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Journal of Biomedical Materials Research 2003: Vol 65A Index PDF

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Journal of Biomedical Materials Research Part A Author Index—Volume 65A Agrawal, C. M. See Chim, H., 327 marrow-derived osteoblasts on Daculsi, G. See Bourgeois, B., 402 Aguado, E. See Bourgeois, B., 402 injectable in situ crosslinkable da Rocha, N. C. C. See Monteiro, Aguas, A. P. See Barbosa, J. N., 429 poly(propylene fumarate-co- M. M., 299 Akaike, T. See Higuchi, A., 369; Park, ethylene glycol)-based hydrogels Davies, J. E. See Holy, C. E., 447 K. H., 136 with a covalently linked RGDS Davy, D. T. See Akkus, O., 482 Akkus, O. peptide, 260 de Almeida Soares, G. See Monteiro, —; Knott, D. F.; Jepsen, K. J.; Davy, Benhayoune, H. See Laquerriere, P., M. M., 299 D. T.; Rimnac, C. M.: Relationship 441 de Arruda, A. C. F. See dos Santos, between damage accumulation L. A., 244 Betti, E. See Bourgeois, B., 402 and mechanical property de Graaf, L. A. See Vaz, C. M., 60 Birnbaum, D. E. See Lehle, K., 393 degradation in cortical bone: del Real, R. P. Bloch, D. See Goodman, S., 43 Microcrack orientation is —; Ooms, E.; Wolke, J. G. C.; Vallet- Boschi, A. O. See dos Santos, L. A., important, 482 Regi, M.; Jansen, J. A.: In vivo 244 Albrecht, W. See Fey-Lamprecht, F., bone response to porous calcium Bouler, J.-M., 402 144 phosphate cement, 30 Bourgeois, B. Anderson, J. M. See Wiggins, M. J., —;See Arcos, D., 71 524 —; Laboux, O.; Obadia, L.; Gauthier, Doremus, R. See Ergun, C., 336 Aoyama, J. See Tanaka, E., 386 O.; Betti, E.; Aguado. E.; Daculsi, dos Santos, L. A. Arcos, D. G.; Bouler, J.-M.: Calcium-deficient —; Carrodéguas, R. G.; Boschi, A. O.; —-; del Real, R. P.; Vallet-Regi, M.: apatite: A first in vivo study de Arruda, A. C. F.: Fiber- Biphasic materials for bone concerning bone ingrowth, 402 enriched double-setting calcium grafting and hyperthermia Brandt, J. See Klemenz, A., 237 phosphate bone cement, 244 treatment of cancer, 71 Brown, J. See Goodman, S. B., 454 ; Greenspan, D. C.; Vallet-Regi, M.: Brown, P. W. See Yadav, K. L., 158 A new quantitative method to Buttstaedt, J. See Lehle, K., 393 Eick, J. D. See Kostoryz, E. L., 89 evaluate the in vitro bioactivity of Elfick, A. P. D. melt and sol-gel-derived silicate —; Green, S. M.; Krikler, S.; glasses, 344 Unsworth, A.: The nature and Areva, S. See Moritz, N. Calabo, A. See Grande-Allen, K. J., dissemination of UHMWPE wear Asakura, T. See Higuchi, A., 369 257 debris retrieved from Asaoka, K. See Yokoyama, K., 182 Carrodéguas, R. G. See dos Santos, periprosthetic tissue of THR, 95 L. A., 244 Elisseeff, J. H. See Wang, D., 498 Cassisi, D. V. See Sanders, J. E., 462 Engbers, G. H. M. See Olde Chang, W. H. See Liang, H. C., 271 Reikerink, M. B., 417 Balcells, M. See Sarda, S., 215 Chappelow, C. C. See Kostoryz, E. L., Ergun, C. Bale, S. D. See Sanders, J. E., 462 89 —; Doremus, R.; Lanford, W.: Balossier, G. See Laquerriere, P., 441 Chim, H. Hydroxylapatite and titanium: Barbosa, J. N. —; Barbosa, M. A.; Aguas, A. P.: —; Ong, J. L.; Schantz, J. T.; Interfacial reactions, 336 Adhesion of human leukocytes to Hutmacher, D. W.; Agrawal, C. M.: Efficacy of glow discharge biomaterials: An in vitro study using alkanethiolate monolayers gas plasma treatment as a surface Feijen, J. See Olde Reikerink, M. B., with different chemically modification process for three- 417; van der Zijpp, Y. J. T., 51 dimensional poly(D,L-lactide) functionalized surfaces, 429 Feng, L. See Wang, D., 498 Barbosa, M. A. See Barbosa, J. N., 429 scaffolds, 327 Fernandez, E. See Sarda, S., 215 Baruch, Y. See Perets, A., 489 Cho, C. S. See Higuchi, A., 369 Fey-Lamprecht, F. Bauer, T. W. See Takikawa, S., 37 Claase, M. B. See Olde