Artificial cartilage materials for repair and replacement of cartilage, such as load-bearing and articular cartilage. The artificial cartilage materials can include a hydrogel with an internal polymer support network that impart the hydrogel mechanical properties similar to that of natural cartilage. In some examples, the hydrogels include a cross-linked cellulose network and a double network of polyvinyl alcohol (PVA) and polyacrylamide-methyl propyl sulfonic acid (PAMPS) polymers. The hydrogels may include specific formulations of different polymers to impart mechanical properties that are within a cartilage equivalent range. The artificial cartilage materials may include a porous base that is bonded to the hydrogel for interfacing with surrounding tissues and promoting ingrowth of bone and/or cartilage. Thus, the materials may be well suited for forming a synthetic graft, such as an osteochondral graft, for implantation into a patient's body.

A cell delivery device and a method of producing a three dimensional device which is vascularized when implanted or topologically applied to human or animal body. Cell laden hydrogel (cells mixed with hydrogel) is casted or injected or 3D bioprinted in a leaf-like form, which contains removable parts (templates). After crosslinking, the templates are removed and the channel for vascularization is created. The device is ready for use in vitro or in vivo.

A cell delivery device and a method of producing a three dimensional device which is vascularized when implanted or topologically applied to human or animal body. Cell laden hydrogel (cells mixed with hydrogel) is casted or injected or 3D bioprinted in a leaf-like form, which contains removable parts (templates). After crosslinking, the templates are removed and the channel for vascularization is created. The device is ready for use in vitro or in vivo.

A cell delivery device and a method of producing a three dimensional device which is vascularized when implanted or topologically applied to human or animal body. Cell laden hydrogel (cells mixed with hydrogel) is casted or injected or 3D bioprinted in a leaf-like form, which contains removable parts (templates). After crosslinking, the templates are removed and the channel for vascularization is created. The device is ready for use in vitro or in vivo.

Disclosed are various bioactive grafts and methods of making the same. In one embodiment, bone material is harvested from a donor. The harvested bone material is exposed to a lysing agent, the lysing agent configured to release growth factors and bioactive materials from cellular material of the harvested bone material. The harvested bone material is then rinsed with a rinsing agent. The pH of the harvested bone material is substantially neutralized.

Disclosed are various bioactive grafts and methods of making the same. In one embodiment, bone material is harvested from a donor. The harvested bone material is exposed to a lysing agent, the lysing agent configured to release growth factors and bioactive materials from cellular material of the harvested bone material. The harvested bone material is then rinsed with a rinsing agent. The pH of the harvested bone material is substantially neutralized.

Disclosed are various bioactive grafts and methods of making the same. In one embodiment, bone material is harvested from a donor. The harvested bone material is exposed to a lysing agent, the lysing agent configured to release growth factors and bioactive materials from cellular material of the harvested bone material. The harvested bone material is then rinsed with a rinsing agent. The pH of the harvested bone material is substantially neutralized.

Disclosed herein are functionalized hyaluronic acid (HA), a responsive elastic polymer system comprising functionalized HA, and methods of fabrication and utilization of the same. This polymer system may be used for controlled local or systemic drug delivery release of analgesics, anesthetics, antibiotics and other drugs as well as tissue engineering articles.

Disclosed herein are functionalized hyaluronic acid (HA), a responsive elastic polymer system comprising functionalized HA, and methods of fabrication and utilization of the same. This polymer system may be used for controlled local or systemic drug delivery release of analgesics, anesthetics, antibiotics and other drugs as well as tissue engineering articles.

The present invention concerns a method to prepare a filler with a hyaluronic acid, which has improved properties of chemical-physical stability over time and optimal viscosity for cutaneous injection. In particular the method comprises a first step in which the hyaluronic acid is crosslinked, and a subsequent step for the neutralization and hydration of the crosslinked hyaluronic acid.