Abstract: A biodegradable dental preparation comprising at least one water-soluble fiber from hyaluronic acid or a physiologically acceptable salt thereof and at least one fiber from a non-polar derivative of hyaluronic acid is disclosed. The dental preparation may comprise an antimicrobial agent. The dental preparation may be useful in the treatment of periodontal disease or in the treatment of injuries in the periodontium and oral mucosa. Methods of preparing the dental preparations, fibers thereof, and related compositions thereto, are also disclosed.

Abstract: An antimicrobial composition is provided. The composition comprises a chloramid of hyaluronic acid or of modified hyaluronic acid. The chloramid has an amidic group (—NH—CO—). The hydrogens of the amidic group are substituted by chlorine atoms according to the structural formula —NCl—CO—. The composition further comprises an iodide. The substitution degree of the hyaluronic acid or of the modified hyaluronic acid by chlorine is in an amount of from 50% to 100%.

Abstract: A chlorinated derivative of hyaluronic acid or of a modified hyaluronic acid (chloramide) is provided. The chloramide has an amidic group (—NH—CO—). The hydrogen of the amidic group is substituted by a chlorine atom, according to the structural formula —NCl—CO—. The substitution degree of the hyaluronic acid or of the modified hyaluronic acid by chlorine is in an amount of from 50 to 100 %.

Abstract: An antimicrobial composition is provided. The composition comprises a chloramid of hyaluronic acid or of modified hyaluronic acid. The chloramid has an amidic group (—NH—CO—). The hydrogens of the amidic group are substituted by chlorine atoms according to the structural formula —NCl—CO—. The composition further comprises an iodide. The substitution degree of the hyaluronic acid or of the modified hyaluronic acid by chlorine is in an amount of from 50% to 100%.

Abstract: A chlorinated derivative of hyaluronic acid or of a modified hyaluronic acid (chloramide) is provided. The chloramide has an amidic group (—NH—CO—). The hydrogen of the amidic group is substituted by a chlorine atom, according to the structural formula —NCl—CO—. The substitution degree of the hyaluronic acid or of the modified hyaluronic acid by chlorine is in an amount of from 50 to 100 %.

Abstract: The invention discloses a method of preparation of crosslinked materials based on polysaccharides using electromagnetic radiation in an aqueous solution containing a polysaccharide with a bound carbamate photoremovable protecting group (PPG with group —NH—CO—O—) and a polysaccharide containing an aldehyde group —CHO. The crosslinking process itself is carried out by means of a condensation reaction of the photochemically released amino group (—NH2) with the aldehyde group (—CHO) forming a bond of imine type (—N?CH—). Both processes proceed simultaneously and they can be performed under physiological conditions. The advantage of the suggested solution is the temporal and spatial control of crosslinking that allows the preparation of advanced materials for tissue engineering where the crosslink density and thus the mechanical properties in the material structure can be tailored.

Abstract: A composition having antimicrobial activity is provided. The composition comprises a polysaccharide, a stabilizer, and a triiodide, where the triiodide decomposition to iodide and volatile iodine can be significantly suppressed by the presence of the stabilizer. Methods of preparing and using the composition and devices prepared therewith are also disclosed. As compared to liquid forms comprising triiodide, stabilized solid forms can be used for a much wider range of applications due to their shape stability and a significantly smaller volume and weight of total material.

Abstract: The invention relates to the preparation of new polysaccharide derivatives comprising a double bond in the positions 4 and 5 of the pyranose cycle. The method of preparation consists in the oxidation of OH group in the position 6 to an aldehyde, followed by the elimination to form a double —C?C— bond in the positions 4 and 5, and the final reduction of the aldehyde group in the position 6 into the original alcohol. The derivatives of polysaccharides prepared according to the invention show an enhanced antioxidant activity and some of them also a selective negative influence on carcinoma cell viability. (formula) where R represents —NH—CO—CH3 or —OH.