Reikerink, —; Albrecht, W.; Groth, T.; Weigel, T.; Behravesh, E. M. B., 417 Gross, U.: Morphological studies —,; Zygourakis, K.; Mikos, A. G.: Cohen, S. See Perets, A., 489 on the culture of kidney epithelial Adhesion and migration of Cunha, A. M. See Vaz, C. M., 60 cells in a fiber-in-fiber bioreactor Journal of Biomedical Materials Research Vol. 65A, 538-542 (2003) Journal of Biomedical Materials Research Part A Author Index—Volume 65A Agrawal, C. M. See Chim, H., 327 marrow-derived osteoblasts on Daculsi, G. See Bourgeois, B., 402 Aguado, E. See Bourgeois, B., 402 injectable in situ crosslinkable da Rocha, N. C. C. See Monteiro, Aguas, A. P. See Barbosa, J. N., 429 poly(propylene fumarate-co- M. M., 299 Akaike, T. See Higuchi, A., 369; Park, ethylene glycol)-based hydrogels Davies, J. E. See Holy, C. E., 447 K. H., 136 with a covalently linked RGDS Davy, D. T. See Akkus, O., 482 Akkus, O. peptide, 260 de Almeida Soares, G. See Monteiro, —; Knott, D. F.; Jepsen, K. J.; Davy, Benhayoune, H. See Laquerriere, P., M. M., 299 D. T.; Rimnac, C. M.: Relationship 441 de Arruda, A. C. F. See dos Santos, between damage accumulation L. A., 244 Betti, E. See Bourgeois, B., 402 and mechanical property de Graaf, L. A. See Vaz, C. M., 60 Birnbaum, D. E. See Lehle, K., 393 degradation in cortical bone: del Real, R. P. Bloch, D. See Goodman, S., 43 Microcrack orientation is —; Ooms, E.; Wolke, J. G. C.; Vallet- Boschi, A. O. See dos Santos, L. A., important, 482 Regi, M.; Jansen, J. A.: In vivo 244 Albrecht, W. See Fey-Lamprecht, F., bone response to porous calcium Bouler, J.-M., 402 144 phosphate cement, 30 Bourgeois, B. Anderson, J. M. See Wiggins, M. J., —;See Arcos, D., 71 524 —; Laboux, O.; Obadia, L.; Gauthier, Doremus, R. See Ergun, C., 336 Aoyama, J. See Tanaka, E., 386 O.; Betti, E.; Aguado. E.; Daculsi, dos Santos, L. A. Arcos, D. G.; Bouler, J.-M.: Calcium-deficient —; Carrodéguas, R. G.; Boschi, A. O.; —-; del Real, R. P.; Vallet-Regi, M.: apatite: A first in vivo study de Arruda, A. C. F.: Fiber- Biphasic materials for bone concerning bone ingrowth, 402 enriched double-setting calcium grafting and hyperthermia Brandt, J. See Klemenz, A., 237 phosphate bone cement, 244 treatment of cancer, 71 Brown, J. See Goodman, S. B., 454 ; Greenspan, D. C.; Vallet-Regi, M.: Brown, P. W. See Yadav, K. L., 158 A new quantitative method to Buttstaedt, J. See Lehle, K., 393 Eick, J. D. See Kostoryz, E. L., 89 evaluate the in vitro bioactivity of Elfick, A. P. D. melt and sol-gel-derived silicate —; Green, S. M.; Krikler, S.; glasses, 344 Unsworth, A.: The nature and Areva, S. See Moritz, N. Calabo, A. See Grande-Allen, K. J., dissemination of UHMWPE wear Asakura, T. See Higuchi, A., 369 257 debris retrieved from Asaoka, K. See Yokoyama, K., 182 Carrodéguas, R. G. See dos Santos, periprosthetic tissue of THR, 95 L. A., 244 Elisseeff, J. H. See Wang, D., 498 Cassisi, D. V. See Sanders, J. E., 462 Engbers, G. H. M. See Olde Chang, W. H. See Liang, H. C., 271 Reikerink, M. B., 417 Balcells, M. See Sarda, S., 215 Chappelow, C. C. See Kostoryz, E. L., Ergun, C. Bale, S. D. See Sanders, J. E., 462 89 —; Doremus, R.; Lanford, W.: Balossier, G. See Laquerriere, P., 441 Chim, H. Hydroxylapatite and titanium: Barbosa, J. N. —; Barbosa, M. A.; Aguas, A. P.: —; Ong, J. L.; Schantz, J. T.; Interfacial reactions, 336 Adhesion of human leukocytes to Hutmacher, D. W.; Agrawal, C. M.: Efficacy of glow discharge biomaterials: An in vitro study using alkanethiolate monolayers gas plasma treatment as a surface Feijen, J. See Olde Reikerink, M. B., with different chemically modification process for three- 417; van der Zijpp, Y. J. T., 51 dimensional poly(D,L-lactide) functionalized surfaces, 429 Feng, L. See Wang, D., 498 Barbosa, M. A. See Barbosa, J. N., 429 scaffolds, 327 Fernandez, E. See