0.007; Abs IFNγ mixvs.W cH9=0.008; Abs IFNγ cH9vs. W=0.044; Abs IFNγ cH9vs.W cH9= 0.026; Abs IFNγ mixvs.W cH9= 0.007; W vs.W cH9= 0.506.Physicochemical measurements:R: measurementsdemonstrated statistical difference only in pH (Abs IFNγ mix towards all others). Significant differences (p-values) were as follows: Abs IFNγ mixvs. W=0.022; Abs IFNγ mixvs.W cH9=0.005; Abs IFNγ mixvs.Abs IFNγ cH9=0.025. After supplementarypotentiation, we obtained a more conspicuous picture with many statistical differences in conductivity and ORP, ranging from p= 0.001 to 0.046.A difference between water and potentized water has also been demonstrated.B: the measurements demonstrated statistical differences mainly in pH between Gly cH8 and the rest and between Gly cH202 and W cH1.Significant differences (p-values) were as follows:Gly cH8vs. Gly cH32 =0.027; Gly cH8vs. Gly cH202 = 0.011; Gly cH8vs. W cH1= 0.014; Gly cH202vs. W cH1= 0.034.Conclusion:UV/VIS at wavelength 260 nm Abs IFNγ mix discloses a pattern similar to exclusion zone (EZ)water at 270 nm.By additional potentiation and with physicochemical measurements, we obtained higher statistical differences than in the original dilutions.In contrast, UV/VIS spectroscopy showed more conspicuous results without additional potentiation. However, the very act of succussion becomes very distinct

Effects of electrically transferred molecular information on the germination of garden cress / Efeitos de informação molecular transferida eletricamente sobre a germinação do agrião

We followed a hypothesis that biologically relevant information from various substances can be non-chemically transferred to organisms through a combination of a high voltage electric field that can stably imprint information into water or a water solution. A special device was constructed, and a thoroughly tested biological sensor system (i.e. cress seedlings exposed to a defined heat stress), was used. The results demonstrate a clear evidence of biological effects of electrically imprinted information of biologically active substances into water solution, however not necessarily with an obvious connection to the effects of the original (donor) substance. The growth reaction of cress seedlings was either stimulatory or inhibitory, depending on the time of the application.

Seguimos a hipótese de que informação biologicamente relevante de várias substâncias pode ser transferida de maneira não química a organismos, através da combinação de um campo elétrico de alta intensidade, que pode imprimir estavelmente informação na água ou sistemas aquosos. Foi construído um aparelho especial e foi utilizado um sistema sensor especial, amplamente provado (plantas de agrião expostas a estresse térmico definido). Os resultados demonstram evidência dos efeitos de informação eletricamente impressa de substâncias biologicamente ativas em soluções aquosas. No entanto, estes efeitos não estão necessariamente ligados aos próprios da substância original (doadora). A reação de crescimento das plantas de agrião foi ora estimulatória ou inibidora, dependendo do momento da aplicação.