Table Of Content

Journal of Biomedical Materials Research Part A Author Index—Volume 64A Abraham, G. A. composed of glutamic acid and Blanquaert, F. —; Gallardo, A.; San Roman, J.; aspartic acid matrix, 282 —; Carpentier, G.; Morvan, F.; Fernandez-Mayoralas, A.; Zurita, Bae, Y. H. See Park, J. H., 309 Caruelle, J.-P.; Barritault, D.; M.; Vaquero, J.: Polymeric Balooch, M. See Gallagher, R. R., 372 Tardieu, M.: RGTA modulates the matrices based on graft Bancroft, G. N. See van den Dolder, healing pattern of a defect in a copolymers of PCL onto acrylic 1.230 monolayer of osteoblastic cells by backbones for releasing Barber, T. A. acting on both proliferation and antitumoral drugs, 638 —; Golledge, S. L.; Castner, D. G.; migration, 525 Abraham, G. A. See de Queiroz, Healy, K. E.: Peptide-modified Bocker, W. See Eltze, E., 12 A. A. A., 147 p(AAm-co-EG/AAc) IPNs grafted Bolarin, A. See Coreno, J., 131 Adams, A. See Samouillan, V., 330 to bulk titanium modulate Bonassar, L. J. See Peretti, G. M., 517 Agarwal, S. See Ganta, S. R., 242 Bonfield, W. See Lusquifios, F., 630 osteoblast behavior in vitro, 38 Akin, F. A. See Zreigat, H., 105 Barbolt, T. See Anand, V. P., 648 Bonnema, H. Anand, V. P. Barrére, F. —; Popa, E. R; van Timmeren, M. M.; —; Cogdill, C. P.; Klausner, K. A.; —; van der Valk, C. M.; Dalmeijer, van Wachem, P. B.; de Leij, Lister, L.; Barbolt, T.; Page, B. F. J.; R. A. J.; van Blitterswijk, C. A.; de L. F. M. H.; van Luyn, M. J. A.: Urbanski, P.; Woss, C. J.; Boyce, J.: Groot, K.; Layrolle, P.: In vitro and Distribution patterns of the Reevaluation of ethylene oxide membrane glycoprotein CD44 in vivo degradation of biomimetic hemolysis and irritation potential, during the foreign-body reaction octacalcium phosphate and 648 to a degradable biomaterial in rats carbonate apatite coatings on Anderson, J. M. See Brodbeck, W. G., and mice, 502 titanium implants, 378 320 Born, R. See ROGler, S., 655 Barritault, D. See Blanquaert, F., 525 Andersson, A. See King, A., 533 Bosetti, M. Barros, V. M. R. See Beloti, M. M., 171 Andersson, A.-S. —; Reno, F.; Bracco, P.; Costa, L.; Basalyga, D. M. —; Glasmastar, K.; Sutherland, D.; Cannas, M.: Ultra-high molecular Lidberg, U.; Kasemo, B.: Cell —,; Latour, R. A., Jr.: Theoretical weight polyethylene oxidation analysis of adsorption adhesion on supported lipid reduces metalloproteinase 2 thermodynamics for charged bilayers, 622 secretion in human osteoblast-like peptide residues on SAM surfaces Anseth, K. S. See Bryant, S. J., 70 cells in vitro: A mechanism of of varying functionality, 120 Anseth, K. S. See Poshusta, A. K., 62 modulation of extracellular matrix, Beloti, M. M. Arias, J. L. See Lusquinos, F., 630 698 —; Hiraki, K. R. N.; Barros, V. M. R.; Arora, A. Bosetti, M. —-; Song, Y.; Chun, L.; Huie, P.; Rosa, A. L.: Effect of the chemical —; Zanardi, L.; Hench, L.; Cannas, Trindade, M.; Smith, R. L.; composition of Ricinus communis M.: Type I collagen production by Goodman, S.: The role of the TH1 polyurethane on rat bone marrow osteoblast-like cells cultured in and TH2 immune responses in cell attachment, proliferation, and contact with different bioactive loosening and osteolysis of differentiation, 171 glasses, 189 cemented total hip replacements, Bergkvist, M. Botter, R. See Torricelli, P., 182 693 —,; Carlsson, J.; Oscarsson, S.: Boutinguiza, M. See Lusquifios, F., Asazuma, T. See Sato, M., 249 Surface-dependent conformations 630 of human plasma fibronectin Boyce, J. See Anand, V. P., 648 adsorbed to silica, mica, and Bracco, P. See Bosetti, M., 698 Babensee, J. E. See Lester, E. A., 397 hydrophobic surfaces, studied Bravo, A. L. See de Queiroz, A. A. A., Bachi, T. See Vernon, B., 447 with use of Atomic Force 147 Bae, S. K. Microscopy, 349 Brodbeck, W. G. —; Kim, J.-D.: Aggregation behaviors Beruto, D. See Torricelli, P., 182 —; Voskerician, G.; Ziats, N. P.; and their pH sensitivity of Best, S. See Lusquinos, F., 630 Nakayama, Y.; Matsuda, T.; cholesterol-conjugated proteinoids Bettendorf, O. See Eltze, E., 12 Anderson, J. M.: In vivo leukocyte Journal of Biomedical Materials Research, Vol. 64A, 716-721 (2003) Journal of Biomedical Materials Research Part A Author Index—Volume 64A Abraham, G. A. composed of glutamic acid and Blanquaert, F. —; Gallardo, A.; San Roman, J.; aspartic acid matrix, 282 —; Carpentier, G.; Morvan, F.; Fernandez-Mayoralas, A.; Zurita, Bae, Y. H. See Park, J. H., 309 Caruelle, J.-P.; Barritault, D.; M.; Vaquero, J.: Polymeric Balooch, M. See Gallagher, R. R., 372 Tardieu, M.: RGTA modulates the matrices based on graft Bancroft, G. N. See van den Dolder, healing pattern of a defect in a copolymers of PCL onto acrylic 1.230 monolayer of osteoblastic cells by backbones for releasing Barber, T. A. acting on both proliferation and antitumoral drugs, 638 —; Golledge, S. L.; Castner, D. G.; migration, 525 Abraham, G. A. See de Queiroz, Healy, K. E.: Peptide-modified Bocker, W. See Eltze, E., 12 A. A. A., 147 p(AAm-co-EG/AAc) IPNs grafted Bolarin, A. See Coreno, J., 131 Adams, A. See Samouillan, V., 330 to bulk titanium modulate Bonassar, L. J. See Peretti, G. M., 517 Agarwal, S. See Ganta, S. R., 242 Bonfield, W. See Lusquifios, F., 630 osteoblast behavior in vitro, 38 Akin, F. A. See Zreigat, H., 105 Barbolt, T. See Anand, V. P., 648 Bonnema, H. Anand, V. P. Barrére, F. —; Popa, E. R; van Timmeren, M. M.; —; Cogdill, C. P.; Klausner, K. A.; —; van der Valk, C. M.; Dalmeijer, van Wachem, P. B.; de Leij, Lister, L.; Barbolt, T.; Page, B. F. J.; R. A. J.; van Blitterswijk, C. A.; de L. F. M. H.; van Luyn, M. J. A.: Urbanski, P.; Woss, C. J.; Boyce, J.: Groot, K.; Layrolle, P.: In vitro and Distribution patterns of the Reevaluation of ethylene oxide membrane glycoprotein CD44 in vivo degradation of biomimetic hemolysis and irritation potential, during the foreign-body reaction octacalcium phosphate and 648 to a degradable biomaterial in rats carbonate apatite coatings on Anderson, J. M. See Brodbeck, W. G., and mice, 502 titanium implants, 378 320 Born, R. See ROGler, S., 655 Barritault, D. See Blanquaert, F., 525 Andersson, A. See King, A., 533 Bosetti, M. Barros, V. M. R. See Beloti, M. M., 171 Andersson, A.