Sarda, S., 215 Baruch, Y. See Perets, A., 489 Cho, C. S. See Higuchi, A., 369 Fey-Lamprecht, F. Bauer, T. W. See Takikawa, S., 37 Claase, M. B. See Olde Reikerink, —; Albrecht, W.; Groth, T.; Weigel, T.; Behravesh, E. M. B., 417 Gross, U.: Morphological studies —,; Zygourakis, K.; Mikos, A. G.: Cohen, S. See Perets, A., 489 on the culture of kidney epithelial Adhesion and migration of Cunha, A. M. See Vaz, C. M., 60 cells in a fiber-in-fiber bioreactor Journal of Biomedical Materials Research Vol. 65A, 538-542 (2003) AUTHOR INDEX design with hollow fiber Han, B. introducing phosphorylcholine membranes, 144 —; Jaurequi, J.; Tang, B. W.; Nimni, moieties, 164 Fialkov, J. A. See Holy, C. E., 447 M. E.: Proanthocyanidin: A Fossen, M. See Vaz, C. M., 60 natural crosslinking reagent for Fox, N. See Goodman, S., 43, 454 stabilizing collagen matrices, 118 Jacobs, J. J. See Hallab, N. J., 311 Fujisawa, A. See Muramatsu, K., 409 Hanaoka, K. See Tanaka, E., 386 Jallot, E. See Laquerriere, P., 441 Fukushima, T. See Inoue, Y., 203 Hara, M. See Higuchi, A., 369 Jansen, J. A. See del Real, R. P., 30 Furuya, T. See Oyane, A., 188 Hayakawa, T. See Inoue, Y., 203 Jaurequi, J. See Han, B., 118 Higuchi, A. Jepsen, K. J. See Akkus, O., 482 —; Takanashi, Y.; Tsuzuki, N.; Ji, J. See Wang, D., 498 Garcia, A. J. See Reyes, C. D., 511 Asakura, T.; Cho, C. S.; Akaike, T.; Jokinen, M. See Moritz, N., 9 Gauthier, O. See Bourgeois, B., 402 Hara, M.: Production of Genovese, M. See Goodman, S., 43 interferon-B by fibroblast cells on Gessner, A. membranes prepared with RGD- Kajiyama, G. See Goodman, S. B., 454 —-; Lieske, A.; Paulke, B.-R.; Miiller, containing peptides, 369 Kambic, H. See Takikawa, S., 37 R. H.: Functional groups on Hiltner, A. See Wiggins, M. J., 524 Kaminishi, H. See Inoue, Y., 203 polystyrene model nanoparticles: Holy, C. E. Kaneko, K. See Yokoyama, K., 182 Influence on protein adsorption, —; Fialkov, J. A.; Davies, J. E.; Kawamura, H. 319 Shoichet, M. S.: Use of a —; Ito, A.; Muramatsu, T.; Miyakawa, Glaros, A. G. See Kostoryz, E. L., 89 biomimetic strategy to engineer S.; Ochiai, N.; Tateishi, T.: Long- Goes, A. M. See Silva, S. N., 475 bone, 447 term implantation of zinc- Golledge, S. L. See Sanders, J. E., 462 Howlett, C. R. See Zreiqat, H., 109 releasing calcium phosphate Goodman, S. Hu, H. ceramics in rabbit femora, 468 —-; Trindade, M.; Ma, T.; Lee, M.; —; Lin, C.; Lui, P. P. Y.; Leng, Y.: Kilian, L. See Laquerriere, P., 441 Wang, N.; Ikenou, T.; Matsuura, [.; Electrochemical deposition of Kim, H. M. See Muramatsu, K., 409; Miyanishi, K.; Fox, N.; Regula, D.; hydroxyapatite with vinyl acetate Oyane, A., 188 Genovese, M.; Klein, J.; Bloch, D.; on titanium implants, 24 Kim, K. See Rodriguez, R., 352 Lane Smith, R.: Modulation of Hughes, K. F. Kitamoto, D. See Im, J. H., 379 bone ingrowth and tissue —; Ries, M.D.; Pruitt, L. A.: Structural Klein, J. See Goodman, S., 43 differentiation by local infusion of degradation of acrylic bone Klemenz, A. interleukin-10 in the presence of cements due to in vivo and —; Schwinger, C.; Brandt, J.; Kressler, ultra-high molecular weight simulated aging, 126 J.: Investigation of elasto- polyethylene (UHMWPE) wear Hutmacher, D. W. See Chim, H., 327 mechanical properties of alginate particles, 43 microcapsules by scanning ; Song, Y.; Yoo, J. Y.; Fox, N.; acoustic microscopy, 237 Trindade, M. C. D.; Kajiyama, G.; Idemoto, Y. See Im, J. H., 379 Knott, D. F. See Akkus, O., 482 Ma, T.; Regula, D.; Brown, J.; Ikegami, T. See Im, J. H., 379 Kokubo, T. See Muramatsu, K., 409; Smith, R. L.: Local infusion of Ikenou, T. See Goodman, S., 43 Oyane, A., 188 FGF-2 enhances bone ingrowth in Im, J. H. Konno, T. rabbit chambers in the presence of —; Yanagishita, H.; Ikegami, T.; —; Watanabe, J.; Ishihara, K.: