Hydrogels and Biodegradable Polymers for Bioapplications

Jackson, R., 58. Jane, J., 149. Jean-François, Jacques, 25. Kaplan, D. L., 159. Kikuchi, Akihiko, 42. Kim, Sung Wan, 42. Kowalczyk, M . , 172. Krysze...
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Downloaded by KAOHSIUNG MEDICAL UNIV on June 7, 2018 | https://pubs.acs.org Publication Date: May 5, 1996 | doi: 10.1021/bk-1996-0627.ix001

Author Index Allen, A. L., 149,159 Amiji, Mansoor M., 209 Antonucci, J. M., 243 Bae, You Han, 42 Bone, D., 58 Bowersock, T. L., 58 Chong, Suk-Ja, 42 Crescenzi, V., 221,233 D'Alagni, M., 233 D'Urso, Edith M., 25 Davis-Snyder, E., 58 Dawson, Susan L., 187 Dentini, M., 221,233 Dixon, K. L., 159 Eanes, E. D., 243 Elman, James, 187 Fortier, Guy, 17,25 Foster, L. J. R., 68 Freeman, M. B., 118 Fuller, R. C , 68 Gayet, Jean-Charles, 17 HogenEsch, H., 58 Hrkach, Jeffrey S., 93 Jackson, R., 58 Jane, J., 149 Jean-François, Jacques, 25 Kaplan, D. L., 159 Kikuchi, Akihiko, 42 Kim, Sung Wan, 42 Kowalczyk, M., 172 Kryszewski, M., 172 Langer, Robert, 93 Lee, Samuel J., 11 Lenz, R. W., 68

Lotan, Noah, 93 Maeda, Mizuo, 197 Margevich, Douglas E., 187 Matsumura, Shuichi, 137 Mattei, B., 233 Mayer, J. M., 159 McCassie, J. E., 159 McKenna, William, 187 Nishimura, Chitoshi, 197 Ou, Jean, 93 Paik, Y. H., 118 Park, Haesun, 2,58 Park, Kinam, 2,11,58 Patel, Vijay R., 209 Shupe, A. E., 159 Skrtic, D., 243 Slomkowski, S., 172 Sôdergârd, Anders, 103 Song, Soo Chang, 42 Spence, Κ. E., 149 Stote, R. E., 159 Suckow, M., 58 Swift, G., 118 Takagi, Makoto, 197 Tirrell, David Α., 187 Toshima, Kazunobu, 137 Trznadel, M., 172 Turek, John, 58 Ulman, Abraham, 187 Umeno, Daisuke, 197 Wang, S., 149 Wilczynski, R., 118 Wolk,S.K., 118 Yocom, Κ. M., 118

Affiliation Index CNR, 233 Eastman Kodak Company, 187 Harvard University, 93 Iowa State University, 149

Keio University, 137 Kwangju Institute of Science and Technology, 42 Kyushu University, 197 257

Ottenbrite et al.; Hydrogels and Biodegradable Polymers for Bioapplications ACS Symposium Series; American Chemical Society: Washington, DC, 1996.

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H Y D R O G E L S A N D B I O D E G R A D A B L E P O L Y M E R S F O R BIOAPPLICATIONS

Downloaded by KAOHSIUNG MEDICAL UNIV on June 7, 2018 | https://pubs.acs.org Publication Date: May 5, 1996 | doi: 10.1021/bk-1996-0627.ix001

Massachusetts Institute of Technology, 93 National Institute of Standards and Technology, 243 National Institutes of Health, 243 Northeastern University, 209 Polish Academy of Sciences, 172 Polytechnic University, 187 Purdue University, 2,11,58 Rohm and Haas Company, 118 Ruder Boskovic Institute, 243

Technion Israel Institute of Technology, 93 Université du Québec â Montréal, 17,25 University La Sapienza, 221,233 University of Abo Akademi, 103 University of Massachusetts, 68,187 University of Utah, 42 U.S. Army Natick Research, Development, and Engineering Center, 149,159

Subject Index A Acid phosphatase, immobilization using poly(ethylene glycol)-albumin hydrogels, 25-40 Acrylamide, development, 228 Activities, depolymerases of poly(hydroxyalkanoates), 68-88 Activity coefficient measurements, bacterial poly-y-D-glutamate, 235,236/ Adipic acid, development, 230-231 Aerobic biodégradation test, procedure, 140 Agricultural biopolymers for plastics, reasons for interest, 150 Albumin-poly(ethylene glycol) hydrogel bioapplication, See Poly(ethylene glycol)-albumin hydrogel bioapplication Alginate microspheres administered to mice, ovalbumin encapsulation, 58-66 Allylglucose, copolymerization with ^V-vinyl-2-pyrrolidinone for glucose-sensitive sol-gel phase-reversible hydrogels, 11-16 Amino acid N-carboxyanhydrides, synthesis, 94-96 Amorphous calcium phosphate bioactive polymeric dental materials, coupling agent effects, 243-253 properties, 243-244 Amylopectin, description, 150 Amylose, description, 149-150 Anaerobic biodégradation, poly(vinyl alcohol), 142,143/

Antigens, orally administered, use in mucosal immunity, 59 Aqueous solution properties of bacterial poly-y-D-glutamate

activity coefficient measurements, 235,236/ added Ca(II) salt effect, viscosity, 238,240/ experimental description, 234 intrinsic viscosity vs. ionic strength, 235,237/ optical activity vs. ionic strength, 235,237/ pH effect circular dichroism spectra, 238,239/241/ IR spectra, 238,241/ viscosity, 238,240/ production conditions, 238,242 Arthrobacter species biodégradation polyvinyl alcohol), 138,140-143 vinyl alcohol blocks, 142,144,145/ Artificial muscles, use of hydrogels, 6 Asparaginase, immobilization using poly(ethylene glycol)-albumin hydrogels, 25-40 Aspergillus, poly(hydroxyalkanoate) production, 71 Average number of neighbors, definition, 175 Β Bacillus

poly(hydroxyalkanoate) production, 71 production of poly-y-glutamates, 233

Ottenbrite et al.; Hydrogels and Biodegradable Polymers for Bioapplications ACS Symposium Series; American Chemical Society: Washington, DC, 1996.