-S. —; Reno, F.; Bracco, P.; Costa, L.; Basalyga, D. M. —; Glasmastar, K.; Sutherland, D.; Cannas, M.: Ultra-high molecular Lidberg, U.; Kasemo, B.: Cell —,; Latour, R. A., Jr.: Theoretical weight polyethylene oxidation analysis of adsorption adhesion on supported lipid reduces metalloproteinase 2 thermodynamics for charged bilayers, 622 secretion in human osteoblast-like peptide residues on SAM surfaces Anseth, K. S. See Bryant, S. J., 70 cells in vitro: A mechanism of of varying functionality, 120 Anseth, K. S. See Poshusta, A. K., 62 modulation of extracellular matrix, Beloti, M. M. Arias, J. L. See Lusquinos, F., 630 698 —; Hiraki, K. R. N.; Barros, V. M. R.; Arora, A. Bosetti, M. —-; Song, Y.; Chun, L.; Huie, P.; Rosa, A. L.: Effect of the chemical —; Zanardi, L.; Hench, L.; Cannas, Trindade, M.; Smith, R. L.; composition of Ricinus communis M.: Type I collagen production by Goodman, S.: The role of the TH1 polyurethane on rat bone marrow osteoblast-like cells cultured in and TH2 immune responses in cell attachment, proliferation, and contact with different bioactive loosening and osteolysis of differentiation, 171 glasses, 189 cemented total hip replacements, Bergkvist, M. Botter, R. See Torricelli, P., 182 693 —,; Carlsson, J.; Oscarsson, S.: Boutinguiza, M. See Lusquifios, F., Asazuma, T. See Sato, M., 249 Surface-dependent conformations 630 of human plasma fibronectin Boyce, J. See Anand, V. P., 648 adsorbed to silica, mica, and Bracco, P. See Bosetti, M., 698 Babensee, J. E. See Lester, E. A., 397 hydrophobic surfaces, studied Bravo, A. L. See de Queiroz, A. A. A., Bachi, T. See Vernon, B., 447 with use of Atomic Force 147 Bae, S. K. Microscopy, 349 Brodbeck, W. G. —; Kim, J.-D.: Aggregation behaviors Beruto, D. See Torricelli, P., 182 —; Voskerician, G.; Ziats, N. P.; and their pH sensitivity of Best, S. See Lusquinos, F., 630 Nakayama, Y.; Matsuda, T.; cholesterol-conjugated proteinoids Bettendorf, O. See Eltze, E., 12 Anderson, J. M.: In vivo leukocyte Journal of Biomedical Materials Research, Vol. 64A, 716-721 (2003) AUTHOR INDEX cytokine mRNA responses to Davies, J. E. See Karp, J. M., 388 Gallardo, A. See Abraham, G. A., 638 biomaterials are dependent on Dawson, R. A. See Haddow, D. B., 80 Gambillara, V. See Koenig, A. L., 20 surface chemistry, 320 de Bruijn, J. D. See Claase, M. B., 291 Ganta, S. R. Brusotti, C. See Zaffe, D., 365 De Carlos, A. See Lusquifios, F., 630 —; Piesco, N. P.; Long, P.; Gassner, Bryant, S. J. de Groot, K. See Barrére, F., 378 R.; Motta, L. F.; Papworth, G. D.; —,; Anseth, K. S.: Controlling the de Leij, L. F. M. H. See Bonnema, H., Stolz, D. B.; Watkins, S. C.,; spatial distribution of ECM 502 Agarwal, S.: Vascularization and components in degradable PEG de Queiroz, A. A. A. tissue infiltration of a hydrogels for tissue engineering —; Ferraz, H. G.; Abraham, G. A.; del biodegradable polyurethane cartilage, 70 Mar Fernandez, M.; Bravo, A. L.; matrix, 242 Burdick, J. A. See Poshusta, A. K., 62 San Roman, J.: Development of Gassner, R. See Ganta, S. R., 242 new hydroactive dressings based Giardino, R. See Torricelli, P., 182 on chitosan membranes: Giavaresi, G. See Torricelli, P., 182 Cannas, M. See Bosetti, M., 189 Characterization and in vivo Gibson, I. See Lusquifios, F., 630 Cannas, M. See Bosetti, M., 698 behavior, 147 Glasmiastar, K. See Andersson, A.-S., Cao, Y. See Mao, J., 301 de Ruijter, J. E. See Vehof, J. W. M., 622 Carlsson, J. See Bergkvist, M., 349 417 Golledge, S. L. See Barber, T. A., 38 Carpentier, G. See Blanquaert, F., 525 de Yao, K. See Mao, J., 301 Goodman, S. See Arora, A., 693 Caruelle, J.-P. See Blanquaert, F., 525 del Mar Fernandez, M. See de Grainger, D. W. See Koenig, A. L., 20 Castner, D. G. See Barber, T. A., 38 Queiroz, A. A. A., 147 Griepentrog, M. See Groessner- Castner, D. G. See Wagner, M. S., 1 Demos, S. G. See Gallagher, R. R., 372 Schreiber, B., 591 Cavani, F. See Zaffe, D., 365 Driessens, F. C. M. See Lusquifos, F., Grijpma, D. W. See Claase, M. B., 291 Champagne, C. M. See Takebe, J., 207 630 Grodzinsky, A. J. See Lee, C. R., 560 Chang, C.-N. See Yang, J. M., 138 Groessner-Schreiber, B. Chang, W.-H. See Sung, H.-W., 427 —; Neubert, A.; Miller, W.-D.; Hopp, Chapman, J. See Li, C., 197 Ebenstein, D. See Li, C., 197 M.; Griepentrog, M.; Lange, K.-P.: Chen, L.-T. See Sun, J.-S., 616 El-Amin, S. F. See Lu, H. H., 465 Fibroblast growth on Chen, W.-C. Eltze, E. surface-modified dental implants: —-; Lin, J.-H. C.; Ju, C.-P.: —; Bettendorf, O.; Rody, A.; Jackisch, An in vitro study, 591 Transmission electron microscopic C.; Herchenréder, F.; Bocker, W.; Gross, K. A. study on setting mechanism of Pfleiderer, B.: Influence of local —,; Ezerietis, E.: Juniper wood as a tetracalcium phosphate/dicalcium complications on capsule possible implant material, 672 phosphate anhydrous-based formation around model implants calcium phosphate cement, 664 in a rat AQ1 model, 12 Chen, Y.-L. See Ma, H.-L., 273 Espevik, T. See Strand, B. L., 540 Haddow, D. B. Chun, L. See Arora, A., 693 Evans, M. D. M. —; Steele, D. A.; Short, R. D.; Dawson, Claase, M. B. —; Taylor, S.; Dalton, B. A.; Lohmann, R. A.; MacNeil, S.: —; Grijpma, D. W.; Mendes, S. C.; de D.: Polymer design for corneal Plasma-polymerized surfaces for Bruijn, J. D.; Feijen, J.: Porous epithelial tissue adhesion: Pore culture of human keratinocytes PEOT/PBT scaffolds for bone density, 357 and transfer of cells to an in vitro tissue engineering: Preparation, Ezerietis, E. See Gross, K. A., 672 wound-bed model, 80 characterization, and in vitro bone Haldimann, D. See Vernon, B., 447 marrow cell culturing, 291 Hanley, L. See Zreigat, H., 105 Cogdill, C. P. See Anand, V. P., 648 Feijen, J. See Claase, M. B., 291 Hattori, H. See Ishihara, M., 551 Cooper, L. F. See Takebe, J., 207 Fellers, J. See Peretti, G. M., 517 Haynes, D. See Zreiqat, H., 105 Corenio, J. Fernandez, M. See Manso, M., 600 Healy, K. E. See Barber, T. A., 38 —; Martinez, A.; Coreno, O.; Bolarin, Fernandez-Mayoralas, A. See Hench, L. See Bosetti, M., 189 A.; Sanchez, F.: Calcium and Abraham, G. A., 638 Herchenréder, F. See Eltze, E., 12 phosphate adsorption as initial Ferraz, H. G. See de Queiroz, Herrero, P. See Manso, M., 600 steps of apatite nucleation on A. A. A., 147 Higashiyama, S. sol-gel-prepared titania surface, Fini, M. See Torricelli, P., 182 —; Noda, M.; Kawase, M.; Yagi, K.: ist Fujibayashi, S. See Uchida, M., 164 Mixed-ligand modification of Coreno, O. See Coren, J., 131 Fujikawa, K. See Sato, M., 249 polyamidoamine dendrimers to Costa, L. See Bosetti, M., 698 Fujita, M. See Ishihara, M., 551 develop an effective scaffold for maintenance of hepatocyte spheroids, 475 Dalmeijer, R. A. J. See Barrére, F., 378 Gallagher, R. R. Higgs, R. J. E. D. See Lucksanasombool, Dalton, B. A. See Evans, M. D. M., —; Demos, S. G.; Balooch, M.; P68 357 Marshall, G. W., Jr.; Marshall, S. J.: Higgs, W. A. J. See Lucksanasombool, Dandurand, J. See Samouillan, V., 330 Optical spectroscopy and imaging P., 93 Dard, M. See R6fler, S., 655 of the dentin-enamel junction in Hing, K. See Lusquifios, F., 630 Dard, M. See Schliephake, H., 225 human third molars, 372 Hiraki, K. R. N. See Beloti, M. M., 171 AUTHOR INDEX Hollinger, J.O. See Hu, Y., 583 Kawasaki, T. See Yokoyama, A., 491 Lee, M.