polyethylene particles, 454 Takeyama, Y.; Idemto, Y.; Koura, Enhanced solubility of paclitaxel Goodman, S. B. See Sun, D. H., 290 N.; Kitamoto, D.: using water-soluble and Grande-Allen, K. J. Mannosylerythritol lipids, yeast biocompatible 2- —; Mako, W. J.; Calabo, A.; Shi, Y.; glycolipid biosurfactants, are methacryloyloxyethyl Ratliff, N. B.; Vesely, I.: Loss of potential affinity ligand materials phosphorylcholine polymers, 209 chondroitin 6-sulfate and for human immunoglobulin G, 379 Kostoryz, E. L. hyaluronan from failed porcine Inoue, T. See Yoshinari, M., 359 —; Eick, J. D.; Cahppelow, C. C.; bioprosthetic valves, 257 Inoue, Y. Glaros, A. G.; Wetmore, L.; Green, S. M. See Elfick, A. P. D., 95 —; Fukushima, T.; Hayakawa, T.; Yourtee, D. M.: In vitro effect of Greenspan, D. C. See Arcos, D., 344 Takeuchi, H.; Kaminishi, H.; light-cure dental adhesive on IL-6 Grijpma, D. W. See Olde Reikerink, Miyazaki, K.; Okahata, Y.: release from LPS-stimulated and M. B., 417 Antibacterial characteristics of unstimulated macrophages, 89 Gross, U. See Fey-Lamprecht, F., 144 newly developed amphiphilic Koura, N. See Im, J. H., 379 Groth, T. See Fey-Lamprecht, F., 144 lipids and DNA-lipid complexes Kressler, J. See Klemenz, A., 237 against bacteria, 203 Krikler, S. See Elfick, A. P. D., 95 Ishihara, K. See Konno, T., 209 Kumar, R. K. See Zreiqat, H., 109 Hallab, N. J. Ito, A. See Kawamura, H., 468 Kurosaki, T. See Iwasaki, Y., 164 —; Skipor, A.; Jacobs, J. J.: Interfacial Iwasaki, Y. kinetics of titanium- and cobalt- —; Tojo, Y.; Kurosaki, T.; based implant alloys in human Nakabayashi, N.: Reduced Laboux, O. See Bourgeois, B., 402 serum: Metal release and biofilm adhesion of blood cells to Lakshminarayana, Y. See Sathian, J., formation, 311 biodegradable polymers by 435 AUTHOR INDEX Lane Smith, R. See Goodman, S., 43 compositions in simulated body Ouchi, T. See Ohya, Y., 79 Lanford, W. See Ergun, C., 336 fluid, 299 Oyane, A. Laquerriere, P. Moritz, N. —; Kim, H. M.; Furuya, T.; Kokubo, —-;J allot, E.; Kilian, L.; Benhayoune, —-; Jokinen, M.; Peltola, T.; Areva, S.; T.; Miyazaki, T.; Nakamura, T.: H.; Balossier, G.: Effects of Yli-Urpo, A.: Local induction of Preparation and assessment of bioactive glass particles and their calcium phosphate formation on revised simulated body fluids, 188 ionic products on intracellular TiO, coatings on titanium via concentrations, 441 surface treatment with a CO, Lee, K. C. See Park, K. H., 136 laser, 9 Lee, M. See Goodman, S., 43 Moriyama, K. See Yokoyama, K., 182 Panduranga Rao, K. See Sivakumar, M., 222 Lehle, K. Miller, R. H. See Gessner, A., 319 Park, K. H. —; Buttstaedt, J.; Birnbaum, D. E.: Muramatsu, K. —; Akaike, T.; Lee, K. C.: Expression of adhesion molecules —,; Uchida, M.; Kim, H. M.; Fujisawa, Visualization of specific and cytokines in vitro by A.; Kokubo, T.: Thromboresistance interaction between biomimetic endothelial cells seeded on various of alkali- and heat-treated glycopolymer containing reducing polymer surfaces coated with titanium metal formed with glucose moiety and HepG2 cell titaniumcarboxonitride, 393 apatite, 409 mediated by GLUT-1, 136 Leite, M. F. See Silva, S. N., 475 Muramatsu, T. See Kawamura, H., Paulke, B.-R. See Gessner, A., 319 Leng, Y. See Hu, H., 24 468 Peltola, T. See Moritz, N., 9 Leong, K. W. See Li, J., 196 Pereira, M. M. See Silva, S. N., 475 14,4. Perets, A. —; Ni, X.; Leong, K. W.: Injectable Nagumo, M. See Yokoyama, K., 182 —; Baruch, Y.; Weisbuch, F.; drug-delivery systems based on Nakabayashi, N. See Iwasaki, Y., 164 Shoshany, G.; Neufeld, G.; Cohen, supramolecular hydrogels formed Nakamura, T. See Oyane, A., 188 S.: Enhancing the vascularization by poly(ethylene oxide)s and a- Nakashima, Y. See Sun, D. H., 290 of three-dimensional porous cyclodextrin, 196 