Abstract: The present invention relates to methods of producing crosslinked hyaluronic acid microbeads, as well as the produced microbeads, said method comprising the steps of: (a) providing an aqueous alkaline solution comprising hyaluronic acid, or a salt thereof; (b) forming microdroplets having a desired size from the mixed solution of step (a) in an organic or oil phase to form a water in organic or water in oil (VWO) emulsion, wherein the amount of oil phase used is of from 20 to less than 50% by weight based on the sum of oil phase and water; (c) adding a solution comprising a crosslinking agent to the emulsion, whereby the reaction of hyaluronic acid with the crosslinking agent takes place to provide crosslinked hyaluronic acid microbeads; and (d) optionally working up the dispersion of crosslinked hyaluronic acid microbeads obtained in step (c).

Abstract: The present invention relates to methods of producing a homogenous hydrogel comprising hyaluronic acid, or salt thereof, crosslinked with divinylsulfone (DVS), said method comprising the steps of (a) providing an alkaline solution of hyaluronic acid, or salt thereof; (b) adding DVS to the solution of step (a), whereby the hyaluronic acid, or salt thereof, is crosslinked with the DVS to form a gel; (c) treating the gel of step (b) with a buffer, wherein the gel swells and forms a hydrogel comprising hyaluronic acid, or salt thereof, crosslinked with DVS.

Abstract: The present invention relates to the modification of hyaluronic acid (HA) with aryl/alkyl succinic anhydrides (ASA) to produce aryl/alkyl succinic anhydride HA derivatives, to the derivatives as such, and to their applications and uses, particularly in the cosmetic and biomedical industries. The ASA-HA derivatives are expected to have interesting properties that can be used for advanced formulation (bind stronger to the skin compared to non-modified HA), possibly also in delivery systems for actives or drugs by encapsulation (nano/micro capsules) or formation of nano/micro spheres. Further, the low MW ASA-HA derivatives are expected to penetrate the skin more efficiently than non-modified HA of the same MW.

Abstract: The present invention relates to methods of producing crosslinked hyaluronic acid microbeads, as well as the produced microbeads, said method comprising the steps of: (a) providing an aqueous alkaline solution comprising hyaluronic acid, or a salt thereof; (b) forming microdroplets having a desired size from the mixed solution of step (a) in an organic or oil phase to form a water in organic or water in oil (W/O) emulsion, wherein the amount of oil phase used is of from 20 to less than 50% by weight based on the sum of oil phase and water; (c) adding a solution comprising a crosslinking agent to the emulsion, whereby the reaction of hyaluronic acid with the crosslinking agent takes place to provide crosslinked hyaluronic acid microbeads; and (d) optionally working up the dispersion of crosslinked hyaluronic acid microbeads obtained in step (c).

Abstract: The present invention relates to the modification of hyaluronic acid (HA) with aryl/alkyl succinic anhydrides (ASA) to produce aryl/alkyl succinic anhydride HA derivatives, to the derivatives as such, and to their applications and uses, particularly in the cosmetic and biomedical industries. The ASA-HA derivatives are expected to have interesting properties that can be used for advanced formulation (bind stronger to the skin compared to non-modified HA), possibly also in delivery systems for actives or drugs by encapsulation (nano/micro capsules) or formation of nano/micro spheres. Further, the low MW ASA-HA derivatives are expected to penetrate the skin more efficiently than non-modified HA of the same MW.

Abstract: A hyaluronic acid derivative, and methods of producing and using said derivative, the derivative comprising n repeating units and having the general structural formula (I), wherein, in at least one repeating unit, one or more of R1, R2, R3, R4 comprises an etherbound aryl/alkyl sulfone having the general structural fomula (II), wherein R comprises an alkyl- or aryl-group, and otherwise R1, R2, R3, R4 are hydroxyl groups, OH.

Abstract: The present invention relates to the modification of hyaluronic acid (HA) with aryl/alkyl succinic anhydrides (ASA) to produce aryl/alkyl succinic anhydride HA derivatives, to the derivatives as such, and to their applications and uses, particularly in the cosmetic and biomedical industries. The ASA-HA derivatives are expected to have interesting properties that can be used for advanced formulation (bind stronger to the skin compared to non-modified HA), possibly also in delivery systems for actives or drugs by encapsulation (nano/micro capsules) or formation of nano/micro spheres. Further, the low MW ASA-HA derivatives are expected to penetrate the skin more efficiently than non-modified HA of the same MW.

Abstract: The present invention relates to methods for preparing a derivative of a hyaluronic acid, comprising: (a) mixing a liquid solution comprising the hyaluronic acid and a diamine, a polyamine, or a combination thereof, at a pH suitable to form an imine; (b) reducing the imine to an amine with a reductant at a pH suitable to produce the derivative of the hyaluronic acid; and (c) recovering the derivative of the hyaluronic acid. The present invention also relates to isolated derivatives of a hyaluronic acid, comprising the hyaluronic acid and a diamine, a polyamine, or a combination thereof.