-H. See Sung, H.-W., 427 Hon, M.-H. See Wang, J.-W., 262 Kawase, M. See Higashiyama, S., 475 Lee, Y. H. Hopp, M. See Groessner-Schreiber, B., Kikuchi, M. See Ishihara, M., 551 —; Nakamura, T.; Shimizu, Y.; 591 Kikuchi, M. See Sato, M., 249 Yamamoto, Y.; Kiyotani, T.; Tsuda, Horbett, T. A. See Wagner, M. S., 1 Kikuchi, T. See Sato, M., 249 T.; Teramachi, M.; Takimoto, Y.: Horinouchi, H. See Kobayashi, K., 48 Kim, H.-M. See Oyane, A., 339 Regeneration of serous membrane Howlett, C. R. See Zreigat, H., 105 Kim, H.-M. See Uchida, M., 164 on gelatin-processed polyglycolic Hsu, Y. G. See Yang, J. M., 138 Kim, J.-D. See Bae, S. K., 282 acid (PGA)-human collagen Hu, Y. King, A. membrane and its efficacy on the —; Winn, S. R.; Krajbich, I.; Hollinger, —,; Strand, B.; Rokstad, A.-M.; prevention of adhesion, 88 J. O.: Porous polymer scaffolds Kulseng, B.; Andersson, A.; Leon, B. See Lusquinos, F., 630 surface-modified with Skjak-Breek, G.; Sandler, S.: Lester, E. A. arginine-glycine-aspartic acid Improvement of the —,; Babensee, J. E.; Proinflammatory enhance bone cell attachment and biocompatibility of phenotype of endothelial cells differentiation in vitro, 583 algin/ap otley- L-lysine /alginate after coculture with Huang, Y.-C. See Sun, J.-S., 616 microcapsules by the use of biomaterial-treated blood cells, 397 Hubbell, J. A. See Vernon, B., 447 epimerized alginate as a coating, Lewis, J. B. Huie, P. See Arora, A., 693 533 —; Randol, T. M.; Lockwood, P. E.; Hung, S.-C. See Ma, H.-L., 272 Kiyotani, T. See Lee, Y. H., 88 Wataha, J. C.: Effect of subtoxic Hiittmann, C. See Schliephake, H., Klausner, K. A. See Anand, V. P., 648 concentrations of metal ions on 225 Kobayashi, K. NF«B activation in THP-1 human —; Komatsu, T.; Iwamaru, A.; monocytes, 217 Matsukawa, Y.; Horinouchi, H.; L7G Ichimura, S. See Sato, M., 249 Watanabe, M.; Tsuchida, E.: —,; Ebenstein, D.; Xu, C.; Chapman, J.; Ignat, M. See Lucksanasombool, P., Oxygenation of hypoxic region in Saloner, D.; Rapp, J.; Pruitt, L.: 93 solid tumor by administration of Biochemical characterization of Ikeuchi, K. See Shibata, N., 570 human serum albumin atherosclerotic plaque constituents Ishibashi, K. See Takebe, J., 207 incorporating synthetic hemes, 48 using FTIR spectroscopy and Ishihara, K. See Sawada, S., 411 Kobayashi, K. See Tsuchida, E., 257 histology, 197 Ishihara, M. Koenig, A. L. Lidberg, U. See Andersson, A.-S., 622 —; Obara, K.; Ishizuka, T.; Fujita, M.; —; Gambillara, V.; Grainger, D. W.: Lin, F.-H. See Sun, J.-S., 616 Sato, M.; Masuoka, K.; Saito, Y.; Correlating fibronectin adsorption Lin, F. H. See Yang, J. M., 138 Yura, H.; Matsui, T.; Hattori, H.; with endothelial cell adhesion and Lin, J.-H. C. See Chen, W.-C., 664 Kikuchi, M.; Kurita, A.: Controlled signaling on polymer substrates, Lin, S.-Y. See Ma, H.-L., 273 release of fibroblast growth 20 Lister, L. See Anand, V. P., 648 factors and heparin from Kohgo, T. See Yokoyama, A., 491 Liu, H.-C. See Wang, J.-H., 606 photocrosslinked chitosan Kokubo, T. See Oyane, A., 339 Lo, W.-H. See Ma, H.-L., 273 hydrogels and subsequent effect Kokubo, T. See Uchida, M., 164 Lockwood, P. E. See Lewis, J. B., 217 on in vivo vascularization, 551 Komatsu, T. See Kobayashi, K., 48 Lohmann, D. See Evans, M. D. M., Ishihara, M. See Sato, M., 249 Komatsu, T. See Tsuchida, E., 257 Sor Ishizuka, T. See Ishihara, M., 551 Krajbich, I. See Hu, Y., 583 Long, P. See Ganta, S. R., 242 Ito, A. See Oyane, A., 339 Kulseng, B. See King, A., 533 Lu, H. H. Iwamaru, A. See Kobayashi, K., 48 Kurita, A. See Ishihara, M., 551 —,; El-Amin, S. F.; Scott, K. D.; Iwasaki, Y. See Sawada, S., 441 Kurita, A. See Sato, M., 249 Laurencin, C. T.: Three- dimensional, bioactive, biodegradable, polymer-bioactive Jackisch, C. See Eltze, E., 12 Lacabanne, C. See Samouillan, V., 330 glass composite scaffolds with Jansen, J. A. See van den Dolder, J., Lange, K.-P. See Groessner-Schreiber, improved mechanical properties 235 B., 591 support collagen synthesis and Jansen, J. A. See Vehof, J. W. M., 417 Langlet, M. See Manso, M., 600 mineralization of human Jiang, J. M. See Yang, J. M., 138 Lateef, S. See Zreiqat, H., 105 osteoblast-like cells in vitro, 465 Ju, C.-P. See Chen, W.-C., 664 Latour, R. A., Jr. See Basalyga, D. M., Lucksanasombool, P. 120 —; Higgs, W. A. J.; Ignat, M.; Higgs, Laurencin, C. T. See Lu, H. H., 465 R. J. E. D.; Swain, M. V.: Karp, J. M. Layrolle, P. See Barrére, F., 378 Comparison of failure —-; Shoichet, M. S.; Davies, J. E.: Bone Lee, C. H. See Singla, A., 706 characteristics of a range of formation on two-dimensional Lee, C. R. cancellous bone—bone cement poly(DL-lactide-co-glycolide) —; Grodzinsky, A. J.; Spector, M.: composites, 93 (PLGA) films and three- Biosynthetic response of passaged Lusquiifios, F. dimensional PLGA tissue chondrocytes in a type II collagen —; De Carlos, A.; Pou, J.; Arias, J. L.; engineering scaffolds in vitro, 388 scaffold to mechanical Boutinguiza, M.; Leon, B.; Kasemo, B. See Andersson, A.-S., 622 compression, 560 Pérez-Amor, M.; Driessens, AUTHOR INDEX F.C. M.; Hing, K.; Gibson, I.; Best, Morch, Y. A. See Strand, B. L., 540 Peretti, G. M. S.; Bonfield, W.: Calcium Mortisen, D. J. See Poshusta, A. K., 62 —; Zaporojan, V.; Spangenberg, phosphate coatings obtained by Morvan, F. See Blanquaert, F., 525 K. M.; Randolph, M. A.; Fellers, J.; Nd:YAG laser cladding: Motta, L. F. See Ganta, S. R., 242 Bonassar, L. J.: Cell-based bonding Physicochemical and biologic Miiller, W.-D. See Groessner- of articular cartilage: An extended properties, 630 Schreiber, B., 591 study, 517 Pérez-Amor, M. See Lusquinos, F., Ma, C.-Y. See Sung, H.-W., 427 630 Ma, H.-L. Nakabayashi, N. See Sawada, S., 411 Pernodet, N. —; Hung, S.-C.; Lin, S.-Y.; Chen, Nakagawa, A. See Tsuchida, E., 257 —; Rafailovich, M.; Sokolov, J.; Xu, Y.-L.; Lo, W.-H.: Chondrogenesis Nakamura, A. See Nakaoka, R., 439 D.; Yang, N.