Biomaterial Database

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

UI	MeSH Term	Description	Entries
D007475	Ion Exchange Resins	High molecular weight, insoluble polymers which contain functional groups that are capable of undergoing exchange reactions (ION EXCHANGE) with either cations or anions.	Ion Exchange Resin,Exchange Resin, Ion,Exchange Resins, Ion,Resin, Ion Exchange,Resins, Ion Exchange
D012117	Resins, Synthetic	Polymers of high molecular weight which at some stage are capable of being molded and then harden to form useful components.	Dental Resins,Dental Resin,Resin, Dental,Resin, Synthetic,Resins, Dental,Synthetic Resin,Synthetic Resins
D002411	Cation Exchange Resins	High molecular weight insoluble polymers which contain functional anionic groups that are capable of undergoing exchange reactions with cations.	Cation Exchange Resin,Cation Exchangers (Resins),Exchange Resin, Cation,Exchange Resins, Cation,Resin, Cation Exchange,Resins, Cation Exchange
D006801	Humans	Members of the species Homo sapiens.	Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000818	Animals	Unicellular or multicellular, heterotrophic organisms, that have sensation and the power of voluntary movement. Under the older five kingdom paradigm, Animalia was one of the kingdoms. Under the modern three domain model, Animalia represents one of the many groups in the domain EUKARYOTA.	Animal,Metazoa,Animalia

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

November 1951, The Journal of pharmacology and experimental therapeutics,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

January 2018, Journal of hazardous materials,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

October 1954, Therapie der Gegenwart,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

August 1961, Military medicine,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

May 2002, Journal of chromatography. A,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

November 1951, American heart journal,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

May 1951, Science (New York, N.Y.),

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

July 1999, Journal of chromatography. A,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

May 2003, Journal of chromatography. A,

T S DANOWSKI, and L GREENMAN, and F MATEER, and J H PETERS, and F A WEIGAND, and H MERMELSTEIN, and C E CLARKE

July 1954, Lancet (London, England),