Abstract: The present invention relates to fatty acid-modified polymer nanoparticles, and a use thereof. In the present invention, nanoparticles having embedded calcium carbonate crystals can be formed using a biocompatible polymer and an adipocyte-targeting ligand (a fatty acid) to minimize delivery to surrounding cells and tissues other than adipocytes and maximize the embedding of the nanoparticles into adipocytes. The nanoparticles according to the present invention can be produced as an injectable preparation, and can be applied to local lipolysis supplements or diet and beauty products that break down localized fat.

Abstract: The present invention relates to a gas-generating micelle for reducing localized fat. In the present invention, by forming a micelle using a material having high biocompatibility and also introducing a cell-targeting ligand (peptide) onto the surface of the micelle, delivery to surrounding cells and tissues other than adipocytes can be minimized, and delivery into adipocytes can be maximized. The gas-generating micelle for reducing localized fat according to the present invention can be produced as an injectable preparation, and can be applied to local lipolysis supplements or diet beauty products that break down localized fat.

Abstract: Disclosed is a double-crosslinked self-healing hydrogel having excellent mechanical properties and stability and self-healing properties. More particularly, the hydrogel can be injected into the body due to excellent mechanical properties and stability thereof, and thus, can be used as a hydrogel for drug and cell delivery.

Abstract: The present invention relates to a gas-generating micelle prepared by coupling a polyethylene glycol derivative and an alkyl chloroformate. The gas-generating micelles according to the present invention are circulated in the body and deposited on the disease site to generate carbon dioxide, and thus a more enhanced ultrasonic diagnostic image can be obtained.

Abstract: The present invention relates to an intranasal pharmaceutical composition comprising anticancer drug-containing nanoparticles for treating brain diseases. More specifically, the anticancer drug-containing nanoparticles are nasally administered to deliver the anticancer drug to only brain cells, thereby increasing therapeutic effects on brain tumor and reducing cytotoxicity to normal cells by an organic solvent used in the conventional delivery of the anticancer drug.

Abstract: Disclosed are gas-generating nanoparticles comprising fine-grained calcium carbonate crystals and a biocompatible polymer, the fine-grained calcium carbonate crystals being encapsulated inside the biocompatible polymer, and the diagnosis and treatment of diseases can be effectively performed at the same time by using a composition of the present disclosure.

Abstract: The present invention relates to glucose-responsive hyaluronic acid nanoparticles having boronic acid compounds chemically bonded thereto, and a composition including the same. When the nanoparticles according to the present invention are used, cancer may be diagnosed and treated using a cancer cell-specific biological mechanism, without the use of existing contrast agents and anticancer agents which have the problem of toxicity.

Abstract: The present invention relates to glucose-responsive hyaluronic acid nanoparticles having boronic acid compounds chemically bonded thereto, and a composition including the same. When the nanoparticles according to the present invention are used, cancer may be diagnosed and treated using a cancer cell-specific biological mechanism, without the use of existing contrast agents and anticancer agents which have the problem of toxicity.

Abstract: The present invention relates to a gas-generating micelle prepared by coupling a polyethylene glycol derivative and an alkyl chloroformate. The gas-generating micelles according to the present invention are circulated in the body and deposited on the disease site to generate carbon dioxide, and thus a more enhanced ultrasonic diagnostic image can be obtained.

Abstract: Disclosed are glucose-sensitive nanoparticles which includes a phenylboronic acid derivative and a biocompatible polymer, and is prepared as an amphiphilic conjugate having chemical binding between the phenylboronic acid derivative and the biocompatible polymer. The use of the composition can effectively collect glucose in the cancer tissue, thereby simultaneously performing diagnosis and therapy of cancer.

Abstract: Disclosed are glucose-sensitive nanoparticles which includes a phenylboronic acid derivative and a biocompatible polymer, and is prepared as an amphiphilic conjugate having chemical binding between the phenylboronic acid derivative and the biocompatible polymer. The use of the composition can effectively collect glucose in the cancer tissue, thereby simultaneously performing diagnosis and therapy of cancer.

Abstract: Disclosed are gas-generating nanoparticles comprising fine-grained calcium carbonate crystals and a biocompatible polymer, the fine-grained calcium carbonate crystals being encapsulated inside the biocompatible polymer, and the diagnosis and treatment of diseases can be effectively performed at the same time by using a composition of the present disclosure.

Abstract: The present invention provides an ionically cross-linkable alginate-grafted hyaluronate compound containing alginate and hyaluronate, the alginate and the hyaluronate forming a covalent linkage. The use of the compound can easily provide a cross-linked hyaluronate by adding a divalent cation without using a chemical cross-linking agent. The present invention also provides a method for cell transplantation that includes preparing a composition comprising the compound of claim 1 and cells for transplantation, and administering to a subject in need thereof the composition.

Abstract: A hydrogel composition and methods of preparing and using the same are disclosed. The hydrogel composition comprises an oxidized polysaccharide, and a cross-linker having at least two functional cross-linking groups. The cross-linker reversibly cross-links the polysaccharide and is provided in an amount to provide dangling cross-linkers. The method of preparing a hydrogel comprises the steps of providing an oxidized polysaccharide, and providing a cross-linker having at least two functional cross-linking groups. The cross-linker is mixed with the polysaccharide at a concentration of the cross-linker sufficient to form a hydrogel wherein the cross-linker reversibly cross-links the polysaccharide and has dangling cross-linkers. The hydrogels are useful, for example, for tissue engineering, cell transplantation and drug delivery applications.

Abstract: A method for drug delivery and polymer matrix suited to the method are disclosed. The polymer matrix has reversibly bound thereto a drug or combination of drugs, and is capable of releasing the drug or combination of drugs in response to mechanical stimulation of the polymer matrix. According to the method of this invention, such a polymer matrix is delivered to an in vivo locus, for example the site of a wound, trauma, etc., and mechanical stimulation of said polymer matrix is effected in vivo, thereby releasing the drug or combination of drugs in the area of the in vivo locus.

Abstract: A method for drug delivery and polymer matrix suited to the method are disclosed. The polymer matrix has reversibly bound thereto a drug or combination of drugs, and is capable of releasing the drug or combination of drugs in response to mechanical stimulation of the polymer matrix. According to the method of this invention, such a polymer matrix is delivered to an in vivo locus, for example the site of a wound, trauma, etc., and mechanical stimulation of said polymer matrix is effected in vivo, thereby releasing the drug or combination of drugs in the area of the in vivo locus.