-L.; McLeod, K.: of human mesenchymal stem cells Fibronectin fibrillogenesis on Nakamura, T. See Lee, Y. H., 88 encapsulated in alginate beads, 273 sulfonated polystyrene surfaces, Nakamura, T. See Oyane, A., 339 MacNeil, S. See Haddow, D. B., 80 Nakamura, T. See Uchida, M., 164 684 Manias, E. See Xu, R., 114 Nakaoka, R. Pfleiderer, B. See Eltze, E., 12 Manso, M. —; Tsuchiya, T.; Nakamura, A.: Piesco, N. P. See Ganta, S. R., 242 —; Herrero, P.; Fernandez, M.; Neural differentiation of midbrain Pietrabissa, R. See Zaffe, D., 365 Langlet, M.; Martinez-Duart, J. M.: cells on various protein- Popa, E. R See Bonnema, H., 502 Textured hydroxyapatite interface immobilized polyethylene films, Poshusta, A. K. onto biomedical titanium-based 439 —; Burdick, J. A.; Mortisen, D. J.; coatings, 600 Nakasu, M. See Yokoyama, A., 491 Padera, R. F.; Ruehlman, D.; Mao, J. Nakayama, Y. Yaszemski, M. J.; Anseth, K. S.: —; Zhao, L.; de Yao, K.; Shang, Q.; —; Nishi, S.; Ueda-Ishibashi, H.; Histocompatibility of Yang, G.; Cao, Y.: Study of novel Matsuda, T.: Fabrication of photocrosslinked polyanhydrides: chitosan-gelatin artificial skin in micropored elastomeric A novel in situ forming vitro, 301 film-covered stents and orthopaedic biomaterial, 62 Markovic, B. See Zreigat, H., 105 acute-phase performances, 52 Pou, J. See Lusquifios, F., 630 Marshall, G. W., Jr. See Gallagher, Nakayama, Y. See Brodbeck, W. G., Pruitt, L. See Li, C., 197 R. R., 372 320 Marshall, S. J. See Gallagher, R. R., Nasser, S. See Sieving, A., 457 Quaglini, V. See Zaffe, D., 365 372 Neubert, A. See Groessner-Schreiber, Martinez, A. See Coreno, J., 131 B., 591 Martinez-Duart, J. M. See Manso, M., Nimura, Y. See Mizuno, K., 177 Rafailovich, M. See Pernodet, N., 684 600 Nishi, S. See Nakayama, Y., 52 Randol, T. M. See Lewis, J. B., 217 Masuoka, K. See Ishihara, M., 551 Noda, M. See Higashiyama, S., 475 Randolph, M. A. See Peretti, G. M., Masuoka, K. See Sato, M., 249 517 Mathur, A. B. Rapp, J. See Li, C., 197 —,; Truskey, G. A.; Reichert, W. M.: Obara, K. See Ishihara, M., 551 Reichert, W. M. See Mathur, A. B., Synergistic effect of high-affinity binding and flow preconditioning Offenbacher, S. See Takebe, J. , 207 155 Ong, J. L. See Yang, Y., 509 Reno, F. See Bosetti, M., 698 on endothelial cell adhesion, 155 Onuma, K. See Oyane, A., 339 Rizzo, S. See Zaffe, D., 365 Matsuda, T. See Brodbeck, W. G., 320 Rodriguez y Baena, R. See Zaffe, D., Osada, T. See Mizuno, K., 177 Matsuda, T. See Nakayama, Y., 52 365 Oscarsson, S. See Bergkvist, M., 349 Matsui, T. See Ishihara, M., 551 Oyane, A. Rody, A. See Eltze, E., 12 Matsukawa, Y. See Kobayashi, K., 48 Rokstad, A.-M. See King, A., 533 —; Onuma, K.; Ito, A.; Kim, H.-M.; Matsukawa, Y. See Tsuchida, E., 257 Rosa, A. L. See Beloti, M. M., 171 Kokubo, T.; Nakamura, T.: Matsuno, H. See Yokoyama, A., 491 ROoGler. S. Mayton, L. See Sieving, A., 457 Formation and growth of clusters —; Sewing, A.; Stélzel, M.; Born, R.; in conventional and new kinds of McLeod, K. See Pernodet, N., 684 simulated body fluids, 339 Scharnweber, D.; Dard, M.; Worch, Mendes, S. C. See Claase, M. B., 291 H.: Electrochemically assisted Mikos, A. G. See van den Dolder, J., deposition of thin calcium 230 phosphate coatings at Mizuno, K. Padera, R. F. See Poshusta, A. K., 62 near-physiological pH and —; Yamamura, K.; Yano, K.; Osada, Page, B. F. J. See Anand, V. P., 648 temperature, 655 T.; Saeki, S.; Takimoto, N.; Sakurai, Papworth, G. D. See Ganta, S. R., 242 RdGler, S. See Schliephake, H., 225 T.; Nimura, Y.: Effect of chitosan Park, J. H. Ruehlman, D. See Poshusta, A. K., 62 film containing basic fibroblast —; Bae, Y. H.: Hydrogels based on Runt, J. See Xu, R., 114 growth factor on wound healing poly(ethylene oxide) and in genetically diabetic mice, 177 poly(tetramethylene oxide) or Moore, M. See Samouillan, V., 330 poly(dimethyl siloxane). III. In vivo Saeki, S. See Mizuno, K., 177 Moradian-Oldak, J. See Wen, H. B., biocompatibility and biostability, Saito, Y. See Ishihara, M., 5 483 309 Sakai, H. See Tsuchida, E., AUTHOR INDEX Sakaki, S. See Sawada, S., 411 characteristics of total joint morphogenetic protein 2 Sakurai, T. See Mizuno, K., 177 arthroplasty-derived ultra-high expression in the J774A.1 Saloner, D. See Li, C., 197 molecular weight polyethylene macrophage cell line, 207 Samouillan, V. (UHMWPE) wear debris that Takimoto, N. See Mizuno, K., 177 —,; Dandurand, J.; Lacabanne, C.; provoke inflammation in a murine Takimoto, Y. See Lee, Y. H., 88 Thoma, R. J.; Adams, A.; Moore, model of inflammation, 457 M.: Comparison of chemical Sikavitsas, V. I. See van den Dolder, treatments on the chain dynamics ].,290 Teramachi, M. See Lee, Y. H., 88 and thermal stability of bovine Singla, A. Thoma, R.J . See Samouillan, V., 330 pericardium collagen, 330 —,; Lee, C. H.: Inhibition of CEM Tirelli, N. See Vernon, B., 447 San Roman, J. See Abraham, G. A., calcification by the sequential Tomita, N. See Shibata, N., 570 638 pretreatment with ethanol and Torricelli, P. San Roman, J. See de Queiroz, EDTA, 706 —; Fini, M.; Giavaresi, G.; Botter, R.; A. A. A., 147 Skjak-Brek, G. See King, A., 533 Beruto, D.; Giardino, R.: Sanchez, F. See Corefio, J., 13 1 Skjak-Brek, G. See Strand, B. L., 540 Biomimetic PMMA-based bone Sandler, S. See King, A., 533 Smith, R. L. See Arora, A., 693 substitutes: A comparative in vitro Sato, M. Snyder, A.J. See Xu, R., 114 evaluation of the effects of pulsed —; Asazuma, T.; Ishihara, M.; Sokolov, J. See Pernodet, N., 684 electromagnetic field exposure, 182 Kikuchi, T.; Masuoka, K.; Soncini, M. See Zaffe, D., 365 Trindade, M. See Arora, A., 693 Ichimura, S.; Kikuchi, M.; Kurita, Song, Y. See Arora, A., 693 Truskey, G. A. See Mathur, A. B., 155 A.; Fujikawa, K.: An atelocollagen Spangenberg, K. M. See Peretti, Tsuchida, E. honeycomb-shaped scaffold with a G. M., 517 —; Komatsu, T.; Matsukawa, Y.; membrane seal (ACHMS-scaffold) Spauwen, P. H. M. See van den Nakagawa, A.; Sakai, H.; for the culture of annulus fibrosus Dolder, J., 235 Kobayashi, K.; Suematsu, M.: cells from an intervertebral disc, Spauwen, P. H. M. See Vehof, Human serum albumin 249 J. W. M., 417 incorporating synthetic heme: Red Sato, M. See Ishihara, M., 551 Spector, M. See Lee, C. R., 560 blood cell substitute without Sawada, S. Steele, D. A. See Haddow, D. B., 80 hypertension by nitric oxide —; Sakaki, S.; Iwasaki, Y.; Stolz, D. B. See Ganta, S. R., 242 scavenging, 257 Nakabayashi, N.; Ishihara, K.: Stdlzel, M. See R6fGler, S., 655 Tsuchida, E. See Kobayashi, K., 48 Suppression of the inflammatory Strand, B. See King, A., 533 Tsuchiya, T. See Nakaoka, R., 439 response from adherent cells on Strand, B. L. Tsuda, T. See Lee, Y. H., 88 phospholipid polymers, 411 —; Merch, Y. A.; Syvertsen, K. R.; Scharnweber, D. See ROGler, S., 655 Espevik, T.; Skjak-Breek, G.: Uchida, M. Microcapsules made by Scharnweber, D. See Schliephake, H., —; Kim, H.-M.; Kokubo, T.; 225 enzymatically tailored alginate, Fujibayashi, S.; Nakamura, T.: Schliephake, H. 540 Structural dependence of apatite —; Scharnweber, D.; Dard, M.; Su, W. Y. See Yang, J. M., 138 formation on titania gels in a R6Gler, S.; Sewing, A.; Hiittmann, Suematsu, M. See Tsuchida, E., 257 simulated body fluid, 164 C.: Biological performance of Sun, J.-S. Ueda-Ishibashi, H. See Nakayama, biomimetic calcium phosphate —; Huang, Y.-C.; Lin, F.-H.; Chen, ¥ooe coating of titanium implants in the L.