Author Index Amiji, Mansoor, 135 Antonucci, Joseph M., 147,184,191,210 Aronhime, M 87 Bowersock, T. L., 288 Burczak, K., 275 Cheng, G. W., 191 Code, James E., 147 Cohn, D., 87 Cole, Michael Α., 258 Friends, G., 76 Fujimoto, Keiji, 219,228 Harvey, John J., 258 Dcada, Yoshito, 35,228,275 Illinger, J. L., 103 Imanishi, Y., 66 Ito, Y., 66 Iwata, H., 306 Johnson, Russell Α., 202 Kaplan, David Gilbert, 243 Karasz, F. E., 103 Kasuya, Y., 219 Kawaguchi, H., 219 Keeny, ΙΠ, Spurgeon M., 210 Kondo, Tamotsu, 314 Kunzler, J., 76 Lallone, R., 288 Langer, R., 16 Levy, M., 288 Li, Y., 297 Liou, F. J., 251 Makino, Kimiko, 314 Minato, Masao, 228 Miyamoto, M., 219 Miyauchi, Ei-ichi, 314 Mizoguchi, J., 306
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M
Niu, G. G. C , 251 Ogawa, N., 306 Ohshima, Hiroyuki, 314 Ozark, R., 76 Park, H., 2 Park, Kinam, 2,135,288 Penhasi, Α., 87 Prud'homme, Robert Κ., 157 Reed, Β. Β., 184 Rogers, K. R., 116 Roweton, S. L., 58 Ryker, D., 288 Samuels, M. L., 288 Schneider, N. S., 103 Schumacher, Gary E., 147 Shalaby, Shalaby W., 58,116,202 Shalaby, W. S. W., 288 Shiraki, K., 275 Spencer, H. G., 297 Stansbury, Jeffrey W., 171,184,191 Suzuki, K., 66 Takagi, T., 306 Tesk, John Α., 210 Togawa, Yuko, 314 Tomihata, K., 275 Trokanski, M., 76 Tsai, S. W., 251 Vacanti, C. Α., 16 Vacanti, J. P., 16 Wang, Francis W., 210 Wang, Y. J., 251 White, M. R., 288 Williams, Joel L., 49 Yin, Yu-Ling, 157 Zhang, Liu, 258
Affiliation Index American Dental Association Health Foundation, 184 Army Research Laboratory, 103 Asahi Chemical Industry Company, Ltd., 306 Bausch and Lomb Inc., 76 Becton Dickinson Research Center, 49
Brookwood Biomedical Institute, 288 Children's Hospital, 16 Clemson University, 58,116,202,297 Falco Biosystems, 306 Geo-Centers, Inc., 103 Harvard Medical School, 16
327
Shalaby et al.; Polymers of Biological and Biomedical Significance ACS Symposium Series; American Chemical Society: Washington, DC, 1993.
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POLYMERS OF BIOLOGICAL AND BIOMEDICAL SIGNIFICANCE
The Hebrew University of Jerusalem, 87 Japanese Red Cross, 219 Keio University, 35,66,219,228,275 Massachusetts General Hospital, 16 Massachusetts Institute of Technology, 16 National Cardiovascular Center, 306 National Institute of Standards and Technology, 147,171,184,191,210 National Institutes of Health, 147
National Yang-Ming Medical College, 251 Princeton University, 157 Purdue University, 2,135,288 Science University of Tokyo, 314 University of Illinois, 258 University of Massachusetts, 103 West China University of Medical Sciences, 191
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Subject Index A Absorbable oxalate polymers biological performance of transcortical pins, 208-209 chemical composition of polymerization charges, 204i crystallinity vs. composition, 206,207/ development, 202-203 experimental description, 203 in vitro absorption, 208/ IR frequencies of functional groups, 206 polymer characterization procedure, 205 polymer synthetic procedure, 204 postpolymerization schedules, 204,205i properties, 206,207* study procedure, 205-206 Acrylate-containing spiro orthoesters, structures, 172,173/ Acrylic monomers and oligomers, multifunc tional hydrophilic and hydrophobic, See Multifunctional hydrophilic and hydro phobic acrylic monomers and oligomers Adhesion, biomaterials, 45,46/ Affinity separation, advantages for protein and peptide separation from biological broths and blood, 297 Aging, proteins, 247-248 Alkylene oxalate polymers, application, 202 Amine-derivatized poly(ethylene terephthalate), preparation, 139,141/ Annealing temperature, poly(vinyl alcohol) hydrogel property effect, 228-241 Arg-Gly-Asp-Ser, function, 221 Arg-Gly-Asp-Ser-carrying microspheres, leukocyte activation, 220-227
Arg-Gly-Asp-Ser-immobilized membrane cell adhesion activity, 72-74/ coupling, 72 synthesis, 68,72 Ascorbic acid, chemical structure, 148,149/ Ascorbic acid as etchant-conditioner for resin bonding to dentin experimental procedure, 148-150 tensile bond strengths, 150,154* treatment time vs. surface changes, 150-153/155 ASTM test methods, microcellular foam characterization, 60 (4-Azido-2-nitrophenyl)polyethylene glycol, preparation, 139,142/
Β Bacterial exotoxins, poly(methacrylic acid) hydrogels as carriers, 288-295 Bioactive chemicals, polymerizable, use for surface biolization, 66-74 Bioadhesion, definition, 45 Biocompatibility bioadhesive surfaces,45-48 definition, 37 groups, 37,38/ interfacial, See Interfacial biocompatibility surface property effect, 66 Biocompatible materials, classification of approaches, 66,67/ Biodegradability, starch in starch-plastic blends, 264,266/ Biodegradable drag delivery devices, 54,56
Shalaby et al.; Polymers of Biological and Biomedical Significance ACS Symposium Series; American Chemical Society: Washington, DC, 1993.