Abstract: The invention relates to the preparation and the use of ?,?-unsaturated aldehydes in the structure of sulfated polysaccharides. It concerns the derivatives with a conjugated double bond in the 4th and 5th positions of the galactopyranose part situated in the 6th position with respect to the aldehyde, according to the general structural formula (I) or its hydrated form according to the general structural formula (II). The preparation of these derivatives derives from sulfated polysaccharides containing a galactopyranose ring sulfated in the 4th position that is bound in the polymer chain via ?(1?3) or ?(1?3) O-glycosidic bond. In the described solution, the sulfated polysaccharides undergo a regio- and chemoselective oxidation to form C6-saturated aldehyde, which, via a direct elimination of the sulfate group, provides the ?,?-unsaturated derivative according to the general formula (I) or (II).

Abstract: The invention relates to the preparation of new polysaccharide derivatives comprising a double bond in the positions 4 and 5 of the pyranose cycle. The method of preparation consists in the oxidation of OH group in the position 6 to an aldehyde, followed by the elimination to form a double —C?C— bond in the positions 4 and 5, and the fmal reduction of the aldehyde group in the position 6 into the original alcohol. The derivatives of polysaccharides prepared according to the invention show an enhanced antioxidant activity and some of them also a selective negative influence on carcinoma cell viability. (formula) where R represents —NH—CO—CH3 or —OH.

Abstract: The invention relates to conjugates of hyaluronic acid oligomer according to the general formulae I, II III or IV, or a salt thereof, the method of preparation thereof and use thereof, where the oligomer is bonded to the respective substrate by its ending anomeric center via a bi-functional amino linker by means of an amino or imino bond. This type of conjugates allows releasing oligomers in their native form. The prepared systems exhibited an enhanced biological activity against selected lines of cancer cells.

Abstract: The invention discloses a method of preparation of crosslinked materials based on polysaccharides using electromagnetic radiation in an aqueous solution containing a polysaccharide with a bound carbamate photoremovable protecting group (PPG with group —NH—CO—O—) and a polysaccharide containing an aldehyde group —CHO. The crosslinking process itself is carried out by means of a condensation reaction of the photochemically released amino group (—NH2) with the aldehyde group (—CHO) forming a bond of imine type (—N?CH—). Both processes proceed simultaneously and they can be performed under physiological conditions. The advantage of the suggested solution is the temporal and spatial control of crosslinking that allows the preparation of advanced materials for tissue engineering where the crosslink density and thus the mechanical properties in the material structure can be tailored.

Abstract: The invention relates to the preparation and the use of ?,?-unsaturated aldehydes in the structure of sulfated polysaccharides. It concerns the derivatives with a conjugated double bond in the 4th and 5th positions of the galactopyranose part situated in the 6th position with respect to the aldehyde, according to the general structural formula (I) or its hydrated form according to the general structural formula (II). The preparation of these derivatives derives from sulfated polysaccharides containing a galactopyranose ring sulfated in the 4th position that is bound in the polymer chain via ?(1?3) or ?(1?3) O-glycosidic bond. In the described solution, the sulfated polysaccharides undergo a regio- and chemoselective oxidation to form C6-saturated aldehyde, which, via a direct elimination of the sulfate group, provides the ?,?-unsaturated derivative according to the general formula (I) or (II).

Abstract: The invention relates to conjugates of hyaluronic acid oligomer according to the general formulae I, II III or IV, or a salt thereof, the method of preparation thereof and use thereof, where the oligomer is bonded to the respective substrate by its ending anomeric center via a bi-functional amino linker by means of an amino or imino bond. This type of conjugates allows releasing oligomers in their native form. The prepared systems exhibited an enhanced biological activity against selected lines of cancer cells.