-T.: The effect of sintered Uo, M. See Yokoyama, A., 491 dog mandible, 225 dicalcium pyrophosphate on Urbanski, P. See Anand, V. P., 648 Scott, K. D. See Lu, H. H., 465 osteoclast metabolism: An See, L. C. See Yang, J. M., 138 ultrastructural study, 616 Sewing, A. See RGGler, S., 655 Sung, H.-W. van Blitterswijk, C. A. See Barreére, F., Sewing, A. See Schliephake, H., 225 —,; Chang, W.-H.; Ma, C.-Y.; Lee, 378 Shang, Q. See Mao, J., 301 M.-H.: Crosslinking of biological van den Dolder, J. Shen, M. See Wagner, M.S., 1 tissues using genipin and/or —; Bancroft, G. N.; Sikavitsas, V. I; Shibata, N. carbodiimide, 427 Spauwen, P. H. M.; Jansen, J. A.; —; Tomita, N.; Ikeuchi, K.: Numerical Sutherland, D. See Andersson, A.-S., Mikos, A. G.: Flow perfusion simulations on fatigue destruction 622 culture of marrow stromal of ultra-high molecular weight Swain, M. V. See Lucksanasombool, osteoblasts in titanium fiber mesh, polyethylene using discrete P93 235 element analyses, 570 Syvertsen, K. R. See Strand, B. L., 540 van den Dolder, J. See Vehof, Shih, C. H. See Yang, J. M., 138 J. W. M., 417 Shimizu, Y. See Lee, Y. H., 88 van der Valk, C. M. See Barrére, F., Shoichet, M. S. See Karp, J. M., 388 Takebe, J. 378 Short, R. D. See Haddow, D. B., 80 —; Champagne, C. M.; Offenbacher, van Luyn, M. J. A. See Bonnema, H., Sieving, A. S.; Ishibashi, K.; Cooper, L. F.: 502 —; Wu, B.; Mayton, L.; Nasser, S.; Titanium surface topography alters van Timmeren, M. M. See Bonnema, Wooley, P. H.: Morphological cell shape and modulates bone H,, 502 AUTHOR INDEX van Wachem, P. B. See Bonnema, H., Watkins, S. C. See Ganta, S. R., 242 properties of hydroxyapatite 502 Wei, C.-W. See Wang, J.-H., 606 coating on Ti, ZrO,-coated Ti, and Vaquero, J. See Abraham, G. A., 638 Wen, H. B. TPS-coated Ti substrate, 509 Vehof, J. W. M. —; Moradian-Oldak, J.: Modification Yano, K. See Mizuno, K., 177 —; van den Dolder, J.; de Ruijter, of calcium—phosphate coatings on Yaszemski, M. J. See Poshusta, A. K., J. E.; Spauwen, P. H. M.; Jansen, titanium by recombinant 62 J. A.: Bone formation in amelogenin, 483 Yokoyama, A. CaP-coated and noncoated Winn, S. R. See Hu, Y., 583 —; Matsuno, H.; Yamamoto, S.; titanium fiber mesh, 417 Wooley, P. H. See Sieving, A., 457 Kawasaki, T.; Kohgo, T.; Uo, M.; Vernon, B. Worch, H. See RO6Gler, S., 655 Watari, F.; Nakasu, M.: Tissue —-; Tirelli, N.; Bachi, T.; Haldimann, Woss, C. J. See Anand, V. P., 648 response to a newly developed D.; Hubbell, J. A.: Water-borne, in Wu, B. See Sieving, A., 457 calcium phosphate cement situ crosslinked biomaterials from containing succinic acid and phase-segregated precursors, 447 carboxymethyl-chitin, 491 Voskerician, G. See Brodbeck, W. G., Xu, C. See Li, C., 197 Young, T.-H. See Wang, J.-H., 606 320 Xu, D. See Pernodet, N., 684 Yura, H. See Ishihara, M., 551 Xu, R. —; Manias, E.; Snyder, A.J.; Runt, J.: Wagner, M. S. Low permeability biomedical Zaffe, D. —; Shen, M.; Horbett, T. A.; Castner, polyurethane nanocomposites, —; Rodriguez y Baena, R.; Rizzo, S.; D. G.: Quantitative analysis of 114 Brusotti, C.; Soncini, M.; binary adsorbed protein films by Pietrabissa, R.; Cavani, F.; time of flight secondary ion mass Quaglini, V.: Behavior of the spectrometry, 1 Yagi, K. See Higashiyama, S., 475 bone-titanium interface after Wang, J.-H. Yamamoto, S. See Yokoyama, A., 491 push-in testing: A morphological —; Wei, C.-W.,; Liu, H.-C.; Young, Yamamoto, Y. See Lee, Y. H., 88 study, 365 T.-H.: Behavior of MG-63 cells on Yamamura, K. See Mizuno, K., 177 Zanardi, L. See Bosetti, M., 189 nylon/chitosan-blended Yang, G. See Mao, J., 301 Zaporojan, V. See Peretti, G. M., 517 membranes, 606 Yang, J. M. Zhao, L. See Mao, J., 301 Wang, J.-W. —,; Shih, C. H.; Chang, C.-N.; Lin, Ziats, N. P. See Brodbeck, W. G., 320 —; Hon, M.-H.: Sugar-mediated F. H.; Jiang, J. M.; Hsu, Y. G.; Su, Zreiqat, H. chitosan/ poly(ethylene W. Y.; See, L. C.: Preparation of —; Akin, F. A.; Howlett, C. R.; glycol)-B-dicalcium pyrophosphate epoxy-SiO, hybrid sol-gel Markovic, B.; Haynes, D.; Lateef, composite: Mechanical and material for bone cement, 138 S.; Hanley, L.: Differentiation of microstructural properties, 262 Yang, N.-L. See Pernodet, N., 684 human bone-derived cells grown Wataha, J. C. See Lewis, J. B., 217 Yang, Y. on GRGDSP-peptide bound Watanabe, M. See Kobayashi, K., 48 —; Ong, J. L.: Bond strength, titanium surfaces, 105 Watari, F. See Yokoyama, A., 491 compositional, and structural Zurita, M. See Abraham, G. A., 638 Journal of Biomedical Materials Research Part A Subject Index—Volume 64A Adhesion, 88 Bone formation, 225 Compression, 560 Adsorption, 684 Bone marrow, 417 Cover, 52 Aggregation, 282 Bone marrow cell culturing, 291 Crack propagation, 93 AIF-1 (allograft inflammatory Bone morphogenetic proteins, 207 Critical stress intensity factor, 93 factor-1), 12 Bone remodeling, 105 Crosslinking characteristics, 427 Alginate, 533, 540 Bone repair, 525 Culture method, 417 Alginate beads, 273 Bone substitutes, 182 Cultured cell, 249 Amelogenin, 483 Bone tissue engineering, 388 Cytokines, 320 Amorphous calcium phosphate, 655 Bone/implant interface, 365 Anatase, 164 Bone-like carbonate apatite, 378 Debris morphology, 457 Animal model, 12 Bovine pericardium, 330 Defect formation and propagation, Annulus fibrosus, 249 570 Antitumoral drugs, 638 Calcification, 706 Degradable hydrogels, 70 Apatite, 131, 164, 339, 483, 664 Calcite, 339 Delamination, 570 Apoptosis, 616 Calcium adsorption, 131 Dendrimer, 475 Arginine-glycine-aspartic acid (RGD), Calcium carbonate, 171 Dental materials, 217 583 Calcium phosphate, 171, 225, 630 Dentin-enamel junction (DEJ), 372 Articular chondrocytes, 560 Calcium phosphate cement, 491, 664 Differential scanning calorimetry, 330 Artificial skin, 301 Calcium phosphate coating, 417, 483 Diisocyanato-2-methylpentane, 242 Atherosclerotic plaque, 197 Calcium phosphate phases, 655 Discrete element method, 570 Atomic force microscopy (AFM), 349 Carbodiimide, 427 Drug delivery, 52 Auger electron spectroscopy, 600 Cardiac assist device, 114 Drug release, 638 Avidin-biotin, 155 Cartilage, 70, 517 Dynamic light scattering, 339 Cartilage repair, 517 B-DCP, 262 CD44, 502 EDTA, 706 Basement membrane, 357 Cell adhesion, 155, 225, 517 Elastin, 706 Bioactive glasses, 189, 465 Cell attachment, 80, 583, 622 Elastomeric polymer, 52 Bioactivity, 164, 465 Cell culture, 20, 630 Electrochemistry, 655 Bioartificial liver, 475 Cell culture techniques, 235 Electron microscopy, 357 Biochemical characterization, 197 Cell differentiation, 439 Emission spectroscopy, 372 Biocompatibility, 62, 242, 309, 320, Cell loading method, 417 Emulsions, 447 411, 491, 533, 648, 698 Cell transfer, 80 Endosseous implant, 207 Biodegradable, 465 Cement