Abstract: The invention concerns a product comprising hyaluronic acid or a salt thereof, wherein the hyaluronic acid has been partially or fully linked or crosslinked with a polymer of an alpha hydroxy acid. The invention also concerns manufacture of the product, uses of the product of the invention in the field of biodegradable plastic materials for the preparation of sanitary and surgical articles, in the pharmaceutical and cosmetic fields; including the various articles made with the same in such fields.

Abstract: The invention provides in a first aspect a method for controlling the content of selected component(s) in one or more polymer(s) by: (a) contacting the polymer(s) with at least one molecular sieve; and optionally (b) isolating the polymer from the molecular sieve(s).

Abstract: The present invention relates to methods for producing a hyaluronic acid with a desired average molecular weight in the range of 20,000-800,000 Dalton, the methods comprising the steps of: (a) cultivating a recombinant Bacillus host cell at a first temperature conducive to its growth, wherein the Bacillus host cell comprises a nucleic acid construct comprising a hyaluronan synthase encoding sequence operably linked to a promoter sequence foreign to the hyaluronan synthase encoding sequence; (b) then cultivating the recombinant Bacillus host cell of step (a) at a second temperature higher than the first temperature of step (a) under conditions suitable for production of the hyaluronic acid, whereby the Bacillus host cell produces hyaluronic acid with a desired average molecular weight in the range of 20,000-800,000 Dalton; and (c) recovering the hyaluronic acid.

Abstract: A branched hyaluronic acid, wherein the linear backbone comprises hyaluronic acid in which one or more N-Acetyl-Glucosamine has been deacetylated to Glucosamine, with branching sidechain(s) covalently linked to the primary amine(s) of said deacetylated Glucosamine thus forming a secondary amine(s); a precursor for producing said branched hyaluronic acid; and a method for producing said branching hyaluronic acid

Abstract: The present invention relates to the modification of hyaluronic acid (HA) with aryl/alkyl succinic anhydrides (ASA) to produce aryl/alkyl succinic anhydride HA derivatives, to the derivatives as such, and to their applications and uses, particularly in the cosmetic and biomedical industries. The ASA-HA derivatives are expected to have interesting properties that can be used for advanced formulation (bind stronger to the skin compared to non-modified HA), possibly also in delivery systems for actives or drugs by encapsulation (nano/micro capsules) or formation of nano/micro spheres. Further, the low MW ASA-HA derivatives are expected to penetrate the skin more efficiently than non-modified HA of the same MW.

Abstract: The present invention relates to an acrylated hyaluronic acid product and to processes for the production thereof.

Abstract: A moisturizing, cosmetic, or anti-wrinkle product comprising hyaluronic acid or a salt thereof, wherein the hyaluronic acid or salt thereof has an average molecular weight in the range of 0.7-0.9 MDa, compositions comprising said product, and uses of said product.

Abstract: The invention concerns a product comprising hyaluronic acid or a salt thereof, wherein the hyaluronic acid has been partially or fully linked or crosslinked with a polymer of an alpha hydroxy acid. The invention also concerns manufacture of the product, uses of the product of the invention in the field of biodegradable plastic materials for the preparation of sanitary and surgical articles, in the pharmaceutical and cosmetic fields; including the various articles made with the same in such fields.

Abstract: The present invention provides a moisturizing, cosmetic, or anti-wrinkle product comprising at least two hyaluronic acid fractions, or salts thereof, wherein a fraction has an average molecular weight in the range of 8,000-100,000 Da, and a fraction has an average molecular weight in the range of 500,000-1,100,000 Da.

Abstract: The present invention relates to methods for producing a hyaluronic acid with a desired average molecular weight in the range of 20,000-800,000 Dalton, the methods comprising the steps of: (a) cultivating a recombinant Bacillus host cell at a first temperature conducive to its growth, wherein the Bacillus host cell comprises a nucleic acid construct comprising a hyaluronan synthase encoding sequence operably linked to a promoter sequence foreign to the hyaluronan synthase encoding sequence; (b) then cultivating the recombinant Bacillus host cell of step (a) at a second temperature higher than the first temperature of step (a) under conditions suitable for production of the hyaluronic acid, whereby the Bacillus host cell produces hyaluronic acid with a desired average molecular weight in the range of 20,000-800,000 Dalton; and (b) recovering the hyaluronic acid.

Abstract: The present invention provides a moisturizing, cosmetic, or anti-wrinkle product comprising at least two hyaluronic acid fractions, or salts thereof, wherein a fraction has an average molecular weight in the range of 8,000-100,000 Da, and a fraction has an average molecular weight in the range of 100,000-500,000 Da.

Abstract: The invention provides in a first aspect a method for controlling the content of selected component(s) in one or more polymer(s) by: (a) contacting the polymer(s) with at least one molecular sieve; and optionally (b) isolating the polymer from the molecular sieve(s).