Nakayama, Y. See Sonoda, H., 170 alginate scaffolds by incorporating Liang, H. C. Neufeld, G. See Perets, A., 489 controlled release basic fibroblast —; Chang, W. H.,; Lin, K. J.; Sung, Neumann, T. See Sanders, J. E., 462 growth factor microspheres, 489 H. W.: Genipin-crosslinked gelatin Ni, X. See Li, J., 196 Pezzotti, G. microspheres as a drug carrier for Niedhart, C. —; Sakakura, S.: Study of the intramuscular administration: In —; Maus, U.; Redmann, E.; Schmidt- toughening mechanisms in bone vitro and in vivo studies, 271 Rohlfing, B.; Niethard, F. U.; and biomimetic hydroxyapatite Lieske, A. See Gessner, A., 319 Siebert, C. H.: Stimulation of bone materials using Raman Lin, C. See Hu, H., 24 formation with an in situ setting microprobe spectroscopy, 229 Lin, K. J. See Liang, H. C., 271 tricalcium phosphate /rhBMP-2 Pidaparti, R. M. See Sarma, P. A., 1 Lui, P. P. Y. See Hu, H., 24 composite in rats, 17 Poot, A. A. See van der Zijpp, Y. J. T., Niethard, F. U. See Niedhart, C., 17 51 Nilsson, M. See Sarda, S., 215 Pruitt, L. A. See Hughes, K. F., 126 Nimni, M. E. See Han, B., 118 Ma, T. See Goodman, S., 43; Goodman, S. B., 454 Mako, W. J. See Grande-Allen, K. J., Obadia, L. See Bourgeois, B., 402 Radhakrishnan, G. See Sathian, J., 257 Ochiai, N. See Kawamura, H., 468 435 Maloney, W. J. See Sun, D. H., 290 Oda, Y. See Yoshinari, M., 359 Ratliff, N. B. See Grande-Allen, K. J., Markovic, B. See Zreigat, H., 109 Ohtsuki, C. See Takeuchi, A., 283 257 Matsuda, T. See Sonoda, H., 170 Ohya, Y. Ratner, B. D. See Sanders, J. E., 462 Matsunami, H. See Ohya, Y., 79 —; Matsunami, H.; Yamabe, E:; Redmann, E. See Niedhart, C., 17 Matsuura, I. See Goodman, S., 43 Ouchi, T.: Cell attachment and Regula, D. See Goodman, S., 43, 454 Matsuzaka, K. See Yoshinari, M., 359 growth on films prepared from Reis, R. L. See Vaz, C. M., 60 Maus, U. See Niedhart, C., 17 poly(depsipeptide-co-lactide) Reyes, C. D. Meiss, R. A. See Sarma, P. A. having various functional groups, —; Garcia, A. J.: Engineering integrin- Mikos, A. G. See Behravesh, E., 260 79 specific surfaces with a triple- Miyakawa, S. See Kawamura, H., 468 Okahata, Y. See Inoue, Y., 203 helical collagen-mimetic peptide, Miyanishi, K. See Goodman, S., 43 Olde Riekerink, M. B. 511 Miyazaki, K. See Inoue, Y., 203 —,; Claase, M. B.; Engbers, G. H. M.,; Ries, M. D. See Hughes, K. F., 126 Miyazaki, T. See Oyane, A., 188; Grijpma, D. W.,; Feijen, J.: Gas Rimnac, C. M. See Akkus, O., 482 Takeuchi, A., 283 plasma etching of PEO/PBT Rodriguez, R. Monteiro, M. M. segmented block copolymer films, —; Kim, K.; Ong, J. L.: In vitro —; da Rocha, N. C. C.; Rossi, A. M.; 417 osteoblast response to anodized de Almeida Soares, G.: Dissolution Ong, J. L. See Chim, H., 327; titanium and anodized titanium properties of calcium phosphate Rodriguez, R., 352 followed by hydrothermal granules with different Ooms, E. See del Real, R. P., 30 treatment, 352 AUTHOR INDEX Rossi, A. M. See Monteiro, M. M., Sonoda, H. Trindade, M. See Goodman, S., 43 299 —; Takamizawa, K.; Nakayama, Y.; Tsuzuki, N. See Higuchi, A., 369 Yasui, H.; Matsuda, T.: Coaxial double-tubular compliant arterial graft prosthesis: time-dependent Uchida, M. See Muramatsu, K., 409 Sakai, J. See Yokoyama, K., 182 morphogenesis and compliance Unsworth, A. See Elfick, A. P. D., 95 Sakakura, S. See Pezzotti, G., 229 changes after implantation, 170 Sanders, J. E. Sugiyama, M. See Tanaka, E., 386 —; Cassisi, D. V.; Neumann, T.; Suguna, L. See Sathian, J., 435 Vallet-Regi, M. See Arcos, D., 71, Golledge, S. L.; Zachariah, S. G.; Sun, D. H. 344; del Real, R. P., 30 Ratner, B. D.; Bale, S. D.: Relative —-; Trindade, M. C. D.; Nakashima, van der Zijpp, Y. J. T. influence of polymer fiber Y.; Maloney, W. J.; Goodman, —; Poot, A. A.; Feijen, J.: ICAM-1 and diameter and surface