The present application provides an injectable temperature-sensitive composite hydrogel containing adipose-derived mesenchymal stem cells, and a preparation method and application thereof. The present application includes: preparing hydroxypropyl chitin from chitin through modification, preparing a composite with collagen and sodium hyaluronic, constructing the injectable temperature-sensitive composite hydrogel, loading adipose-derived mesenchymal stem cells of New Zealand rabbit and Genipin, and finally forming in-situ the injectable temperature-sensitive composite hydrogel containing adipose-derived mesenchymal stem cells at the physiological temperature. The hydrogel prepared in the present application is of a three-dimensional porous structure, which is conducive to transferring of nutrients and metabolic waste, so as to provide an excellent microenvironment for the growth of cells, helping maintain survival rate and biological activity of the adipose-derived mesenchymal stem cells, and promoting differentiation of the adipose-derived mesenchymal stem cells into cartilage tissue, while having high mechanical strength, and thus can be widely used in cartilage tissue engineering.

A method of making infused non-demineralized cartilage particles employs the following steps: cutting or shaving cartilage tissue into cartilage particles, washing the particles, and infusing the particles with a supernatant of biologic material or a polyampholyte cryoprotectant or a combination of both to create infused particles.

The present disclosure is concerned with magneto-patterned cell-laden hydrogel materials and methods of making and using those materials. The disclosed materials are useful for, among other things, repair of tissue defects, e.g., tissue at a tissue interface such as a bone-cartilage interface.

The present disclosure aims to provide a manufacturing method of a cell structure. The manufacturing method comprises producing a coated region in which a culturing surface is coated with a temperature-responsive polymer or a temperature-responsive polymer composition, forming a droplet of a cell suspension in the coated region, and performing cell culturing in the droplet. A surface zeta potential of the coated region is 0 mV to 50 mV.

The present disclosure describes methods of treating an injury in a subject using placental tissue streamers, engineered tissue placental tissue hybrids, suture placental tissue hybrids, placental tissue patch hybrids, and tissue hybrids, and the use of these compositions to repair, treat, or support an injury or degenerative process in a subject.

A scaffold is provided which facilitates integration of both bone and cartilage at an osteochondral lesion, thereby acting as a tissue engineered interface or tissue engineered junction between the two different tissues. The method and systems for engineering this interface may be acellular or may be loaded with cells prior to use.

The present invention provides a plate-shaped cartilage comprising a plurality of pluripotent stem cell-derived cartilaginous particles integrated with one another; and a method for producing the plate-shaped cartilage, comprising step 1: producing pluripotent stem cell-derived cartilaginous particles, and step 2: culturing the cartilaginous particles under culture conditions that allow adjacent cartilaginous particles to be in contact with one another, wherein the number of the cartilaginous particles is that required to form the plate-shaped cartilage.

The present invention provides a cartilage filling system and a surgical instrument kit including the same. The cartilage filling system comprises a filling push-rod, a filling member, a filling hopper, and a filtering adapter. The filling member comprises a syringe shaped as a hollow cylinder and comprising a first end portion and a second end portion, wherein the syringe has a first inner diameter; and a grip portion provided on the syringe. The filling hopper comprises a connecting member having an outer surface penetrated by a vent hole; and a hopper member comprising a wide portion and a narrow portion and having a second inner diameter, wherein the wide portion is connected to the connecting member, the narrow portion is detachably connected to the first end portion, and the second inner diameter is gradually reduced from the wide portion to the narrow portion, at which the second inner diameter is equal to the first inner diameter. The filtering adapter has an end connected to the second end portion and an opposite end connectable to an external syringe, wherein the filtering adapter comprises a vaned supporting portion and a filter membrane.

An implant for the repair of bone and cartilage that includes a cell conductive zone that contains biopolymeric fibers and an osteoconductive zone that contains biopolymeric fibers and calcium-containing mineral particles. The biopolymeric fibers from one zone overlap with the fibers in the other zone forming a stable physical and mechanical integration of the two zones, thus conferring in vivo stability to the implant.

A resorbable scaffold for partial meniscus regeneration. The resorbable scaffold includes a polymer filament network and a matrix in the polymer filament network. The polymer filament network includes alternating layers of circumferentially-oriented filaments and radially-oriented filaments, and has a three-dimensional shape and geometry which is substantially the same as a three-dimensional shape and geometry of the resorbable scaffold.