Abstract: A bulk-acoustic wave (BAW) resonator includes a central portion in which a first electrode, a piezoelectric layer, and a second electrode are sequentially stacked on a substrate, and an extension portion extending externally from the central portion, and an insertion layer and a loss prevention film are disposed in the extension portion between the substrate and the second electrode. The loss prevention film is formed to have a thickness of 50 ? to 500 ?. The insertion layer is stacked on the loss prevention film, and has a side surface opposing the central portion, the side surface is formed as a first inclined surface having a first inclination angle. The loss prevention film has a side surface opposing the central portion, the side surface is formed as a second inclined surface having a second inclination angle. The second inclination angle is formed to be greater than the first inclination angle.

Abstract: The present invention relates to a bio-ink composition for bio-printing comprising a polymer into which methacrylate is introduced, a crosslinking agent having 1-10 acrylate functional groups, and a photoinitiator; a method for preparing same; and a printing biological structure for controlling physical properties using same. The bio-ink composition for bio-printing prepared according to the present invention can be implanted in vivo and has a very high degree of biocompatibility or cell viability. In addition, the bio-ink composition of the present invention can be effectively utilized for bio-printing because a biological structure can be produced that is capable of controlling physical properties or in vivo application even when irradiated with light for a short period of time.

Abstract: 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.

Abstract: A drug delivery formulation for treating a mental illness or a central nervous system disorder is disclosed. The drug delivery formulation includes a microcapsule containing a biodegradable polymer and a drug and a crosslinked hydrogel and a method for preparing the same. The drug delivery formulation can slowly release a drug at a constant rate without a burst of drug release in the early stage of drug administration to maintain a constant blood drug level over a long period of time and thus enjoys the advantage of preventing excessive initial release of drug, thereby obtaining a desirable sustained release profile by single administration without necessity for multiple administrations divided at regular time intervals.

Abstract: A substance P analog having a progenitor cell or stem cell recruiting activity and a method of recruiting progenitor cells or stem cells using the substance P analog are disclosed. The substance P analog has an effect of recruiting endogenous progenitor cells or stem cells to a wound or disease-occurring site. Thus, the disclosure also describes its use in recruiting progenitor cells or stem cells and a method of regenerating or treating a damaged organ or tissue, or a method of healing a wound.

Abstract: The present invention relates to an injection formulation composition for use as a filler or a drug carrier through a click chemistry reaction. More specifically, the present invention relates to an injection formulation composition comprising: a first liquid comprising a first biopolymer having a first click chemistry functional group introduced thereinto; and a second liquid comprising a second biopolymer having a second click chemistry functional group introduced thereinto, wherein the first click chemistry functional group is chemically linkable with the second click chemistry functional group, to a method for preparing an injection formulation hydrogel using the composition, and to a medical filler, an in-vivo injection type supporter, or a drug carrier using the composition.

Abstract: The present invention provides a two-component bioink including a first solution and a second solution separately, wherein (i) the first solution includes a first biopolymer to which a first chemical functional group is introduced, and the second solution includes a second biopolymer to which a second chemical functional group able to chemically bond with the first chemical functional group is introduced; or (ii) the first solution includes a third biopolymer having a first electrostatic functional group, and the second solution includes a fourth biopolymer having a second electrostatic functional group able to physically bond with the first electrostatic functional group, a 3D biomaterial including the same, and a method for preparing the same.

Abstract: A substance P analog having a progenitor cell or stem cell recruiting activity and a method of recruiting progenitor cells or stem cells using the substance P analog are disclosed. The substance P analog has an effect of recruiting endogenous progenitor cells or stem cells to a wound or disease-occurring site. Thus, the disclosure also describes its use in recruiting progenitor cells or stem cells and a method of regenerating or treating a damaged organ or tissue, or a method of healing a wound.

Abstract: A drug delivery formulation for treating a mental illness or a central nervous system disorder is disclosed. The drug delivery formulation includes a microcapsule containing a biodegradable polymer and a drug and a crosslinked hydrogel and a method for preparing the same. The drug delivery formulation can slowly release a drug at a constant rate without a burst of drug release in the early stage of drug administration to maintain a constant blood drug level over a long period of time and thus enjoys the advantage of preventing excessive initial release of drug, thereby obtaining a desirable sustained release profile by single administration without necessity for multiple administrations divided at regular time intervals.

Abstract: Provided is a drug delivery system for control of initial burst of a drug. More particularly, there are provided a drug delivery formulation including: a granule containing a biodegradable polymer and a drug; and a temperature-sensitive hydrogel, and a method for preparing the same. The presently disclosed drug delivery formulation can be prepared via a relatively simple process and allows a drug to be released slowly at a constant rate without initial burst and thus maintains a constant blood level of the drug for a long period of time. Consequently, it is capable of preventing the initial burst of the existing injection-type drug delivery formulations and slow-release granules and providing a desired release profile, including sustained release with time.

