A composition, comprising a hydrogel matrix and microparticles within said matrix, said matrix comprising a cross-linkable protein and a cross-linking agent, wherein said cross-linking agent is able to cross-link said cross-linkable protein, wherein said microparticles comprise a drug.

A composition, comprising a hydrogel matrix and microparticles within said matrix, said matrix comprising a cross-linkable protein and a cross-linking agent, wherein said cross-linking agent is able to cross-link said cross-linkable protein, wherein said microparticles comprise a drug.

The present invention relates to a hydrogel composition for tissue regeneration, and a support prepared using same. More specifically, the present invention comprises anionic polysaccharides, aminated hyaluronic acid, and collagen. The hydrogel composition comprising the ingredients, and a support prepared using same can quickly form a three-dimensional structure through spontaneous cross-linking without the addition of a common cross-linking agent in which an epoxide group or an amine group is at a single end or both ends thereof, thereby providing a structure capable of soft tissue transplants.

The present invention relates to a hydrogel composition for tissue regeneration, and a support prepared using same. More specifically, the present invention comprises anionic polysaccharides, aminated hyaluronic acid, and collagen. The hydrogel composition comprising the ingredients, and a support prepared using same can quickly form a three-dimensional structure through spontaneous cross-linking without the addition of a common cross-linking agent in which an epoxide group or an amine group is at a single end or both ends thereof, thereby providing a structure capable of soft tissue transplants.

A tissue engineering material for nerve injury repair, a preparation method therefor and an application thereof. The tissue engineering material for nerve injury repair is an N-cadherin crosslinked linear ordered collagen scaffold. By crosslinking N-cadherin with a linear ordered collagen scaffold, the prepared tissue engineering material can efficiently induce migration of neural stem cells towards an injury region so that the neural stem cells are enriched in the injury region, and can effectively inhibit deposition of inhibitory factors such as chondroitin sulfate proteoglycan, promote differentiation of the neural stem cells into neurons, and then promote recovery of electrophysiological and motion functions. The N-cadherin crosslinked linear ordered collagen scaffold also has a stable ordered topological structure and excellent mechanical properties, and can be used to repair nerve injuries such as spinal cord injury.

A tissue engineering material for nerve injury repair, a preparation method therefor and an application thereof. The tissue engineering material for nerve injury repair is an N-cadherin crosslinked linear ordered collagen scaffold. By crosslinking N-cadherin with a linear ordered collagen scaffold, the prepared tissue engineering material can efficiently induce migration of neural stem cells towards an injury region so that the neural stem cells are enriched in the injury region, and can effectively inhibit deposition of inhibitory factors such as chondroitin sulfate proteoglycan, promote differentiation of the neural stem cells into neurons, and then promote recovery of electrophysiological and motion functions. The N-cadherin crosslinked linear ordered collagen scaffold also has a stable ordered topological structure and excellent mechanical properties, and can be used to repair nerve injuries such as spinal cord injury.

A process for preparing a powder of a material of natural origin, which comprises a step of treating a substance containing at least 70% by weight of one or more leather wastes in particle form in a twin-screw extruder, wherein a temperature profile is applied that increases from an initial temperature of between 10 and 40° C. up to a maximum temperature of between 60 and 120° C., in the presence of water in an amount such that the weight ratio of water to said substance is between 0.20 and 6.

The present invention provides a composition for kidney treatment using the omentum, a medical kit for kidney treatment including the composition for kidney treatment using the omentum, and a film for kidney treatment including a cured product of the composition for kidney treatment using the omentum.

The present invention provides a composition for kidney treatment using the omentum, a medical kit for kidney treatment including the composition for kidney treatment using the omentum, and a film for kidney treatment including a cured product of the composition for kidney treatment using the omentum.

Provided herein is a method for preparing microcarrier particles, comprising the steps of allowing the dispersed phase liquid flow through a multi-hole plate at a low temperature to form liquid microspheres in a continuous phase, and enabling a synthetic polymer and/or natural biological macromolecules within the liquid microspheres to be subject to a curing reaction at a low temperature to form particles. Further provided herein are the method for preparing an emulsion and an apparatus and process system for preparing microcarrier particles, which can be used for preparing emulsions and microcarrier particles on a large scale.