line matrix, 388 Endothelial cells, 397 Biodegradable polyurethane, 242 Cement-composite material, 93 Enthalpy, 120 Biological interfacial material, 372 Chitosan hydrogel, 551 Entropy, 120 Biological tissue, 427 Chitosan, 177, 262, 301, 606 Enzymatic degradation, 427 Biomaterial interface, 388 Chitosan lactate, 147 Epimerase, 533 Biomaterials, 182, 273, 397 Cholesterol conjugation, 282 Epithelium, 357 Biomechanics, 517 Chondrocyte, 517 Ethylene oxide, 648 Biomimetic coating, 225, 378 Chondrogenesis, 273 Extracellular matrix, 20 Biopolymer, 282 Cluster, 339 Biostability, 309 CM-chitin, 491 Blend, 606 Coating, 600, 630 Fatigue, 570 Blood, 397 Collagen, 88, 439 Fibrillogenesis, 684 Blood compatibility, 147 Collagen denaturation, 330 Fibroblast, 301, 591 Blood plasma, 339 Collagen implant,-502 Fibroblast growth factor, 177 Bone, 93, 465 Collagen-elastin matrix, 706 Fibroblast growth factor-1, 551 Bone attachment, 672 Composite, 262, 463 Fibroblast growth factor-2, 551 Journal of Biomedical Materials Research, Vol. 64A, 722-724 (2003) SUBJECT INDEX Fibronectin, 20, 349, 684 Mechanical properties, 427 Plasma spraying, 509 Flow perfusion, 235 Mechanical testing, 672 Platelets, 397 Flow preconditioning, 155 Medical devices, 648 Poly (ether ester) segmented block Fluorescence spectra, 372 Membrane, 114 copolymer, 291 Focal contacts, 155 Mesenchymal stem cells (MSCs), 273 Poly(dimethyl siloxane), 309 Foreign-body reaction, 502 Messenger RNA (mRNA) expression, Poly(ethylene glycol), 70 Fracture lines, 365 41] Poly(ethylene oxide), 309 Fracture toughness, 93 MG-63 cells, 606 Poly(L-lysine), 583 Free energy, 120 Michael-type reaction, 447 Poly(tetramethylene oxide), 309 Freeze-drying, 262, 291 Microcapsules, 540 Poly(vinyl alcohol), 147 FTIR-ATR, 197 Microdiffraction, 664 Polyanhydrides, 62 Microencapsulation, 533 Polycarbonate, 357 Micromass culture system, 439 Polymer, 20, 465 Gas-plasma treatment, 291 Gelatin, 88, 301 Microparticles, 397 Polymer blend, 171 Genetically diabetic mouse, 177 Micropore, 52 Polymeric micelles, 282 Genipin, 427 Microradiography, 365 Polyurethane, 114 Graft copolymers, 638 Midbrain cells, 439 Porosity, 672 MMP-2, 698 Porous matrix, 583 Model breast implants, 12 Porous titanium, 417 Hard coatings, 591 Molecular modeling, 120 Protein adsorption, 1, 20, 120, 349, 622 Heavy metals, 217 Mononuclear cells, 397 Proteinoids, 282 Hemidesmosome, 357 Mucosal irritation, 648 Pulsed electromagnetic field, 182 Hemolysis, 648 Multinucleated giant cell, 502 Push-in test, 365 Heparin, 551 Heparin-binding growth factors, 525 Hepatocytes, 475 Nanocomposite, 114 R-curve, 93 Human osteoblast-like cells, 189 NF«B, 217 Rat bone marrow cell, 171 Human serum albumin, 48, 257 Nitric oxide, 257 Red blood cell substitute, 257 Hydrogel, 147, 309 Nylon, 606 Reverse transcription polymerase Hydroxyapatite, 509, 600, 655 chain reaction (RT-PCR), 411 Hypertension, 257 Octacalcium phosphate, 378, 483 RGD, 38 Hypoxia, 48 Orthopaedic biomaterial, 62 RGTA, 525 Orthopaedic wear debris, 457 Ricinus communis polyurethane, 171 Immune response, 693 Osseointegration, 225 Rutile, 164 In situ crosslinking, 447 Osseous wound healing, 207 In vitro, 273, 378 Osteoblast-like cells, 698 Salt leaching, 291 In vitro model, 525 Osteoblasts, 105, 182 Scaffold, 249, 388, 475 In vivo, 378 Osteoclasts, 105, 616 Scanning electron microscope, 365 In vivo experiments, 638 Osteoconductivity, 491 Selected-area diffraction, 664 In vivo spectroscopy, 197 Osteogenesis, 417 Self-assembled monolayers, 120 Inflammation, 12, 217, 320, 457 Osteogenic cells, 235 Self-organization, 684 Injectable biomaterials, 447 Osteoinduction, 207 SEM, 447 Interfaces, 600 Osteointegration, 465, 698 Shear stress, 155 Interleukin-18 (IL-18), 411 Osteolysis, 693 Simulated body fluid (SBF), 339 Interpenetrating polymer network, 38 Oxidation, 698 Sintered dicalcium pyrophophate, 616 Intervertebral disc, 249, 447 Oxygen-carrying medicine, 48 Sol-gel titania, 131 Solid tumor, 48 Juniper wood, 672 Partial least squares regression, 1 Spheroids, 475 Partially biodegradable matrices, 638 Stent, 52 PEG, 38 Sterilization, 672 Keratinocyte, 80, 301 Peptide residues, 120 Stress fibers, 155 Peptides, 105 Structural changes, 349 Laser, 630 Periprosthetic tissue, 457 Subcutaneous implantation, 378 Laser cladding, 630 Permeability, 114 Succinic acid, 491 Leukocytes, 320 PGA, 88 Sucrose, 242 Lymphocytes, 693 Phenotype, 249 Sugar, 262 Phosphate adsorption, 131 Supported lipid bilayers, 622 Macrophage fusion, 502 Phosphatidylcholine, 622 Surface charge density, 684 Macrophage phenotype, 207 Phospholipid polymer, 411 Surface eroding, 62 Mannuronan epimerase, 540 Photopolymerization, 62, 70 Surface modification, 38, 439, 509, 583 Matrix bonding, 517 Plasma polymer, 80 Surface treatment, 630 Matrix synthesis, 560 Plasma polymerization, 80 Surgery, 88 SUBJECT INDEX Synergism, 706 Toxicity, 672 Vascular endothelial cells, 20 Synthetic heme, 48, 257 Trabecular bone, 388 Vascularization, 551 Transmission electron microscopy, Thermal oxidation, 591 600 Wettability, 591 Thermally stimulated currents, 330 Transplantation, 533 Whisker, 664 Tissue engineering, 70, 189, 235, 242, Type I collagen, 189 Width estimate, 372 249, 417, 465, 517 Type II collagen, 560 Work of fracture, 93 Titania, 164 Wound defects, 12 Titanium, 38, 105, 483, 509, 655 Titanium fiber mesh, 235 UHMWPE, 457, 698 Wound healing, 80, 147, 177, 320 Titanium implants, 591 Ultra-high molecular weight ToF-SIMS, 1 polyethylene, 570 ¢ potential, 131 Total hip replacement, 693 Ultrastructure, 616 Zirconium oxide, 509

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Journal of Biomedical Materials Research Part A Author Index—Volume 64A Abraham, G. A. composed of glutamic acid and Blanquaert, F. —; Gallardo, A.; San Roman, J.; aspartic acid matrix, 282 —; Carpentier, G.; Morvan, F.; Fernandez-Mayoralas, A.; Zurita, Bae, Y. H. See Park, J. H., 309 Caruelle, J.