CHEMICALLY MODIFIED STARCHES USE

Brand Owner (click to sort) Address Description
FYBRIN GRAIN PROCESSING CORPORATION 1600 Oregon Street Muscatine IA 52761 Chemically modified starches for use in the manufacture of food and beverages; Modified food starch for use as a fiber enhancer, bulking agent, or additive in food products; Edible corn starch;Resistant starches for use in the manufacture of food, nutraceuticals, and beverages;
INSTANT PURE-COTE GRAIN PROCESSING CORPORATION 1600 Oregon Street Muscatine IA 52761 Chemically modified starches for use as an ingredient in the manufacture of food products to maintain original texture;instant;
PURE-CAP GRAIN PROCESSING CORPORATION 1600 Oregon Street Muscatine IA 52761 chemically modified starches for use as encapsulating agents in the manufacture of foods, pharmaceuticals and cosmetics;
PURE-COTE GRAIN PROCESSING CORPORATION 1600 Oregon Street Muscatine IA 52761 chemically modified starches for use as coatings in the manufacture of foods, pharmaceuticals, and cosmetics;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. An improved demineralized bone matrix (DBM) or other matrix composition is provided that has been mixed with a stabilizing agent that acts as (1) a diffusion barrier, (2) a enzyme inhibitor, (3) a competitive substrate, or (4) a masking moiety. A diffusion barrier acts as a barrier so as to protect the osteoinductive factors found in DBM from being degraded by proteolytic and glycolytic enzymes at the implantation site. Stabilizing agents may be any biodegradable material such as starches, modified starches, cellulose, dextran, polymers, proteins, and collagen. As the stabilizing agents degrades or dissolves in vivo, the osteoinductive factors such as TGF-?, BMP, and IGF are activated or exposed, and the activated factors work to recruit cells from the preivascular space to the site of injury and to cause differentiation into bone-forming cells. The invention also provides methods of preparing, testing, and using the inventive improved osteodinductive matrix compositions.