Pharmaceutical and nutritional composition comprising maltol and/or ethyl maltol for use in the therapy of iron deficiency (ID) and ID-anemia (IDA). The iron-free composition produce an efficient extraction of dietary non-heme iron from ingested food, being designed either as stand-alone maltol and/or etyl maltol-containing oral products, or potentiated by digestive enzymes, hematinic vitamins, copper or other iron-transportpromoters. The inventive compositions prevent gut iron overload typically occurring during therapy by oral iron, which translates into lowered oxidative stress and dysbiosis. The inventive compositions are therefore particularly indicated in IDA subjects intolerant to oral or intravenous (IV) iron.

Pharmaceutical and nutritional composition comprising maltol and/or ethyl maltol for use in the therapy of iron deficiency (ID) and ID-anemia (IDA). The iron-free composition produce an efficient extraction of dietary non-heme iron from ingested food, being designed either as stand-alone maltol and/or etyl maltol-containing oral products, or potentiated by digestive enzymes, hematinic vitamins, copper or other iron-transportpromoters. The inventive compositions prevent gut iron overload typically occurring during therapy by oral iron, which translates into lowered oxidative stress and dysbiosis. The inventive compositions are therefore particularly indicated in IDA subjects intolerant to oral or intravenous (IV) iron.

Pharmaceutical and nutritional composition comprising maltol and/or ethyl maltol for use in the therapy of iron deficiency (ID) and ID-anemia (IDA). The iron-free composition produce an efficient extraction of dietary non-heme iron from ingested food, being designed either as stand-alone maltol and/or etyl maltol-containing oral products, or potentiated by digestive enzymes, hematinic vitamins, copper or other iron-transportpromoters. The inventive compositions prevent gut iron overload typically occurring during therapy by oral iron, which translates into lowered oxidative stress and dysbiosis. The inventive compositions are therefore particularly indicated in IDA subjects intolerant to oral or intravenous (IV) iron.

Disclosed is a formulation of the following enzymes: Alpha-galactosidase, Alpha amylase, Beta Glucanase, Lactase, BioCor DPP=IV (Proprietary blend) and Pectinase, which has been found to be effective in treating histamine intolerant people, and causing a significant improvement in a wide variety of pathologies and symptoms, including, but not limited to: inflammation, pruritus, urticaria, hypotension, tachycardia, fatigue, migraines, conjunctivitis, incontinence, nasal congestion, panic attacks, acid reflux, depression and angioedema.

Disclosed is a formulation of the following enzymes: Alpha-galactosidase, Alpha amylase, Beta Glucanase, Lactase, BioCor DPP=IV (Proprietary blend) and Pectinase, which has been found to be effective in treating histamine intolerant people, and causing a significant improvement in a wide variety of pathologies and symptoms, including, but not limited to: inflammation, pruritus, urticaria, hypotension, tachycardia, fatigue, migraines, conjunctivitis, incontinence, nasal congestion, panic attacks, acid reflux, depression and angioedema.

A composition comprising alpha-ketoglutaric acid or a pharmaceutically acceptable salt thereof (AKG), and one or more enzymes selected from a group consisting of a lipase, a protease and an amylase, and medical uses thereof in, neurological and/or neurodegenerative disease, neurological trauma, depression or chronic fatigue syndrome.

A composition comprising alpha-ketoglutaric acid or a pharmaceutically acceptable salt thereof (AKG), and one or more enzymes selected from a group consisting of a lipase, a protease and an amylase, and medical uses thereof in, neurological and/or neurodegenerative disease, neurological trauma, depression or chronic fatigue syndrome.

The present invention relates to a protein conjugate comprising polyubiquitin, a carrier linked to the polyubiquitin, and two or more biomolecules linked to the polyubiquitin or the carrier. In addition, the present invention relates to a pharmaceutical composition for preventing or treating non-alcoholic steatohepatitis (NASH), fatty liver, liver fibrosis, cirrhosis, liver cancer, obesity, and diabetes, comprising the protein conjugate that comprises two or more biomolecules.

The present invention relates to a protein conjugate comprising polyubiquitin, a carrier linked to the polyubiquitin, and two or more biomolecules linked to the polyubiquitin or the carrier. In addition, the present invention relates to a pharmaceutical composition for preventing or treating non-alcoholic steatohepatitis (NASH), fatty liver, liver fibrosis, cirrhosis, liver cancer, obesity, and diabetes, comprising the protein conjugate that comprises two or more biomolecules.

The invention relates to the field of molecular biology and recombinant nucleic acid technology. In particular, the invention relates to a method of treating a patient with Duchenne Muscular Dystrophy comprising the removal of at least one exon from the dystrophin gene using engineered nucleases.