-P.; Barritault, D.; M.; Vaquero, J.: Polymeric Balooch, M. See Gallagher, R. R., 372 Tardieu, M.: RGTA modulates the matrices based on graft Bancroft, G. N. See van den Dolder, healing pattern of a defect in a copolymers of PCL onto acrylic 1.230 monolayer of osteoblastic cells by backbones for releasing Barber, T. A. acting on both proliferation and antitumoral drugs, 638 —; Golledge, S. L.; Castner, D. G.; migration, 525 Abraham, G. A. See de Queiroz, Healy, K. E.: Peptide-modified Bocker, W. See Eltze, E., 12 A. A. A., 147 p(AAm-co-EG/AAc) IPNs grafted Bolarin, A. See Coreno, J., 131 Adams, A. See Samouillan, V., 330 to bulk titanium modulate Bonassar, L. J. See Peretti, G. M., 517 Agarwal, S. See Ganta, S. R., 242 Bonfield, W. See Lusquifios, F., 630 osteoblast behavior in vitro, 38 Akin, F. A. See Zreigat, H., 105 Barbolt, T. See Anand, V. P., 648 Bonnema, H. Anand, V. P. Barrére, F. —; Popa, E. R; van Timmeren, M. M.; —; Cogdill, C. P.; Klausner, K. A.; —; van der Valk, C. M.; Dalmeijer, van Wachem, P. B.; de Leij, Lister, L.; Barbolt, T.; Page, B. F. J.; R. A. J.; van Blitterswijk, C. A.; de L. F. M. H.; van Luyn, M. J. A.: Urbanski, P.; Woss, C. J.; Boyce, J.: Groot, K.; Layrolle, P.: In vitro and Distribution patterns of the Reevaluation of ethylene oxide membrane glycoprotein CD44 in vivo degradation of biomimetic hemolysis and irritation potential, during the foreign-body reaction octacalcium phosphate and 648 to a degradable biomaterial in rats carbonate apatite coatings on Anderson, J. M. See Brodbeck, W. G., and mice, 502 titanium implants, 378 320 Born, R. See ROGler, S., 655 Barritault, D. See Blanquaert, F., 525 Andersson, A. See King, A., 533 Bosetti, M. Barros, V. M. R. See Beloti, M. M., 171 Andersson, A.-S. —; Reno, F.; Bracco, P.; Costa, L.; Basalyga, D. M. —; Glasmastar, K.; Sutherland, D.; Cannas, M.: Ultra-high molecular Lidberg, U.; Kasemo, B.: Cell —,; Latour, R. A., Jr.: Theoretical weight polyethylene oxidation analysis of adsorption adhesion on supported lipid reduces metalloproteinase 2 thermodynamics for charged bilayers, 622 secretion in human osteoblast-like peptide residues on SAM surfaces Anseth, K. S. See Bryant, S. J., 70 cells in vitro: A mechanism of of varying functionality, 120 Anseth, K. S. See Poshusta, A. K., 62 modulation of extracellular matrix, Beloti, M. M. Arias, J. L. See Lusquinos, F., 630 698 —; Hiraki, K. R. N.; Barros, V. M. R.; Arora, A. Bosetti, M. —-; Song, Y.; Chun, L.; Huie, P.; Rosa, A. L.: Effect of the chemical —; Zanardi, L.; Hench, L.; Cannas, Trindade, M.; Smith, R. L.; composition of Ricinus communis M.: Type I collagen production by Goodman, S.: The role of the TH1 polyurethane on rat bone marrow osteoblast-like cells cultured in and TH2 immune responses in cell attachment, proliferation, and contact with different bioactive loosening and osteolysis of differentiation, 171 glasses, 189 cemented total hip replacements, Bergkvist, M. Botter, R. See Torricelli, P., 182 693 —,; Carlsson, J.; Oscarsson, S.: Boutinguiza, M. See Lusquifios, F., Asazuma, T. See Sato, M., 249 Surface-dependent conformations 630 of human plasma fibronectin Boyce, J. See Anand, V. P., 648 adsorbed to silica, mica, and Bracco, P. See Bosetti, M., 698 Babensee, J. E. See Lester, E. A., 397 hydrophobic surfaces, studied Bravo, A. L. See de Queiroz, A. A. A., Bachi, T. See Vernon, B., 447 with use of Atomic Force 147 Bae, S. K. Microscopy, 349 Brodbeck, W. G. —; Kim, J.-D.: Aggregation behaviors Beruto, D. See Torricelli, P., 182 —; Voskerician, G.; Ziats, N. P.; and their pH sensitivity of Best, S. See Lusquinos, F., 630 Nakayama, Y.; Matsuda, T.; cholesterol-conjugated proteinoids Bettendorf, O. See Eltze, E., 12 Anderson, J. M.: In vivo leukocyte Journal of Biomedical Materials Research, Vol. 64A, 716-721 (2003) Journal of Biomedical Materials Research Part A Author Index—Volume 64A Abraham, G. A. composed of glutamic acid and Blanquaert, F. —; Gallardo, A.; San Roman, J.; aspartic acid matrix, 282 —; Carpentier, G.; Morvan, F.; Fernandez-Mayoralas, A.; Zurita, Bae, Y. H. See Park, J. H., 309 Caruelle, J.-P.; Barritault, D.; M.; Vaquero, J.: Polymeric Balooch, M. See Gallagher, R. R., 372 Tardieu, M.: RGTA modulates the matrices based on graft Bancroft, G. N. See van den Dolder, healing pattern of a defect in a copolymers of PCL onto acrylic 1.230 monolayer of osteoblastic cells by backbones for releasing Barber, T. A. acting on both proliferation and antitumoral drugs, 638 —; Golledge, S. L.; Castner, D. G.; migration, 525 Abraham, G. A. See de Queiroz, Healy, K. E.: Peptide-modified Bocker, W. See Eltze, E., 12 A. A. A., 147 p(AAm-co-EG/AAc) IPNs grafted Bolarin, A. See Coreno, J., 131 Adams, A. See Samouillan, V., 330 to bulk titanium modulate Bonassar, L. J. See Peretti, G. M., 517 Agarwal, S. See Ganta, S. R., 242 Bonfield, W. See Lusquifios, F., 630 osteoblast behavior in vitro, 38 Akin, F. A. See Zreigat, H., 105 Barbolt, T. See Anand, V. P., 648 Bonnema, H. Anand, V. P. Barrére, F. —; Popa, E. R; van Timmeren, M. M.; —; Cogdill, C. P.; Klausner, K. A.; —; van der Valk, C. M.; Dalmeijer, van Wachem, P. B.; de Leij, Lister, L.; Barbolt, T.; Page, B. F. J.; R. A. J.; van Blitterswijk, C. A.; de L. F. M. H.; van Luyn, M. J. A.: Urbanski, P.; Woss, C. J.; Boyce, J.: Groot, K.; Layrolle, P.: In vitro and Distribution patterns of the Reevaluation of ethylene oxide membrane glycoprotein CD44 in vivo degradation of biomimetic hemolysis and irritation potential, during the foreign-body reaction octacalcium phosphate and 648 to a degradable biomaterial in rats carbonate apatite coatings on Anderson, J. M. See Brodbeck, W. G., and mice, 502 titanium implants, 378 320 Born, R. See ROGler, S., 655 Barritault, D. See Blanquaert, F., 525 Andersson, A. See King, A., 533 Bosetti, M. Barros, V. M. R. See Beloti, M. M., 171 Andersson, A.-S. —; Reno, F.; Bracco, P.; Costa, L.; Basalyga, D. M. —; Glasmastar, K.; Sutherland, D.; Cannas, M.: Ultra-high molecular Lidberg, U.; Kasemo, B.: Cell —,; Latour, R. A., Jr.: Theoretical weight polyethylene oxidation analysis of adsorption adhesion on supported lipid reduces metalloproteinase 2 thermodynamics for charged bilayers, 622 secretion in human osteoblast-like peptide residues on SAM surfaces Anseth, K. S. See Bryant, S. J., 70 cells in vitro: A mechanism of of varying functionality, 120 Anseth, K. S. See Poshusta, A. K., 62 modulation of extracellular matrix, Beloti, M. M. Arias, J. L. See Lusquinos, F., 630 698 —; Hiraki, K. R. N.; Barros, V. M. R.; Arora, A. Bosetti, M. —-; Song, Y.; Chun, L.; Huie, P.; Rosa, A. L.: Effect of the chemical —; Zanardi, L.; Hench, L.; Cannas, Trindade, M.; Smith, R. L.; composition of Ricinus communis M.: Type I collagen production by Goodman, S.: The role of the TH1 polyurethane on rat bone marrow osteoblast-like cells cultured in and TH2 immune responses in cell attachment, proliferation, and contact with different bioactive loosening and osteolysis of differentiation, 171 glasses, 189 cemented total hip replacements, Bergkvist, M. Botter, R. See Torricelli, P., 182 693 —,; Carlsson, J.; Oscarsson, S.: Boutinguiza, M. See Lusquifios, F., Asazuma, T. See Sato, M., 249 Surface-dependent conformations 630 of human plasma fibronectin Boyce, J. See Anand, V. P., 648 adsorbed to silica, mica, and Bracco, P. See Bosetti, M., 698 Babensee, J. E. See Lester, E. A., 397 hydrophobic surfaces, studied Bravo, A. L. See de Queiroz, A. A. A., Bachi, T. See Vernon, B., 447 with use of Atomic Force 147 Bae, S. K. Microscopy, 349 Brodbeck, W. G. —; Kim, J.