Provided is a method of preparing ferric carboxymaltose with weight average molecular weight between 100,000 and 400,000. The method includes reacting an oxidized maltodextrin solid with an iron (III) salt solution in acidic and basic conditions in sequence to afford ferric carboxymaltose, wherein the oxidized maltodextrin solid has a dextrose equivalent of less than 4. The ferric carboxymaltose prepared by the method can withstand high-temperature sterilization with high stability and facilitate storage.

An oligo- or polynucleotide analogue having one or more structures of the general formula: where B is a pyrimidine or purine nucleic acid base, or an analogue thereof, is used for treating obesity-related metabolic diseases.

The present invention relates to a novel compound for preventing or treating neurodegenerative diseases and use thereof. Provided is a novel compound of Formula (I). The compound can effectively promotes the proliferation of neural progenitor cells in both in vitro and in vivo experiments, and can serves as a treatment approach to promote nerve regeneration to fight against cognition impairment associated with aging and neurodegenerative diseases.

A glucose in solid form containing a matrix phase and a plurality of carbohydrate crystals within said matrix phase, the matrix phase containing amorphous glucose and water, wherein the carbohydrate crystals comprise glucose and optionally one or more other carbohydrate(s), and optionally wherein the glucose in solid form is coated with a dry powder coating. The glucose in solid form may comprise at least 50 wt % dry substance (DS) glucose and may comprise one or more other carbohydrate(s) besides glucose. A method for manufacturing solidified glucose is also provided.

A glucose in solid form containing a matrix phase and a plurality of carbohydrate crystals within said matrix phase, the matrix phase containing amorphous glucose and water, wherein the carbohydrate crystals comprise glucose and optionally one or more other carbohydrate(s), and optionally wherein the glucose in solid form is coated with a dry powder coating. The glucose in solid form may comprise at least 50 wt % dry substance (DS) glucose and may comprise one or more other carbohydrate(s) besides glucose. A method for manufacturing solidified glucose is also provided.

The present invention relates to the field of oligonucleotide conjugates and to methods of synthesis thereof. In the present method a low-water content solvent environment allows a more efficient conjugation, reducing the amount of conjugate moiety needed and increasing the conjugation reaction speed.

The present invention relates to the field of oligonucleotide conjugates and to methods of synthesis thereof. In the present method a low-water content solvent environment allows a more efficient conjugation, reducing the amount of conjugate moiety needed and increasing the conjugation reaction speed.

An object of the present invention is to provide a method for producing a saccharide polycondensate which is inexpensive and is applicable to a food or beverage product. Disclosed is a method for producing a saccharide polycondensate, which comprises carrying out a saccharide polycondensation reaction in the presence of activated carbon.

An object of the present invention is to provide a method for producing a saccharide polycondensate which is inexpensive and is applicable to a food or beverage product. Disclosed is a method for producing a saccharide polycondensate, which comprises carrying out a saccharide polycondensation reaction in the presence of activated carbon.

Recent advancements in LNA oligonucleotides include the use of amine linkers to link an LNA antisense oligonucleotide to a conjugate group. For example please see WO2014/I18267. The present invention originates from the identification of a problem when de-protecting LNA oligonucleotides which comprise an aliphatic amine group and DMF protected LNA G nucleoside, which results in the production of a +28 Da impurity. This problem is solved by using acyl protection groups on the exocyclic nitrogen of the LNA-G residue, rather than the standard DMF protection group.