Therapeutic compositions and/or formulations are provided, comprising: at least one cross-linked protein matrix, wherein the at least one cross-linked protein matrix comprises at least one protein residue and at least one saccharide-containing residue, and methods of producing the same. The cross-linked protein matrix may be derived from cross-linking a full length or substantially full length protein, such as tropoelastin, elastin, albumin, collagen, collagen monomers, immunoglobulins, insulin, and/or derivatives or combinations thereof, with a saccharide containing cross-linking agent, such as a polysaccharide cross-linking agent derived from, for example, hyaluronic acid or a cellulose derivative. The therapeutic compositions may be administered topically or by injection. The present disclosure also provides methods, systems, and/or kits for the preparation and/or formulation of the compositions disclosed herein.

A digital low dropout (LDO) voltage regulator enabling on-chip fine-grain power management in multi-core microprocessor and system-on-a-chip platforms to increase system level energy efficiency. Its design synthesizability with automatic placement and routing enables per-core dynamic voltage and frequency scaling with quick design turnaround. To enable per-core voltage regulation, the digital LDO is designed in a 65 nm complementary metal-oxide-semiconductor process. It exhibits core-level high load current driving capability of up to 125 mA and a large voltage regulation range of 0.15 V to 1.15 V.

A water soluble polymer composition includes a water soluble polymer and a sugar and may be used as a support in additive manufacturing processes.

A water soluble polymer composition includes a water soluble polymer and a sugar and may be used as a support in additive manufacturing processes.

Cellulose derivatives comprising a hydroxyethyl group, such as hydroxyethyl methyl cellulose, are used as foam control agents in foodstuff processing. The cellulose derivatives are biodegradable while still providing excellent foam control capacity. In addition, cellulose derivatives foam control agents of the disclosure can be used with various apparatus while avoiding forming films that otherwise affect apparatus function. The cellulose derivatives can be used at various stages during industrial processing of vegetables (e.g., potatoes and beets) and fruits.

An aqueous chitosan gel system of novel non-scarring, non-interfering, transparent, stable, solubilized chitosan that controls bleeding is described herein. The aqueous chitosan gel system can comprise water, chitosan, an acid, a plasticizer, a rheology modifying agent, an antioxidant stabilizer, an alcohol, and a multi-valent salt. Additional components of the aqueous chitosan gel system can comprise a bifunctional organic acid, a tnfunctional organic acid, a multi-functional organic acid, a phosphoric acid, a polyphosphoric acid and a salt.

An aqueous chitosan gel system of novel non-scarring, non-interfering, transparent, stable, solubilized chitosan that controls bleeding is described herein. The aqueous chitosan gel system can comprise water, chitosan, an acid, a plasticizer, a rheology modifying agent, an antioxidant stabilizer, an alcohol, and a multi-valent salt. Additional components of the aqueous chitosan gel system can comprise a bifunctional organic acid, a tnfunctional organic acid, a multi-functional organic acid, a phosphoric acid, a polyphosphoric acid and a salt.

The present invention relates a composition capable of enhancing cleaning properties of a soil during cleaning by treating an object. The composition is a composition containing a modified hydroxyalkyl cellulose and at least one selected from an anionic surfactant and a nonionic surfactant, the modified hydroxyalkyl cellulose being one in which a cationic group and a hydrophobic group represented by the formula (1) are bound to a group resulting from eliminating a hydrogen atom from a hydroxy group of a hydroxyalkyl cellulose.
*—Z—R.sup.1  (1)
wherein, Z represents a single bond or a hydrocarbon group having an oxygen atom; R.sup.1 represents a hydrocarbon group having 2 or more carbon atoms; and * represents a binding position to a group resulting from eliminating a hydrogen atom from a hydroxy group of a hydroxyalkyl cellulose.

Waterborne vinyl acetate-acrylic, “vinyl acrylic” emulsion copolymers which can be used in architectural coatings and impart stain resistance to such coatings are provided. The vinyl acrylic emulsion copolymer particles in the emulsion may contain one or more particle size modes, each with a respective narrow particle size distribution. The vinyl acrylic emulsion copolymers contain as a comonomer an ethylenically unsaturated monomer and also contain a hydrolyzable silane comonomer. The hydrolyzable silane may be present as a comonomer in the vinyl acrylic copolymer and/or may be added to the vinyl acrylic emulsion copolymer emulsion in the form of a hydrolyzable silane that may have a reactive group that is capable of reacting with the vinyl acrylic copolymer.

Waterborne vinyl acetate-acrylic, “vinyl acrylic” emulsion copolymers which can be used in architectural coatings and impart stain resistance to such coatings are provided. The vinyl acrylic emulsion copolymer particles in the emulsion may contain one or more particle size modes, each with a respective narrow particle size distribution. The vinyl acrylic emulsion copolymers contain as a comonomer an ethylenically unsaturated monomer and also contain a hydrolyzable silane comonomer. The hydrolyzable silane may be present as a comonomer in the vinyl acrylic copolymer and/or may be added to the vinyl acrylic emulsion copolymer emulsion in the form of a hydrolyzable silane that may have a reactive group that is capable of reacting with the vinyl acrylic copolymer.