Abstract: The present invention provides a two-component bioink including a first solution and a second solution separately, wherein (i) the first solution includes a first biopolymer to which a first chemical functional group is introduced, and the second solution includes a second biopolymer to which a second chemical functional group able to chemically bond with the first chemical functional group is introduced; or (ii) the first solution includes a third biopolymer having a first electrostatic functional group, and the second solution includes a fourth biopolymer having a second electrostatic functional group able to physically bond with the first electrostatic functional group, a 3D biomaterial including the same, and a method for preparing the same.

Abstract: Disclosed are a method for preparing an intermediate for producing high-purity pemetrexed and a method for producing high-purity pemetrexed using the intermediate, and more specifically, a method for preparing pemetrexed diethyl ester, which is an intermediate for producing pemetrexed, or a salt thereof with high purity, and to a method for producing pemetrexed disodium salt with high purity using the intermediate.

Abstract: The present invention relates to a novel method for preparing cabazitaxel from 10-deacetylbaccatin III, and a novel intermediate therefor, and more specifically, to: a method which allows cabazitaxel to be more easily prepared in a high yield and in a high purity within a short time compared with a conventional method by preparing cabazitaxel via a novel intermediate using 10-deacetylbaccatin III as a starting material, and thus is suitable for industrial mass production; and a novel intermediate therefor.

Abstract: The present invention relates to a novel method for preparing cabazitaxel from 10-deacetylbaccatin III, and a novel intermediate therefor, and more specifically, to: a method which allows cabazitaxel to be more easily prepared in a high yield and in a high purity within a short time compared with a conventional method by preparing cabazitaxel via a novel intermediate using 10-deacetylbaccatin III as a starting material, and thus is suitable for industrial mass production; and a novel intermediate therefor.

Abstract: The present invention relates to preparation and application of a temperature-sensitive polyethylene glycol/polyester block copolymer having a bioactive functional group introduced into a side chain thereof. More specifically, it relates to a temperature-sensitive polyethylene glycol/polyester block copolymer including a lactide segment having a bioactive functional group introduced into a side chain thereof and a method for preparing same. The temperature-sensitive polyethylene glycol/polyester block copolymer according to the present invention having a bioactive functional group introduced into a side chain thereof can be widely used as a drug delivery system, a support for tissue engineering, an adhesion inhibitor, etc.

Abstract: The present invention relates to a method for preparing a biocompatible small intestinal submucosa hydrogel with a controllable in-vivo degradation period, more particularly to a method for preparing a small intestinal submucosa hydrogel which is formed in a solution phase by forming chemical crosslinkages by solubilizing a biocompatible small intestinal submucosa powder and allows the degradation period of a gel formed during in-vivo injection by controlling the degree of crosslinking and a method for preparing a small intestine submucosa drug carrier or a small intestine submucosa support using the hydrogel.

Abstract: Provided is a method for preparing a taxane derivative, comprising: carrying out condensation of a phenylisoserine derivatives having a protective group introduced thereto or a mixture of isomers thereof, as a side chain, with a baccatin III derivative or 10-deacetyl-baccatin III derivative to obtain a mixture of isomers; separating the isomers via chromatography; and carrying out a reversion of the stereochemical structure of a selectively separated isomer, which is suitable for producing a taxane derivative in a large scale with high yield.

Abstract: The present invention relates to preparation and application of a temperature-sensitive polyethylene glycol/polyester block copolymer having a bioactive functional group introduced into a side chain thereof. More specifically, it relates to a temperature-sensitive polyethylene glycol/polyester block copolymer including a lactide segment having a bioactive functional group introduced into a side chain thereof and a method for preparing same. The temperature-sensitive polyethylene glycol/polyester block copolymer according to the present invention having a bioactive functional group introduced into a side chain thereof can be widely used as a drug delivery system, a support for tissue engineering, an adhesion inhibitor, etc.

Abstract: A method for preparing highly pure anhydrous crystalline docetaxel is provided. The method for preparing highly pure anhydrous crystalline docetaxel enables preparation of anhydrous crystalline docetaxel that has purity of 99.5% or more, and is useful as an anticancer agent due to remarkably low residual solvent content compared to the standard of residual solvents in drugs.

Abstract: A method for preparing highly pure anhydrous crystalline docetaxel is provided. The method for preparing highly pure anhydrous crystalline docetaxel enables preparation of anhydrous crystalline docetaxel that has purity of 99.5% or more, and is useful as an anticancer agent due to remarkably low residual solvent content compared to the standard of residual solvents in drugs.