A vitamin for use by kidney patients in Stages 3, 4, 4a, 4b, and 5, who are not on dialysis, comprising administering daily a: low nitrogen diet; low nitrogen protein food comprising magnesium and/or calcium salts of alpha keto acids; and time released vitamin. The vitamin comprises the active ingredients of: Zinc; Selenium; Vitamins B1, B2, B6, B12, B5, E, and K2; Niacin; superoxide dismutase; catalase; glutathione and Folate; and excludes calcium, magnesium, phosphorus, sodium, manganese, fluoride, Vitamin D and K1. The low nitrogen food contains daily up to 300 mg of nitrogen; and at least five alpha keto analogues of magnesium and/or calcium salts of: leucine, isoleucine, methionine (MEMS-II), phenylalanine (PAMS-I), and valine. Methods of making and the chemical structures MEMS-II and the PAMS-I are disclosed. The treatment results in an increase of Glomerular Filtration Rate (GFR), a decrease in blood urea levels, and a decrease in creatinine levels.

A vitamin for use by kidney patients in Stages 3, 4, 4a, 4b, and 5, who are not on dialysis, comprising administering daily a: low nitrogen diet; low nitrogen protein food comprising magnesium and/or calcium salts of alpha keto acids; and time released vitamin. The vitamin comprises the active ingredients of: Zinc; Selenium; Vitamins B1, B2, B6, B12, B5, E, and K2; Niacin; superoxide dismutase; catalase; glutathione and Folate; and excludes calcium, magnesium, phosphorus, sodium, manganese, fluoride, Vitamin D and K1. The low nitrogen food contains daily up to 300 mg of nitrogen; and at least five alpha keto analogues of magnesium and/or calcium salts of: leucine, isoleucine, methionine (MEMS-II), phenylalanine (PAMS-I), and valine. Methods of making and the chemical structures MEMS-II and the PAMS-I are disclosed. The treatment results in an increase of Glomerular Filtration Rate (GFR), a decrease in blood urea levels, and a decrease in creatinine levels.

A low nitrogen protein food composition Albutrix™ for use by kidney patients in Stages 3, 4, 4a, 4b, and 5, who are not on dialysis, in a treatment program comprising administering daily a: low nitrogen diet; low nitrogen protein food comprising magnesium and/or calcium salts of alpha keto acids; and time released vitamin. The vitamin comprises the active ingredients of: Zinc; Selenium; Vitamins B1, B2, B6, B12, B5, E, and K2; Niacin; superoxide dismutase; catalase; glutathione and Folate; and excludes calcium, magnesium, phosphorus, sodium, manganese, fluoride, Vitamin D and K1. The low nitrogen food contains daily up to 300 mg of nitrogen; and at least five alpha keto analogues of magnesium and/or calcium salts of: leucine, isoleucine, methionine (MEMS-II), phenylalanine (PAMS-I), and valine. The treatment results in an increase of Glomerular Filtration Rate (GFR), a decrease in blood urea levels, and a decrease in creatinine levels.

A low nitrogen protein food composition Albutrix™ for use by kidney patients in Stages 3, 4, 4a, 4b, and 5, who are not on dialysis, in a treatment program comprising administering daily a: low nitrogen diet; low nitrogen protein food comprising magnesium and/or calcium salts of alpha keto acids; and time released vitamin. The vitamin comprises the active ingredients of: Zinc; Selenium; Vitamins B1, B2, B6, B12, B5, E, and K2; Niacin; superoxide dismutase; catalase; glutathione and Folate; and excludes calcium, magnesium, phosphorus, sodium, manganese, fluoride, Vitamin D and K1. The low nitrogen food contains daily up to 300 mg of nitrogen; and at least five alpha keto analogues of magnesium and/or calcium salts of: leucine, isoleucine, methionine (MEMS-II), phenylalanine (PAMS-I), and valine. The treatment results in an increase of Glomerular Filtration Rate (GFR), a decrease in blood urea levels, and a decrease in creatinine levels.

Methods disclosed herein provide for an environmentally-friendly approach that employ citric extracts from fruits as unique reducing and stabilizing agents for making a tellurium nanomaterial. A particular method of making a tellurium nanomaterial includes combining citrus fruit extract with a tellurium salt to form a mixture of citrus fruit extract and dissolved tellurium salt; and heating the mixture of citrus fruit extract and dissolved tellurium salt, thereby making the tellurium nanomaterial. The resulting nanoparticles exhibit enhanced and desirable biomedical properties toward treatment of both infectious diseases and cancer.

Methods disclosed herein provide for an environmentally-friendly approach that employ citric extracts from fruits as unique reducing and stabilizing agents for making a tellurium nanomaterial. A particular method of making a tellurium nanomaterial includes combining citrus fruit extract with a tellurium salt to form a mixture of citrus fruit extract and dissolved tellurium salt; and heating the mixture of citrus fruit extract and dissolved tellurium salt, thereby making the tellurium nanomaterial. The resulting nanoparticles exhibit enhanced and desirable biomedical properties toward treatment of both infectious diseases and cancer.

The present invention relates to a preterm human milk fortifier composition, more specifically to a preterm milk fortifier composition providing one or more specific nutrient in amounts that are missing in human milk of women who gave birth to a preterm infant. In particular the present invention relates to a fortifier composition designed for infants as a supplement to preterm human breast milk at the time the infant leaves the hospital (discharge) and after. The invention furthermore relates to the use of said preterm human milk fortifier composition.

The present invention relates to a preterm human milk fortifier composition, more specifically to a preterm milk fortifier composition providing one or more specific nutrient in amounts that are missing in human milk of women who gave birth to a preterm infant. In particular the present invention relates to a fortifier composition designed for infants as a supplement to preterm human breast milk at the time the infant leaves the hospital (discharge) and after. The invention furthermore relates to the use of said preterm human milk fortifier composition.

The present invention relates to a preterm human milk fortifier composition, more specifically to a preterm milk fortifier composition providing one or more specific nutrient in amounts that are missing in human milk of women who gave birth to a preterm infant. In particular the present invention relates to a fortifier composition designed for infants as a supplement to preterm human breast milk at the time the infant leaves the hospital (discharge) and after. The invention furthermore relates to the use of said preterm human milk fortifier composition.

There are provided various compositions comprising monoglyceride(s) and cannabinoid(s). These compositions can be useful for increasing the life span of a subject; for increasing the disability-free life expectancy, for slowing down the ageing process of a subject; for increasing the mitochondrial OXPHOS of a subject; for decreasing the mitochondrial LEAK of a subject; for increasing the mitochondrial RCR or COUPLING EFFICIENCY of a subject; and for optimizing the mitochondrial functions of a subject.