Deuterium-depleted water delayed hormone therapy of prostate cancer

The anticancer effect of deuterium depletion in combination with conventional therapies has been confirmed in phase II double-blind clinical trial with prostate cancer patients. In this study, we describe the case of a patient who was diagnosed with prostate cancer in 2009. He denied the hormone therapy offered, providing an opportunity for following the effect of deuterium depletion as a single intervention. The patient started consuming deuterium-depleted water (DDW) one month after the diagnosis. Already after one month of DDW consumption, his PSA level dropped from 8.7 ng/mL to 6.3 ng/mL and 1.5 years later, an MRI scan could not confirm the presence of the tumor 1 cm in diameter. The 11 years follow-up of the changes in PSA value proved that deuterium depletion controls the growth of prostate cancer. The data also revealed that increasing the length of the break in DDW consumption from 5-6 months to 11 months promoted the progression of the disease as confirmed by an MRI scan. The patient had 13 courses of DDW treatment in 11 years. This study confirms that deuterium depletion is an effective early-stage treatment as a single therapy and delays conventional therapy. Based on previous studies we also conclude that DDW in proper combination with hormone therapy assists in prolonging the development of hormone resistance.

Deuterium-depleted water stimulates GLUT4 translocation in the presence of insulin, which leads to decreased blood glucose concentration

Deuterium (D) is a stable isotope of hydrogen (H) with a mass number of 2. It is present in natural waters in the form of HDO, at a concentration of 16.8 mmol/L, equivalent to 150 ppm. In a phase II clinical study, deuterium depletion reduced fasting glucose concentration and insulin resistance. In this study, we tested the effect of subnormal D-concentration on glucose metabolism in a streptozotocin (STZ)-induced diabetic rat model. Animals were randomly distributed into nine groups to test the effect of D2O (in a range of 25–150 ppm) on glucose metabolism in diabetic animals with or without insulin treatment. Serum glucose, fructose amine-, HbA1c, insulin and urine glucose levels were monitored, respectively. After the 8-week treatment, membrane-associated GLUT4 fractions from the soleus muscle were estimated by Western blot technique. Our results indicate that, in the presence of insulin, deuterium depletion markedly reduced serum levels of glucose, -fructose amine, and –HbA1c, in a dose-dependent manner. The optimal concentration of deuterium was between 125 and 140 ppm. After a 4-week period of deuterium depletion, the highest membrane-associated GLUT4 content was detected at 125 ppm. These data suggest that deuterium depletion dose-dependently enhances the effect of insulin on GLUT4 translocation and potentiates glucose uptake in diabetic rats, which explains the lower serum glucose, -fructose amine, and –HbA1c concentrations. Based on our experimental data, deuterium-depleted water could be used to treat patients with metabolic syndrome (MS) by increasing insulin sensitivity. These experiments indicate that naturally occurring deuterium has an impact on metabolic regulations.

Cause and effect relationship between application of deuterium-depleted water and improvement of chronic lymphocytic leukemia

The anticancer effect of deuterium depletion has been proved in various types of cancer in combination with conventional therapies. Here we report a case study of a patient diagnosed in 2006 with chronic lymphocytic leukemia (CLL). His stage at diagnosis did not require the immediate conventional therapy and so he started consuming deuterium-depleted water (DDW). Significant changes occurred already during the first three months; WBC count dropped from 16x103 cells/µL to 7.7x103 cells/µL, to the normal range and the cervical lymph nodes regressed. He continued drinking DDW uninterruptedly in the first three years (1,231 days) and periodically in the subsequent 11 years. PLT count significantly increased from 108x103 /µL to 232x103 /µL after two years’ DDW-consumption. CD5+/CD19+ percentage showed significant decrease from 69% to 4% and the rate of chromosome trisomy 12 in interphase blood cells was reduced from 40% to 7% in the first three years. The study confirms that deuterium depletion as a single treatment is effective and delays the use of conventional chemotherapy.

Dynamics of Polymer Membrane Swelling in Aqueous Suspension of Amino-Acids with Different Isotopic Composition; Photoluminescence Spectroscopy Experiments

In photoluminescence spectroscopy experiments, the interaction mode of the polymer membrane Nafion with various amino-acids was studied. The experiments were performed with physiological NaCl solutions prepared in an ordinary water (the deuterium content is 157 ± 1 ppm) and also in deuterium-depleted water (the deuterium content is ≤1 ppm). These studies were motivated by the fact that when Nafion swells in ordinary water, the polymer fibers are effectively “unwound” into the liquid bulk, while in the case of deuterium-depleted water, the unwinding effect is missing. In addition, polymer fibers, unwound into the liquid bulk, are similar to the extracellular matrix (glycocalyx) on the cell membrane surface. It is of interest to clarify the role of unwound fibers in the interaction of amino-acids with the polymer membrane surface. It turned out that the interaction of amino-acids with the membrane surface gives rise to the effects of quenching luminescence from the luminescence centers. We first observed various dynamic regimes arising upon swelling the Nafion membrane in amino-acid suspension with various isotopic content, including triggering effects, which is similar to the processes in the logical gates of computers.

