Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: A formed sheet heat exchanger is provided for exchanging heat between fluids is provided. The apparatus includes flow divider sheets that are positioned in a stacked configuration and extend in a longitudinal direction so that adjacent pairs of the sheets define flow passages therebetween for receiving first and second fluids. Each of the sheets is nonuniform in the longitudinal direction, having a manifold portion and a corrugated portion. The corrugated portions of each adjacent pair of sheets define a plurality of fluid channels therebetween that are connected to the portion of the flow passage defined between the manifold portions. The fluid channels are configured to receive the first or second fluids and transfer thermal energy therebetween through the flow divider sheets.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.

Abstract: The present invention provides a creatine ester anti-inflammatory compound which may be received by animals and then metabolized into a biologically active form of creatine. The biologically active creatine inhibits the production of chemical mediators, released during an inflammatory response, which are important components in the inflammatory response and the inflammation and pain resulting from physical or chemical trauma to cells and tissue.