A method of manufacturing a resorbable, macroporous bioactive glass scaffold comprising approximately 15-45% CaO, 30-70% SiO.sub.2, 0-25% Na.sub.2O, 0-17% P.sub.2O.sub.5, 0-10% MgO and 0-5% CaF.sub.2 by mass percent, produced by mixing with pore forming agents and specified heat treatments.

Disclosed herein is a cross-linked polymeric system comprising thiolated hyaluronic acid (HA), thiolated chondroitin sulfate (CS), and functionalized polyethylene glycol (PEG), wherein said functionalized PEG cross-links thiolated HA and thiolated CS. Methods of fabrication and utilization of the same are also claimed. This polymeric system may be used as an engineered biocompatible cellular matrix for 3D cell culture, tissue engineering and regenerative medicine applications.

The present invention relates to enhancing mechanical properties of tissue such as collagenous or collagen-containing or elastin-containing tissue (e.g., tendons, ligaments, and cartilage) and treating related musculoskeletal and non-musculoskeletal conditions or injuries.

The present invention relates to a method of providing a graft scaffold for cartilage repair, particularly in a human patient. The method of the invention comprising the steps of providing particles and/or fibres; providing an aqueous solution of a gelling polysaccharide; providing mammalian cells; mixing said particles and/or fibres, said aqueous solution of a gelling polysaccharide and said mammalian cells to obtain a printing mix; and depositing said printing mix in a three-dimensional form. The invention further relates to graft scaffolds and grafts obtained by the method of the invention.

Methods for treating tissue matrices and tissue matrices produced according to the methods are provided. The methods can include treating select portions of a tissue matrix with a fluid containing at least one agent to produce a tissue matrix with variable mechanical and/or biological properties

Compositions or an assembly of a series of biomimetic compounds include chemical structures that mimic or structurally resemble a nucleic acid base pair. Complexes of nanotubes and agents are useful to deliver agents into the cells or bodily tissues of individuals for therapeutic and diagnostic purposes. Exemplary compounds include those of Formula (I), (III), (V) or (VII), or of Formula (II), (IV), (VI) or (VIII).

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This disclosure describes bone tissues engineered from a casted bio-nanocomposite comprising chitosan crosslinked with citric acid to cellulose nanocrystals (CNC) where the amount of CNC used was as high as 29.4%. The nanocomposite showed proper characteristics of a bone mimicking structure. Different layers of the bio-nanocomposite showed an average pore size of greater than 26 micrometers in diameter; a porosity of about 90%, firm structure, maximum bioactivity as measured by deposition of calcium phosphate from simulated body fluid (SBF) solution (gaining weight more than 20% after 3 days), decreased rate of in vitro degradation in PBS (7-60 days), about 10% after 7 days, and acceptable bone cell viability (greater than 80%) in 2D and 3D cultures. The compression modulus of the bio-nanocomposites increased about 4 times and exhibited very small changes in size during the swelling process compared to control.

The present invention relates to the use of the intracellular content of mesenchymal stem cells in individuals for stimulating the survival, regeneration and/or repair of the damaged organ and/or tissue. The present invention also relates to the use of said lysate for producing a pharmaceutical composition comprising said intracellular content, and to the use thereof in the regeneration and/or repair of the damaged organ and/or tissue.

Described herewith are compositions comprising placental growth factors and methods for non-surgical, localized delivery thereof. The composition is delivered to a diseased or injured organ and/or body part and is formulated in a manner which allows for localized retention of the composition at the site of delivery.

The present invention relates to settable compositions for use in surgery. The invention also provides related compositions, including surgical kits and packages, as well as methods of making and using the settable compositions.