Deuterium-Depleted Water Stimulates GLUT4 Translocation in the Presence of Insulin, Which Leads to Decreased Blood Glucose Concentration

Deuterium (D) is a stable isotope of hydrogen (H) with a mass number of 2. It is present in natural waters in the form of HDO, at a concentration of 16.8 mmol/L, equivalent to 150 ppm. In a phase II clinical study, deuterium depletion reduced fasting glucose concentration and insulin resistance. In this study, we tested the effect of subnormal D-concentration on glucose metabolism in a streptozotocin (STZ)-induced diabetic rat model. Animals were randomly distributed into 9 groups to test the effect of D2O (in a range of 25–150 ppm) on glucose metabolism in diabetic animals with or without insulin treatment. Serum glucose, fructose amine-, HbA1c, –insulin and urine glucose levels were monitored, respectively. After the 8-week treatment, membrane associated GLUT4 fractions from the soleus muscle were estimated by Western blot technique. Our results indicate that, in the presence of insulin, deuterium depletion markedly reduced serum levels of glucose, -fructose amine, and –HbA1c, in a dose-dependent manner. The optimal concentration of deuterium was between 125–140 ppm. After a 4-week period of deuterium depletion, the highest membrane-associated GLUT4 content was detected at 125 ppm. This data suggests that deuterium depletion dose-dependently enhances the effect of insulin on GLUT4 translocation and potentiates glucose uptake in diabetic rats, which explains the lower serum glucose, -fructose amine, and –HbA1c concentrations. Based on our experimental data, deuterium-depleted water could be used to treat patients with metabolic syndrome (MS) by increasing insulin sensitivity. These experiments indicate that naturally occurring deuterium has an impact on metabolic regulations.

INFLUENCE OF DEUTERIUM-DEPLETED DRINKING DIET ON THE FUNCTIONAL STATE OF THE CENTRAL NERVOUS SYSTEM OF ANIMALS UNDER RATE AND NORMOBARIC HYPOXIA WITH HYPERCAPNIA

The effect of long-term (42 days) introduction of deuterium-depleted water into the diet of rats on the functional state of the central nervous system under normal conditions and normobaric hypoxia with hypercapnia was studied. It was also established that the use of deuterium-de-pleted water both under normal conditions and after stressful exposure contributes to a sig-nificant decrease in the emotional anxiety of animals. Long-term use of deuterium-depleted water before hypoxic exposure (exposure to the amnestic factor) contributes to the preservation of learning and memory at the control level, i.e. has a pronounced protective antiamnesic effect.

Deuterium-depleted Water Stimulates GLUT4 Translocation in the Presence of Insulin, which Leads to Decreased Blood Glucose Concentration

BackgroundDeuterium (D) is a stable isotope of hydrogen (H) with a mass number of 2. It is present in natural waters in the form of HDO, at a concentration of 16.8 mmol/L, equivalent to 150 ppm. In a phase II clinical study, deuterium depletion reduced the fasting glucose concentration and insulin resistance.MethodsIn the study, we tested the effect of subnormal D-concentration on glucose metabolism in streptozotocin (STZ)-induced diabetic rat model. Animals were randomly distributed into 9 groups to test the effect of D2O (in a range of 25-150 ppm) on glucose metabolism in diabetic animals with or without 2X1 unit/day insulin treatment. Serum glucose, -fructose amine-, -HbAIC, –insulin, and urine glucose were tested. After the 8-week treatment, membrane associated GLUT-4 from soleus muscle content was estimated by Western blot technique.ResultsOur results indicate, that deuterium depletion in the presence of insulin reduced the serum glucose, -fructose amine, and -HbAIC, level on dose dependent manner. The optimal concentration of deuterium was between 125-140 ppm. After 8-week period of deuterium depletion the highest membrane-associated GLUT-4 content was detected at 125 ppm.ConclusionsThese data suggest that deuterium depletion dose-dependently enhances insulin’s effect on GLUT-4 translocation and potentiates glucose uptake in diabetic rats, which explains the lower serum glucose, -fructose amine, and -HbAIC concentrations. Based on our experimental data, deuterium-depleted water could be used to treat patients with metabolic syndrome (MS) by increasing the insulin sensitivity. The experiment indicates that the naturally occurring deuterium has an impact on metabolic regulation.

