Abstract: The present invention provides random multi-component polymers, methods to prepare the random multi-component polymers, methods for removing soluble species or insoluble particles from an aqueous solution, and methods for removing soluble species or insoluble particles from an aqueous solution in the human body

Abstract: An air remediation device includes a housing including an internal chamber, an inlet, an outlet, and a potting material dividing said internal chamber into a first compartment and a second compartment. At least one hollow fiber membrane is supported by the potting material and held in the first compartment. Airborne viral particles are directed (a) through the inlet into the first compartment and then (b) through the at least one hollow fiber membrane, where the airborne viral particles are captured to produce treated air, and then the treated air is directed (c) through the second compartment before being exhausted from the housing through the outlet.

Abstract: The disclosed subject matter relates to the delivery of hydroxyl-containing compounds as microparticles for a variety of pharmaceutical, biomedical, cosmetics and personal care applications. This entails the manufacture and use of polymerized hydro-X compounds. Note is made of hydro-X compounds selected from the group consisting of curcuminoids, stilbenoids, resolvins, phenylethanoids, tocopherols, tocotrienols, flavanones, flavones, prenylflavonoids, isoflavones, isoflavanes, dihydrochalcones, isoflavenes, coumestans, lignans, flavonoligans, flavonols, mycoestrogens, xenoestrogens, phytoestrogens, sterols, corticosteroids, androgens, estrogens, stanols, steroids, secosteroids, tannins, statins, catechols, catechins, opioids, cannabinoids, pleuromutilins, luteolinidin, anthocyanidins, apigeninidin, glycosylated compounds, and macrolides.

Abstract: The disclosed subject matter relates to the delivery of hydroxyl-containing compounds as microparticles for a variety of pharmaceutical, biomedical, cosmetics and personal care applications. This entails the manufacture and use of polymerized hydro-X compounds. Note is made of hydro-X compounds selected from the group consisting of curcuminoids, stilbenoids, resolvins, phenylethanoids, tocopherols, tocotrienols, flavanones, flavones, prenylflavonoids, isoflavones, isoflavanes, dihydrochalcones, isoflavenes, coumestans, lignans, flavonoligans, flavonols, mycoestrogens, xenoestrogens, phytoestrogens, sterols, corticosteroids, androgens, estrogens, stanols, steroids, secosteroids, tannins, statins, catechols, catechins, opioids, cannabinoids, pleuromutilins, luteolinidin, anthocyanidins, apigeninidin, glycosylated compounds, and macrolides.

Abstract: The presently-disclosed subject matter includes compounds that comprise an initiator and an active agent that is covalently bonded to the initiator through a ring-opening polymerization process, an atom-transfer radical polymerization process, a Michael addition reaction, or a ring-opening metathesis polymerization process. In some embodiments the active agent includes simvastatin. The presently-disclosed subject matter also includes methods for making the compositions and methods for using the compositions to treat tissue wounds.

Abstract: Compounds and methods for reducing the occurrence of a post-surgical adhesion are provided. The compounds can include acrylic acid groups and ethylene glycol groups, and can be directed to an area of damaged tissue by the incorporation of a fibrin targeting peptide. The compounds can further include a brush-like portion, capable of creating a steric barrier between a damaged tissue or organ and adjacent tissues or organs, and a targeting portion, capable of directing the compounds to a damaged tissue or organ. Methods of detecting damaged tissue and kits are also provided.