charge on S. B.; Schurman, D. J.; Smith, R. L.: VCAM-1 expression by fibrous capsule thickness and Human serum opsonization of endothelial cells grown on vessel density for single-fiber orthopedic biomaterial particles: fibronectin-coated TCPS and PS, implants, 462 Protein-binding and monocyte/ 51 Sarda, S. macrophage activation in vitro, 290 van Eijden, T. See Tanaka, E., 386 —; Nilsson, M.; Balcells, M.; Sun, Y. See Wang, D., 498 van Tuil, R. F. See Vaz, C. M., 60 Fernandez, E.: Influence of Sung, H. W. See Liang, H. C., 271 Vaz, C. M. surfactant molecules as air- —,; Fossen, M.; van Tuil, R. F.; de entraining agent for bone cement Graaf, L. A.; Reis, R. L.; Cunha, macroporosity, 215 A. M.: Casein and soybean Sarma, P. A. Takamizawa, K. See Sonoda, H., 170 protein-based thermoplastics and —,; Pidaparti, R. M.; Meiss, R. A.: Takanashi, Y. See Higuchi, A., 369 composites as alternative Anisotropic properties of tracheal Takeuchi, A. biodegradable polymers for smooth muscle tissue, 1 —; Ohtsuki, C.; Miyazaki, T.; Tanaka, biomedical applications, 60 Sastry, T. P. See Sathian, J., 435 H.; Yamazaki, M.; Tanihara, M.: Vesely, I. See Grande-Allen, K. J., 257 Sathian, J. Deposition of bone-like apatite on Vroman, L. —,; Sastry, T. P.; Suguna, L.; silk fiber in a solution that mimics —; Perspective on blood /m aterials Lakshminarayana, Y.; extracellular fluid, 283 interactions, 125 Radhakrishnan, G.: Fibrin as a Takeuchi, H. See Inoue, Y., 203 matrix for grafting 2-hydroxyethyl Takeyama, Y. See Im, J. H., 379 methacrylate: Preparation and Takikawa, S. Wang, D. characterization of the graft and —,; Bauer, T. W.; Kambic, H.; Togawa, —; Feng, L.; Ji, J.; Sun, Y.; Zheng, X.; its in vitro evaluation for wound D.: Comparative evaluation of the Elisseeff, J. H.: Novel human healing, 435 osteoinductivity of two endothelial cell-engineered Schantz, J. T. See Chim, H., 327 formulations of human polyurethane biomaterials for Schmidt-Rohlfing, B. See Niedhart, demineralized bone matrix, 37 cardiovascular biomedical Cory Tanaka, E. applications, 498 Schurman, D. J. See Sun, D. H., 290 —; Aoyama, J.; Tanaka, M.; van Wang, N. See Goodman, S., 43 Schwinger, C. See Klemenz, A., 237 Eijden, T.; Sugiyama, M.; Watanabe, J. See Konno, T., 209 Shaolin, L. See Tao, X., 306 Hanaoka, K.; Watanabe, M.; Watanabe, M. See Tanaka, E., 386 Shi, Y. See Grande-Allen, K. J., 257 Tanne, K.: The proteoglycan Weigel, T. See Fey-Lamprecht, F., 144 Shimono, M. See Yoshinari, M., 359 contents of the Weisbuch, F. See Perets, A., 489 Shoichet, M. S. See Holy, C. E., 447 temporomandibular joint disc Wetmore, L. See Kostoryz, E. L., 89 Shoshany, G. See Perets, A., 489 influence its dynamic viscoelastic Wiggins, M. J. Siebert, C. H. See Niedhart, C., 17 properties, 386 —; Anderson, J. M.; Hiltner, A.: Silva, S. N. Tanaka, H. See Takeuchi, A., 283 Biodegradation of polyurethane —; Pereira, M. M.; Goes, A. M.; Leite, Tanaka, M. See Tanaka, E., 386 under fatigue loading, 524 M. F.: Effect of biphasic calcium Tang, B. W. See Han, B., 118 Wolke, J. G. C. See del Real, R. P., 30 phosphate on human macrophage Tanihara, M. See Takeuchi, A., 283 functions in vitro, 475 Tanne, K. See Tanaka, E., 386 Sivakumar, M. Tao, X. Yadav, K. L. —; Panduranga Rao, K.: Preparation, —,; Shaolin, L.; Yaoting, Y.: —; Brown, P. W.: Formation of characterization, and in vitro Preparation and culture of hydroxyapatite in water, Hank’s release of gentamicin from hepatocyte on gelatin solution, and serum at coralline hydroxyapatite-alginate microcarriers, 306 physiological temperature, 158 composite microspheres, 222 Tateishi, T. See Kawamura, H., 468 Yamabe, E. See Ohya, Y., 79 Skipor, A. See Hallab, N. J., 311 Togawa, D. See Takikawa, S., 37 Yamazaki, M. See Takeuchi, A., 283 Smith, R. L. See Goodman, S. B., 