The present invention relates to an injectable hydrogel composition having the recruitment of endogenous progenitors or stem cells and the induction of vascular differentiation of recruited cells, and more specifically to an injectable hydrogel composition having the recruitment of endogenous progenitors or stem cells and the induction of vascular differentiation of recruited cells, which consists of: a first solution including anionic hyaluronic acid into which a vascular differentiation inducing factor is introduced; and a second solution including a cationic material, wherein a stem cell recruitment factor is further included in the first solution and/or the second solution, and wherein a hydrogel is formed by electrostatic interaction.

In the hydrogel composition of the present invention, it was confirmed that the stem cell recruitment factor was released from the injected hydrogel, and endogenous progenitor cells/stem cells were recruited in the hydrogel, and the induction of angiogenesis was promoted by differentiating into vascular cells by the vascular differentiation inducing factor chemically introduced into hyaluronic acid. In particular, it was confirmed that when the vascular differentiation inducing factor was chemically introduced into hyaluronic acid, a high angiogenesis-inducing effect was observed. Therefore, the hydrogel composition of the present invention has excellent recruitment of endogenous progenitor cells/stem cells and induction of vascular differentiation, and thus, it can be effectively applied to various tissue regenerations and wound treatments in addition to the formation of blood vessels.

The present invention relates to an injectable hydrogel composition having the recruitment of endogenous progenitors or stem cells and the induction of vascular differentiation of recruited cells, and more specifically to an injectable hydrogel composition having the recruitment of endogenous progenitors or stem cells and the induction of vascular differentiation of recruited cells, which consists of: a first solution including anionic hyaluronic acid into which a vascular differentiation inducing factor is introduced; and a second solution including a cationic material, wherein a stem cell recruitment factor is further included in the first solution and/or the second solution, and wherein a hydrogel is formed by electrostatic interaction.

In the hydrogel composition of the present invention, it was confirmed that the stem cell recruitment factor was released from the injected hydrogel, and endogenous progenitor cells/stem cells were recruited in the hydrogel, and the induction of angiogenesis was promoted by differentiating into vascular cells by the vascular differentiation inducing factor chemically introduced into hyaluronic acid. In particular, it was confirmed that when the vascular differentiation inducing factor was chemically introduced into hyaluronic acid, a high angiogenesis-inducing effect was observed. Therefore, the hydrogel composition of the present invention has excellent recruitment of endogenous progenitor cells/stem cells and induction of vascular differentiation, and thus, it can be effectively applied to various tissue regenerations and wound treatments in addition to the formation of blood vessels.

The present invention relates to a method of filling different two-kinds of multiple inks into an ink extruding member for a three-dimensional print and a method of three-dimensional printing using the filled ink, and relates to a three-dimensional printing method using multiple inks comprising a step of applying pressure to the retained multiple inks and extruding it into a single extruding port of the extruding part to prepare an ink extruded product and printing the ink extruded product.

The present invention relates to a method of filling different two-kinds of multiple inks into an ink extruding member for a three-dimensional print and a method of three-dimensional printing using the filled ink, and relates to a three-dimensional printing method using multiple inks comprising a step of applying pressure to the retained multiple inks and extruding it into a single extruding port of the extruding part to prepare an ink extruded product and printing the ink extruded product.

The present invention concerns a method to prepare a filler with a hyaluronic acid, which has improved properties of chemical-physical stability over time and optimal viscosity for cutaneous injection. In particular the method comprises a first step in which the hyaluronic acid is crosslinked, and a subsequent step for the neutralization and hydration of the crosslinked hyaluronic acid.

The present invention concerns a method to prepare a filler with a hyaluronic acid, which has improved properties of chemical-physical stability over time and optimal viscosity for cutaneous injection. In particular the method comprises a first step in which the hyaluronic acid is crosslinked, and a subsequent step for the neutralization and hydration of the crosslinked hyaluronic acid.

The present invention concerns a method to prepare a filler with a hyaluronic acid, which has improved properties of chemical-physical stability over time and optimal viscosity for cutaneous injection. In particular the method comprises a first step in which the hyaluronic acid is crosslinked, and a subsequent step for the neutralization and hydration of the crosslinked hyaluronic acid.

The present invention concerns a method to prepare a filler with a hyaluronic acid, which has improved properties of chemical-physical stability over time and optimal viscosity for cutaneous injection. In particular the method comprises a first step in which the hyaluronic acid is crosslinked, and a subsequent step for the neutralization and hydration of the crosslinked hyaluronic acid.

A thiol-modified hyaluronan, wherein the thiol-modified hyaluronan comprises a plurality of modification groups with a thiol-group in the hyaluronan side-chains, wherein the modification group comprises an amino acid residue with basic side chain and a conjugated terminal naturally occurring amino-thiol as well as a sterile hydrogel composition comprising a crosslinked polymer, wherein the crosslinked polymer is an oxidation product of the thiol-modified hyaluronan and uses of the composition.

A thiol-modified hyaluronan, wherein the thiol-modified hyaluronan comprises a plurality of modification groups with a thiol-group in the hyaluronan side-chains, wherein the modification group comprises an amino acid residue with basic side chain and a conjugated terminal naturally occurring amino-thiol as well as a sterile hydrogel composition comprising a crosslinked polymer, wherein the crosslinked polymer is an oxidation product of the thiol-modified hyaluronan and uses of the composition.