Irradiated agarose gels and compositions containing irradiated agarose gels are described, along with methods of production and use. Methods of forming an irradiated agarose composition include irradiating an agarose in dry form to produce an irradiated agarose, dissolving the irradiated agarose in a solvent to form a solution containing irradiated agarose, and gelling the solution containing irradiated agarose to form a gel containing irradiated agarose. The resulting gel containing irradiated agarose may have a reduced gel strength, making it more suitable for use as an injectable, even at high concentrations.

The present invention relates to a method for preparing a porous scaffold for tissue engineering. It is another object of the present invention to provide a porous scaffold obtainable by the method as above described, and its use for tissue engineering, cell culture and cell delivery. The method of the invention comprises the steps consisting of: a) preparing an alkaline aqueous solution comprising an amount of at least one polysaccharide, an amount of a cross-linking agent and an amount of a porogen agent b) transforming the solution into a hydrogel by placing said solution at a temperature from about 4 C. to about 80 C. for a sufficient time to allow the cross-linking of said amount of polysaccharide and c) submerging said hydrogel into an aqueous solution d) washing the porous scaffold obtained at step c).

Embodiments of the present invention are directed to kits, compositions and methods for modifying and altering poly-saccharide fillers and drug delivery systems with the application of hyaluronidase

Spheroidal polymer beads having a uniform size are prepared by polymerizing uniformly sized monomer droplets formed by dispersing a polymerizable monomer phase over double-walled cylindrical cross-flow membrane into an suspension phase. A shear force is provided at a point of egression of the polymerizable monomer phase into the suspension phase, the direction of shear substantially perpendicular to the direction of egression of the monomer phase. The membrane is metallic and includes a superhydrophobic coating.

The bioplastic composition comprises: at least one seaweed extract in a concentration by weight comprised between 30% and 80% with respect to the weight of the bioplastic composition; water in a concentration by weight comprised between 1% and 30% with respect to the weight of the bioplastic composition; at least four additives present in a total concentration by weight comprised between 20% and 70% with respect to the weight of the bioplastic composition; wherein the additives comprise at least one plasticizer, at least one antimicrobial agent, at least one gelling agent and at least one adjuvant.

Compositions and methods for the selective sequestration of metal ions are generally described.

A method of forming a hybrid physically and chemically cross-linked double-network hydrogel with highly recoverable and mechanical properties in a single-pot synthesis is provided. The method comprises the steps of combining the hydrogel precursor reactants into a single pot. The hydrogel precursor reactants include water; a polysaccharide; a methacrylate monomer; an ultraviolet initiator; and a chemical crosslinker. Next the hydrogel precursor reactants are heated to a temperature higher than the melting point of the polysaccharide and this temperature is retained until the polysaccharide is in a sol state. Then the single-pot is cooled to a temperature lower than the gelation point of the polysaccharide and this temperature is retained to form a first network. Thereafter, photo-initiated polymerization of the methacrylate monomer occurs via the ultraviolet initiator to form the second network.

Disclosed herein are embodiments of compounds, conjugates, and devices, such as columns comprising such compounds and/or conjugates, that can be used to identify, separate, and quantify post-translationally modified analytes. The disclosed compounds and conjugates can be used to discriminate between analytes, such as peptides, having different post-translation modifications, such as methylations, phosphorylations, acetylations, citrullinations, hydroxylations, nitrosylations, ADP-ribosylations, glycosylations, propionylations, butyrylations, crotonylations, 2-hydroxyisobutyrylations, malonylations, succinylations, formylations, ubiquitinations, neddylations, proline cis-trans isomerizations. In particular disclosed embodiments, the compounds and conjugates can be used to separate peptides having different degrees of methylation.

The present disclosure relates to a redox active materials comprising at least one 2,5-dithio-7-azabicyclo[2.2.1]heptane unit connected to a surface thereof, as well as processes for making said redox active materials. The present disclosure relates to a method for recovering a metal, comprising reacting a metal in oxidized state with the redox active material herein disclosed. The present disclosure relates to uses of redox active materials herein disclosed in sensors, electronic materials and for extracting various metals.

The invention discloses a separation matrix comprising polysaccharide gel beads, wherein said polysaccharide gel beads comprise embedded fibers. The invention further discloses a method of preparing the separation matrix and use of the matrix for separation purposes.