454; Tojo, Y. See Iwasaki, Y., 164 Yanagishita, H. See Im, J. H., 379 Sun, D. H., 290 Trindade, M. C. D. See Goodman, Yaoting, Y. See Tao, X., 306 Song, Y. See Goodman, 5S. B., 454 S. B., 454; Sun, D. H., 290 Yasui, H. See Sonoda, H., 170 AUTHOR INDEX Yli-Urpo, A. See Moritz, N., 9 —,; Matsuzaka, K.; Inoue, T.; Oda, Y.; Zicat, B. See Zreiqat, H., 109 Yokoyama, K. Shimono, M.: Effects of Zreiqat, H. —; Kaneko, K.; Moriyama, K.; multigrooved surfaces on —; Kumar, R. K.; Markovic, B.; Zicat, Asaoka, K.; Sakai, J.; Nagumo, M.: fibroblast behavior, 359 B.; Howlett, C. R.: Macrophages at Hydrogen embrittlement of Ni-Ti Yourtee, D. M. See Kostoryz, E. L., 89 the skeletal tissue—device interface superelastic alloy in fluoride of loosened prosthetic devices solution, 182 express bone-related genes and Yoo, J. Y. See Goodman, S. B., 454 Zachariah, S. G., 462 their products, 109 Yoshinari, M. Zheng, X. See Wang, D., 498 Zygourakis, K. See Behravesh, E., 260 Journal of Biomedical Materials Research Part A Subject Index— Volume 65A Acoustic impedance, 237 Calcium phosphate cement, 30, 244 Fatigue, 524 Acrylic bone cement, 126 Casein, 60 FEA, 1 Adhesion, 260 Cell adhesion, 511 FGF-2, 454 Adhesion molecules, 393 Cell aggregates, 306 Fib-g-p[ HEMA], 435 Alginate scaffolds, 489 Cell attachment, 79 Fibrin, 435 Alkali-and heat-treatments, 409 Cell compatibility, 498 Fibrin deposition, 409 Alkaline phosphatase activity, 352 Cell culture, 369, 498 Fibroblast, 359 Amphiphilic lipid, 203 Cell rotation culture, 306 Fibronectin, 51 Animal study, 30 Cell-surface interactions, 429 Fibrous capsule, 462 Anodic oxide, 352 Cellular fluorescence, 136 Fluoride, 182 Antibacterial activity, 203 Characterization, 299 Fluorophore-assisted carbohydrate Antiinflammatory cytokine, 43 CO, laser, 9 electrophoresis, 257 Aortic valve, 257 Coatings, 24 Fourier transform infrared Apatite, 188, 283 Coaxial double-tubular graft, 170 spectroscopy (FTIR), 126 Apatite-formed titanium metal, 409 Collagen, 118, 511 Fracture, 482 Artificial biological cells, 237 Colloidal drug carriers, 319 Free radical grafting, 435 Aseptic loosening, 109 Compliance matching, 170 Functional groups, 319 Composite, 244 bFGF, 489 Composite microspheres, 222 Gas plasma, 327, 417 Bioactive glass, 344 Controlled release, 489 Gel permeation chromatography Bioactive materials, 71 Coralline hydroxyapatite, 222 (GPC), 126 Bioactive particles, 441 Corrosion, 182, 311 Gelatin, 306 Bioactivity, 60, 188, 344 Cortical bone, 229 Gelatin microspheres, 271 Bioartificial kidney, 144 Creep, 524 Genipin, 271 Bioceramics, 475 Crosslinking, 118, 271 Gentamicin, 222 Biocompatibility, 144, 164, 393 Cryomethods, 441 Glass—glass ceramic biphasic Biodegradability, 164 Cyclodextrin, 196 materials, 71 Biodegradable polymers, 60, 79 Cytokines, 89, 290, 393 Glow discharge, 327 Biodegradation, 170, 524 Glucose moieties, 136 Biofilm, 311 Glutaraldehyde, 271 Damage, 482 Biologically inspired materials, 260 Glycolipid, 379 Degradation, 60, 118 Biomaterials, 60, 244 Glycosaminoglycans, 257 Demineralized bone matrix, 37 Biomimetric process, 283, 511 Dental adhesive, 89 Biosurfactant, 379 Hank’s saline solution, 158 Disk-diffusion method, 203 Biphasic calcium phosphate, 475 Healing process, 170 Dissemination, 95 Blood plasma, 188 Heparin, 409 DNA, 203 Bone, 327 Hepatocyte, 306 DNA-lipid complex, 203 Bone-cell compatibility, 417 HepG2, 136 Drug delivery, 196 Bone cement, 215, 244 Hexafluoropropyene, 462 Dynamic compaction, 402 Bone defect repair, 447 Histology, 37 Dynamic viscoelasticity, 386 Bone formation, 468 Human, 290 Bone ingrowth, 43, 454 Human cortical bone, 482 Bone regeneration, 17 Elastic properties, 1 Human umbilical vein endothelial Bone resorption, 468 Elasto-mechanical properties, 237 cells, 51 Bone substitute, 402 