The effect of biologically active supplements on blood hematological parameters of male rhesus macaques

Как показали многочисленные исследования, морфологический состав крови зависит от многих факторов, в частности таких, как условия кормления и содержания, возраст подопытных объектов. Однако отсутствуют данные о влиянии биологически активных добавок, таких как хлорелла, «Бактистатин», вода со сниженной концентрацией дейтерия, на гематологические показатели. Приматы обладают высоким анатомо-физиологическим сходством с человеком, поэтому являются незаменимой моделью для воспроизведения различных патологических и токсических состояний человека. Приматы вида макака-резус (Macaca mulatta) являются наиболее удобными и востребованными в работе, широко используются в медико-биологических исследованиях. Для корректной оценки воздействия биологически активных добавок (БАД) на организмы приматов необходимы достоверные сведения о функционировании их кроветворной системы. По результатам нашего исследования в начале опыта количество эритроцитов в крови самцов макак-резусов во всех исследуемых группах было незначительно увеличено относительно физиологической нормы (5–6,2 млн в 1 мм3). Эта закономерность может быть связана со значительным увеличением температуры окружающей среды к моменту начала постановки опыта и не связано с влиянием БАД. Подобная закономерность наблюдалась и по остальным показателям. Так, уровень тромбоцитов в начале эксперимента находился в пределах референтных показателей — от 200 до 400 млрд/л, за исключением самцов 2-й опытной группы. В этой группе наблюдалось незначительное увеличение тромбоцитов — на 17,60 млрд/л, или на 4,40% от максимально допустимых значений референтных показателей. Результаты анализов крови в конце эксперимента показали, что у всех самцов макак-резусов в опытных группах в результате применения БАД количество тромбоцитов приблизилось к физиологической норме. На основании чего можно сделать вывод, что применение суспензии хлореллы, сухой хлореллы, «Бактистатина» и воды с пониженным содержанием дейтерия не приводило к критическому отклонению морфологических показателей крови, что, в свою очередь, даёт возможность применять БАД в рационах кормления обезьян. Blood morphology depends on many factors, particularly feeding, welfare and age of animals. The influence of biologically active supplements (BAS) such as chlorella, “Baktistatin”, and deuterium-depleted water on blood hematological parameters remains open to question. Primates are quite similar to humans in anatomy and physiology and hence are perfect model organisms when testing various pathological and toxic processes. Macaca mulatta is commonly used in research. To analyze the effect of BAS on primate organism the blood test is required. In the beginning of the experiment the concentration of red blood cells (RBC) exceeded slightly physiologically normal state in all the groups (5–6.2 million/mm3). This could possibly be a result of hot conditions. Same was true for other parameters. Platelet concentration was normal and varied within 200–400 billion/l in the beginning, except for the males of the second group. The second group showed insignificant increase in platelet concentration — by 17.60 billion/l, or 4.40%. Feeding male rhesus macaques with BAS optimized platelet concentration. Chlorella suspension, dry chlorella, “Baktistatin”, and deuterium-depleted water had no critical influence on blood morphology and, therefore, could be used in primate diet.

Experimental evidence for the role of natural radioactivity in influencing viability of commensal microorganisms

The role of natural radioactivity in influencing viability of commensal microorganisms, with particular reference to those pertaining to the human microbiota, has not been investigated in detail. The results of experiments culturing a diversified array of microorganims - probiotics - in naturally radioactive mineral water or deuterium-depleted water are here described. Culturing microorganisms in naturally radioactive mineral water yielded one order of magnitude more live microbial cells in comparison with culturing in deuterium-depleted water. Based on these experimental results, a method for co-culturing prebiotic microorganisms (cyanobacteria) that are extremely resistant to the harmful effects of radiations, together with the probiotics mentioned above, is described. The goal of this co-culture in naturally radioactive mineral water is to transfer the information from the radiation-resistant microorganisms to the probiotics whose viability is enhanced by natural radioactivity. Expression of DNA repair genes in cyanobacteria is induced by co-culturing in a medium of carbonated mineral water naturally containing the radioactive isotopes 228U and 226Ra. The culture medium, in addition to naturally radioactive water, contains silica from vegetal origin to enhance horizontal gene transfer. Finally, it is described the transfer of resistance to the harmful effects of radiations to human cells through a Lactococcus phage-encoded protein, ORF252, that is the evolutionary precursor of human proteins involved in DNA repair and cancer protection.