Abstract: A preparation method for a non-spherical hydrogel microparticle embolic agent is provided. The method includes: alternately injecting a oil phase solution and an aqeuous phase solution into an elongated channel, the aqueous phase solution contains a water-soluble polymer to be cross-linked, the aqueous phase solution has a cross-linking reaction in the elongated channel to obtain a product, which is then discharged from the elongated channel to obtain the non-spherical hydrogel microparticle embolic agent. This preparation method is simple in process, and the non-spherical hydrogel microparticle embolic agent obtained from this method has good embolization performance.

Abstract: The disclosure relates to a mixing device and a liquid mixing method. The mixing device comprises a first clamping assembly, a second clamping assembly and a driving assembly, the first clamping assembly is used for fixing a first container containing a first liquid, the second clamping assembly is used for fixing a second container containing a second liquid, the first container and the second container are in communication, the driving assembly drives the first liquid and the second liquid to flow back and forth between the first container and the second container to complete a predetermined degree of mixing to form a third liquid. The flow speed of the first liquid and the second liquid driven by the driving assembly is accurately controlled, so that an iodized oil emulsion with better physical and chemical characteristics is prepared, and an emulsion with better emulsifying effect and treatment effect is obtained.

Abstract: The presently disclosed subject matter provides compositions, methods, and kits comprising shape memory particles that can be used for delivering a drug and/or treating a disease or disorder in a patient. Specifically, shape changes in the presently disclosed shape memory particles can be used to control drug delivery spatially and/or temporally in a patient. Also provided are compositions, methods, and kits comprising nanoparticles and hypoxia-inducible factor (HIF) inhibitors with or without chemotherapeutic agents for inhibiting HIF activity in a patient and/or treating a hypoxia-associated disease or disorder.

Abstract: The presently disclosed subject matter provides compositions, methods, and kits comprising shape memory particles that can be used for delivering a drug and/or treating a disease or disorder in a patient. Specifically, shape changes in the presently disclosed shape memory particles can be used to control drug delivery spatially and/or temporally in a patient. Also provided are compositions, methods, and kits comprising nanoparticles and hypoxia-inducible factor (HIF) inhibitors with or without chemotherapeutic agents for inhibiting HIF activity in a patient and/or treating a hypoxia-associated disease or disorder.

Abstract: The present inventors employed cyclodextrins for use as a proteoglycan substitute to engineer a biomimetic collagen-based matrix composition. The resulting incorporation of cyclodextrin in the inventive collagen compositions increased collagen thermal stability and reduced collagen fibrogenesis. As a result, a thick, transparent and mechanically strong collagen-based composition was formed. This cyclodextrin-collagen composition holds a great potential to be used as a therapeutic eye patch for corneal repair. Additionally, the composition can support development of multi-layered structures, with different layers promoting different biological properties. Methods for making these inventive compositions and their use are also provided.

Abstract: The present inventors employed cyclodextrins for use as a proteoglycan substitute to engineer a biomimetic collagen-based matrix composition. The resulting incorporation of cyclodextrin in the inventive collagen compositions increased collagen thermal stability and reduced collagen fibrogenesis. As a result, a thick, transparent and mechanically strong collagen-based composition was formed. This cyclodextrin-collagen composition holds a great potential to be used as a therapeutic eye patch for corneal repair. Methods for making these inventive compositions and their use are also provided.

Abstract: The present invention provides a wound healing composition comprising a biocompatible hydrogel membrane wherein the hydrogel membrane has one or more of the following properties: high water content, high transparency, high permeability, high biocompatibility, high tensile strength and an optimal thickness. The invention further provides methods of treating a wound in a subject in need thereof, comprising contacting the wound with a biocompatible cellulose hydrogel membrane of the invention.

Abstract: The present invention provides a wound healing composition comprising a biocompatible hydrogel membrane wherein the hydrogel membrane has one or more of the following properties: high water content, high transparency, high permeability, high biocompatibility, high tensile strength and an optimal thickness. The invention further provides methods of treating a wound in a subject in need thereof, comprising contacting the wound with a biocompatible cellulose hydrogel membrane of the invention.

Abstract: The present invention provides a wound healing composition comprising a biocompatible hydrogel membrane wherein the hydrogel membrane has one or more of the following properties: high water content, high transparency, high permeability, high biocompatibility, high tensile strength and an optimal thickness. The invention further provides methods of treating a wound in a subject in need thereof, comprising contacting the wound with a biocompatible cellulose hydrogel membrane of the invention.