Abstract: The disclosure relates to products and methods for improving the performance of cereal manufactured with silk solutions and powders containing silk fibroin obtained from silk inputs. The coatings, or otherwise incorporated silk fibroin, can be used to improve the shelf life of cereals, reduce the glycemic index of cereals, and to improve the performance of those cereals in areas valued by consumers.

Abstract: The disclosure relates to products and methods for improving the performance of cereal manufactured with silk solutions and powders containing silk fibroin obtained from silk inputs. The coatings, or otherwise incorporated silk fibroin, can be used to improve the shelf life of cereals, reduce the glycemic index of cereals, and to improve the performance of those cereals in areas valued by consumers.

Abstract: The disclosure relates to products and methods for improving the performance of cereal manufactured with silk solutions and powders containing silk fibroin obtained from silk inputs. The coatings, or otherwise incorporated silk fibroin, can be used to improve the shelf life of cereals, reduce the glycemic index of cereals, and to improve the performance of those cereals in areas valued by consumers.

Abstract: The disclosure relates to products and methods for improving the performance of cereal manufactured with silk solutions and powders containing silk fibroin obtained from silk inputs. The coatings, or otherwise incorporated silk fibroin, can be used to improve the shelf life of cereals, reduce the glycemic index of cereals, and to improve the performance of those cereals in areas valued by consumers.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to methods and compositions for improving storage and/or transportation of food, flowers, plants, or the like.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The methods include use of a reactor vessel to degum, rinse, and dissolve the silk fibroin protein from silk inputs to obtain a food grade silk powder. The reactor vessel may include a combination of inputs and outputs for introducing and removing different components used or generated during the process. The systems may include any combination of heat exchangers, holding tanks, filtration modules, and post-treatment equipment as necessary to obtain the silk powder. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to products and methods for improving the performance of cereal manufactured with silk solutions and powders containing silk fibroin obtained from silk inputs. The coatings, or otherwise incorporated silk fibroin, can be used to improve the shelf life of cereals, reduce the glycemic index of cereals, and to improve the performance of those cereals in areas valued by consumers.

Abstract: Provided are methods and compositions for improving storage and/or transportation of food, flowers, plants, or the like by coating of the same with silk proteins or other substances including silk fibroin, chitin, acetylated monoglycerides, shellac, starch, high fructose corn syrup, mayauba wax, maydelilla wax, beeswax, vegetable oil, paraffin oil, ethylenediaminetetraacetic acid, cellulose, pectin, alginate, chitosan, gum Arabic, soy protein, zein, casein, and/or whey.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to systems and methods for improving the manufacturing of silk solutions and powders containing silk fibroin obtained from silkworm cocoons. The solutions and powders can be used to improve the post-harvest preservation of perishables and to improve the performance of packaging, including biodegradable packaging.

Abstract: The disclosure relates to methods and compositions for improving storage and/or transportation of food, flowers, plants, or the like.

Abstract: Compositions comprising biomedical polymers, and in particular unique blends of poly(lactic-co-glycolic acid) (PLGA) and poly(ethylene glycol) (PEG) are provided. Methods of forming polymer fibers using such compositions and solution blow spinning techniques are also provided, as well as methods of delivering the blow spun polymer fibers onto a surface (e.g., such as tissue for use as a surgical scaffold, sealant or tissue adhesive).

Abstract: Compositions comprising biomedical polymers, and in particular unique blends of poly(lactic-co-glycolic acid) (PLGA) and poly(ethylene glycol) (PEG) are provided. Methods of forming polymer fibers using such compositions and solution blow spinning techniques are also provided, as well as methods of delivering the blow spun polymer fibers onto a surface (e.g., such as tissue for use as a surgical scaffold, sealant or tissue adhesive).

Abstract: The present application is drawn to a synthetic, polymer hydrogel-based material, which is able to actively induce the body's natural hemostatic coagulation process in blood or acellular plasma. The present invention provides the development of a primary amine containing polymer hydrogel capable of inducing blood coagulation and delivering therapeutics for hemostatic or wound care applications, and a method of forming such a primary amine containing polymer hydrogel capable of inducing the blood coagulation process. The primary amine containing polymer hydrogel is able to achieve the same end result as biological-based hemostatics, without the innate risk of disease transmission or immunological response, and at a fraction of the price. Furthermore, due to its inherent hydrogel-based design the material has the capability of arresting blood loss while simultaneously delivering therapeutics in a controlled manner, potentially revolutionizing the way in which wounds are treated.

Abstract: The present application is drawn to a synthetic, polymer hydrogel-based material, which is able to actively induce the body's natural hemostatic coagulation process in blood or acellular plasma. The present invention provides the development of a primary amine containing polymer hydrogel capable of inducing blood coagulation and delivering therapeutics for hemostatic or wound care applications, and a method of forming such a primary amine containing polymer hydrogel capable of inducing the blood coagulation process. The primary amine containing polymer hydrogel is able to achieve the same end result as biological-based hemostatics, without the innate risk of disease transmission or immunological response, and at a fraction of the price. Furthermore, due to its inherent hydrogel-based design the material has the capability of arresting blood loss while simultaneously delivering therapeutics in a controlled manner, potentially revolutionizing the way in which wounds are treated.