Electrochemical processing, 24 Hydrogel, 196 Bovine calf serum, 158 Endothelial cells, 393, 498 Hydrogen embrittlement, 182 Energy Dissipation, 386 Hydrophobic domain, 209 Calcite, 188 Epithelial cells, 144 Hydroxiapatite-silver composite, 229 Calcium-deficient apatite, 402 Explanted, 95 Hydroxyapatite (HAP), 24, 299, 336, Calcium phosphate, 9, 299 Extracellular matrix, 359 352, 468 Journal of Biomedical Materials Research Vol. 65A, 543-544 (2003) SUBJECT INDEX ICAM-1 expression, 51 Nanoparticles, 319 Semiquantitative evaluation, 37 IL-6, 89 Ni-Ti, 182 Sericin, 283 Immunoglobulin G, 379 N,N-dimethylaminoethy] SHAp formation, 158 Immunohistochemistry, 109 methacrylate, 462 Shelf life, 435 In situ crosslinkable polymers, 260 Nonbiofouling, 164 Silk fiber, 283 In situ hybridization, 109 Noncollagenous matrix proteins, 109 Silk fibroin, 369 In situ setting cement, 17 Simulated body fluid (SBF), 188, 283 In vitro, 299, 344 Opsonization, 290 Smooth muscle, 1 In vitro bioactivity, 9 Oral implants, 359 Sodium alginate, 222 In vitro experiment, 402 Osteoblasts, 260 Sol gel, 344 In vitro release, 222 Osteocalcin production, 352 Sol-gel glasses, 71 In vitro release kinetics, 196 Osteoinduction, 17, 37 Solubilization, 209 Injectable cement, 215 Soybean6,0 Injectable drug delivery, 196 Paclitaxel, 209 Supramolecule, 196 Injectable hydrogels, 260 Particles, 290 Surface immobilization, 511 Integrin, 369, 511 PEO/PBT block copolymers, 417 Surface modification, 327, 498 Interfaces, 336 Phospholipid polymer, 164 Surface topography, 237 Interfacial kinetics, 311 Physiologic temperature, 158 Surfactant, 215 Interferon-B, 369 PLGA microspheres, 489 Synthetic hydroxyapatite, 229 Interleukin-10, 43 Poly (p,L-lactide), 327 Ions released, 441 Poly [3-0-(4'-vinylbenzyl)-D-glucose] Temporomandibular joint disc, 386 (PVG), 136 TetCP, 158 K/Na, 441 Polydepsipeptide, 79 Thermoplastic proteins, 60 Poly(ethylene oxide), 196 Thixotropic, 196 Lectins, 429 Polyethylene particles, 43, 454 THR, 95 Leukocyte activation, 429 Poly(lactic acid), 79 Tissue engineering, 79, 327, 417, 447, Leukocyte adhesion, 429 Poly(lactic-co-glycolic acid), 447 489 Light-cure dental adhesive, 89 Polymer aggregate, 209 Titania coating, 9 Load-bearing material, 126 Polymer hollow fibers, 144 Titanium, 336, 352, 393 Local laser treatment, 9 Polymeric lipid nanosphere, 209 Titanium metal, 409 LPS, 89 Polymer surface character, 51 Total joint arthroplasty, 290 Polymer surface modification, 417 Total joint replacement, 43 Macrophages, 89, 109, 290, 475 Polyurethane, 498, 524 Toughening mechanisms, 229 Macroporosity, 30 Porcine bioprosthetic valve, 257 Toxicity, 118 Macroporous cement, 215 Proanthocyanidin, 118 Tricalcium phosphate (TCP), 468 Magnetic materials, 71 Prosthetic wear debris, 95 Two-dimensional electrophoresis, 319 Mannosylerythritol lipid, 379 Protein adsorption, 164, 319 Marrow stromal cells, 260 Protein binding, 379 Mechanical property degradation, 482 Proteoglycans, 386 UHMWPE, 95 Mechanics, 1 Membrane, 369 Rabbits, 454 Vascularization, 489 Metal-protein binding, 311 Raman microprobe spectroscopy, 229 VCAM-1 expression, 51 Metal release, 311 Rat model, 37 Versican, 257 Methacrylate and IL-6, 89 Recombinant human bone Vessel density, 462 Methacrylic acid, 462 morphogenetic protein-2, 17 Vinyl acetate, 24 2-Methacryloyloxyethy] Regenerative medicine, 47 phosphorylcholine polymer, 209 Resorbable cement, 17 Microcarriers, 306 Rheology, 196 Wound-healing, 435 Microcrack, 482 Microfiber, 462 Scaffold, 447 X-ray diffraction, 196 Micromachine, 359 Scanning acoustic microscopy, 237 X-ray microanalysis, 441 Migration, 260 Secretion, 475 Models, 1 Segmented polyurethane, 170 Multigrooves, 359 Self-assembled monolayers, 429 Zinc, 468

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