Abstract: The invention relates to the preparation and use of ?,?-unsaturated aldehyde of hyaluronan having a double bond in the positions 4 and 5 and an aldehydic group in the position 6 of the glucosamine part of the polysaccharide. The method of preparation is based on dehydration of hyaluronan having an aldehydic group in the position 6 of the glucosamine part of the polysaccharide. Two methods have been described, which are dehydration in a solution or heating in solid state in absence of solvents, bases or other additives. This derivative allows stabilization of conjugates of hyaluronan with amino compounds by means of a multiple bond from the aldehyde side, and therefore, it is possible to effectively immobilize practically any compound containing an amino group to such modified hyaluronan in physiological conditions. In case of using a diamine or compounds or polymers containing three or more amino groups, it is possible to prepare crosslinked hyaluronan derivatives.

Abstract: The invention relates to a new method of preparation of a hyaluronan derivative with an aldehydic group in the position (6) of the polysaccharide glucosamine part. The hyaluronic acid oxidation can be performed by means of TEMPO/NaCIO or TEMPO/TCC systems in a protic environment with or without the presence of anorganic salts. Thus prepared aldehyde can be used for binding amines, diamines, amino acids, peptides and other compounds containing an amino group, e.g. by means of the reductive amination with NaBH3CN in water or in a water-organic solvent system. When a diamine or compounds containing three or more amino groups are used, cross-linked hyaluronan derivatives can be prepared. Cross-linked derivatives can be also prepared by a reaction of the aldehyde with a hyaluronan substituted by an amino-alkyl group HA-alkyl-NH2.

Abstract: The invention relates to a hyaluronic acid derivative and methods of preparation and modification of a hyaluronan derivative with an aldehydic group in the position (6) of the polysaccharide glucosamine part. The oxidation of the hyaluronic acid can be performed by means of Dess-Martin periodinane (DMP) agent. The prepared aldehyde can be used for binding amine, diamine, amino acid, peptide and other compounds containing an amino group, e.g. by means of the reductive amination with NaBH3CN in water or in a water-organic solvent system. When a diamine or compounds containing three or more amino groups are used, cross-linked hyaluronan derivatives can be prepared. Cross-linked derivatives can also be prepared by the reaction of the aldehyde with a hyaluronan substituted by an amino-alkyl group HA-alkyl-NH2.

Abstract: The invention relates to the biodegradable fibres which are based on hydrophobic derivatives of hylauronan, specifically on the base of the hyaluronan derivative C11-C18-acylated on hydroxyl groups of hyaluronic acid, and use thereof. Further the invention relates to the preparation of these fibres which is performed with the use of the wet spinning method in a coagulation bath comprising water solution of organic acid, with the production of continuous monofiles which can be thereafter processed to threads and further to textiles, knitted textiles, or nonwoven textiles. These textiles, knitted textiles or nonwoven textiles can be used for example for the production of implantable surgical material for human and veterinary medicine.

Abstract: The present invention relates to the preparation of textile processable endless monofilaments and multifilaments on the basis of hyaluronan which has been selectively oxidized to aldehyde in the position 6 of its/V-acetyl-D-glucosamine group and to the subsequent modification of such filaments with low molecular dihydrazides. The fibres as well as the fabrics, which are subsequently prepared from the former, exhibit a time-varying solubility in saline depending on the external modification of the fibres. After having been externally modified, the fibres as well as the fabrics exhibit a prolong period of transition into an evenly distributed gel layer. The externally modified fibrous materials retain their full biocompatibility.

Abstract: The subject-matter of the invention is a photoreactive derivative of hyaluronic acid (formula I) and the method of preparation thereof, where first an aldehyde derivative of hyaluronic acid is prepared, oxidized in the position 6 of the glucosamine cycle and then the oxidized derivative reacts with an amine carrying a photoreactive species, for example 1-(2-aminoethyl)pyridine-2(1H)-one, in the presence of a reducing agent, forming a photoreactive derivative. The prepared photoreactive derivative may be then photocrosslinked, wherein the reaction is based on [4+4] photocycloaddition.