-D.: Aggregation behaviors Beruto, D. See Torricelli, P., 182 —; Voskerician, G.; Ziats, N. P.; and their pH sensitivity of Best, S. See Lusquinos, F., 630 Nakayama, Y.; Matsuda, T.; cholesterol-conjugated proteinoids Bettendorf, O. See Eltze, E., 12 Anderson, J. M.: In vivo leukocyte Journal of Biomedical Materials Research, Vol. 64A, 716-721 (2003) AUTHOR INDEX cytokine mRNA responses to Davies, J. E. See Karp, J. M., 388 Gallardo, A. See Abraham, G. A., 638 biomaterials are dependent on Dawson, R. A. See Haddow, D. B., 80 Gambillara, V. See Koenig, A. L., 20 surface chemistry, 320 de Bruijn, J. D. See Claase, M. B., 291 Ganta, S. R. Brusotti, C. See Zaffe, D., 365 De Carlos, A. See Lusquifios, F., 630 —; Piesco, N. P.; Long, P.; Gassner, Bryant, S. J. de Groot, K. See Barrére, F., 378 R.; Motta, L. F.; Papworth, G. D.; —,; Anseth, K. S.: Controlling the de Leij, L. F. M. H. See Bonnema, H., Stolz, D. B.; Watkins, S. C.,; spatial distribution of ECM 502 Agarwal, S.: Vascularization and components in degradable PEG de Queiroz, A. A. A. tissue infiltration of a hydrogels for tissue engineering —; Ferraz, H. G.; Abraham, G. A.; del biodegradable polyurethane cartilage, 70 Mar Fernandez, M.; Bravo, A. L.; matrix, 242 Burdick, J. A. See Poshusta, A. K., 62 San Roman, J.: Development of Gassner, R. See Ganta, S. R., 242 new hydroactive dressings based Giardino, R. See Torricelli, P., 182 on chitosan membranes: Giavaresi, G. See Torricelli, P., 182 Cannas, M. See Bosetti, M., 189 Characterization and in vivo Gibson, I. See Lusquifios, F., 630 Cannas, M. See Bosetti, M., 698 behavior, 147 Glasmiastar, K. See Andersson, A.-S., Cao, Y. See Mao, J., 301 de Ruijter, J. E. See Vehof, J. W. M., 622 Carlsson, J. See Bergkvist, M., 349 417 Golledge, S. L. See Barber, T. A., 38 Carpentier, G. See Blanquaert, F., 525 de Yao, K. See Mao, J., 301 Goodman, S. See Arora, A., 693 Caruelle, J.-P. See Blanquaert, F., 525 del Mar Fernandez, M. See de Grainger, D. W. See Koenig, A. L., 20 Castner, D. G. See Barber, T. A., 38 Queiroz, A. A. A., 147 Griepentrog, M. See Groessner- Castner, D. G. See Wagner, M. S., 1 Demos, S. G. See Gallagher, R. R., 372 Schreiber, B., 591 Cavani, F. See Zaffe, D., 365 Driessens, F. C. M. See Lusquifos, F., Grijpma, D. W. See Claase, M. B., 291 Champagne, C. M. See Takebe, J., 207 630 Grodzinsky, A. J. See Lee, C. R., 560 Chang, C.-N. See Yang, J. M., 138 Groessner-Schreiber, B. Chang, W.-H. See Sung, H.-W., 427 —; Neubert, A.; Miller, W.-D.; Hopp, Chapman, J. See Li, C., 197 Ebenstein, D. See Li, C., 197 M.; Griepentrog, M.; Lange, K.-P.: Chen, L.-T. See Sun, J.-S., 616 El-Amin, S. F. See Lu, H. H., 465 Fibroblast growth on Chen, W.-C. Eltze, E. surface-modified dental implants: —-; Lin, J.-H. C.; Ju, C.-P.: —; Bettendorf, O.; Rody, A.; Jackisch, An in vitro study, 591 Transmission electron microscopic C.; Herchenréder, F.; Bocker, W.; Gross, K. A. study on setting mechanism of Pfleiderer, B.: Influence of local —,; Ezerietis, E.: Juniper wood as a tetracalcium phosphate/dicalcium complications on capsule possible implant material, 672 phosphate anhydrous-based formation around model implants calcium phosphate cement, 664 in a rat AQ1 model, 12 Chen, Y.-L. See Ma, H.-L., 273 Espevik, T. See Strand, B. L., 540 Haddow, D. B. Chun, L. See Arora, A., 693 Evans, M. D. M. —; Steele, D. A.; Short, R. D.; Dawson, Claase, M. B. —; Taylor, S.; Dalton, B. A.; Lohmann, R. A.; MacNeil, S.: —; Grijpma, D. W.; Mendes, S. C.; de D.: Polymer design for corneal Plasma-polymerized surfaces for Bruijn, J. D.; Feijen, J.: Porous epithelial tissue adhesion: Pore culture of human keratinocytes PEOT/PBT scaffolds for bone density, 357 and transfer of cells to an in vitro tissue engineering: Preparation, Ezerietis, E. See Gross, K. A., 672 wound-bed model, 80 characterization, and in vitro bone Haldimann, D. See Vernon, B., 447 marrow cell culturing, 291 Hanley, L. See Zreigat, H., 105 Cogdill, C. P. See Anand, V. P., 648 Feijen, J. See Claase, M. B., 291 Hattori, H. See Ishihara, M., 551 Cooper, L. F. See Takebe, J., 207 Fellers, J. See Peretti, G. M., 517 Haynes, D. See Zreiqat, H., 105 Corenio, J. Fernandez, M. See Manso, M., 600 Healy, K. E. See Barber, T. A., 38 —; Martinez, A.; Coreno, O.; Bolarin, Fernandez-Mayoralas, A. See Hench, L. See Bosetti, M., 189 A.; Sanchez, F.: Calcium and Abraham, G. A., 638 Herchenréder, F. See Eltze, E., 12 phosphate adsorption as initial Ferraz, H. G. See de Queiroz, Herrero, P. See Manso, M., 600 steps of apatite nucleation on A. A. A., 147 Higashiyama, S. sol-gel-prepared titania surface, Fini, M. See Torricelli, P., 182 —; Noda, M.; Kawase, M.; Yagi, K.: ist Fujibayashi, S. See Uchida, M., 164 Mixed-ligand modification of Coreno, O. See Coren, J., 131 Fujikawa, K. See Sato, M., 249 polyamidoamine dendrimers to Costa, L. See Bosetti, M., 698 Fujita, M. See Ishihara, M., 551 develop an effective scaffold for maintenance of hepatocyte spheroids, 475 Dalmeijer, R. A. J. See Barrére, F., 378 Gallagher, R. R. Higgs, R. J. E. D. See Lucksanasombool, Dalton, B. A. See Evans, M. D. M., —; Demos, S. G.; Balooch, M.; P68 357 Marshall, G. W., Jr.; Marshall, S. J.: Higgs, W. A. J. See Lucksanasombool, Dandurand, J. See Samouillan, V., 330 Optical spectroscopy and imaging P., 93 Dard, M. See R6fler, S., 655 of the dentin-enamel junction in Hing, K. See Lusquifios, F., 630 Dard, M. See Schliephake, H., 225 human third molars, 372 Hiraki, K. R. N. See Beloti, M. M., 171 AUTHOR INDEX Hollinger, J.O. See Hu, Y., 583 Kawasaki, T. See Yokoyama, A., 491 Lee, M.-H. See Sung, H.-W., 427 Hon, M.-H. See Wang, J.-W., 262 Kawase, M. See Higashiyama, S., 475 Lee, Y. H. Hopp, M. See Groessner-Schreiber, B., Kikuchi, M. See Ishihara, M., 551 —; Nakamura, T.; Shimizu, Y.; 591 Kikuchi, M. See Sato, M., 249 Yamamoto, Y.; Kiyotani, T.; Tsuda, Horbett, T. A. See Wagner, M. S., 1 Kikuchi, T. See Sato, M., 249 T.; Teramachi, M.; Takimoto, Y.: Horinouchi, H. See Kobayashi, K., 48 Kim, H.-M. See Oyane, A., 339 Regeneration of serous membrane Howlett, C. R. See Zreigat, H., 105 Kim, H.-M. See Uchida, M., 164 on gelatin-processed polyglycolic Hsu, Y. G. See Yang, J. M., 138 Kim, J.-D. See Bae, S. K., 282 acid (PGA)-human collagen Hu, Y. King, A. membrane and its efficacy on the —; Winn, S. R.; Krajbich, I.; Hollinger, —,; Strand, B.; Rokstad, A.-M.; prevention of adhesion, 88 J. O.: Porous polymer scaffolds Kulseng, B.; Andersson, A.; Leon, B. See Lusquinos, F., 630 surface-modified with Skjak-Breek, G.; Sandler, S.: Lester, E. A. arginine-glycine-aspartic acid Improvement of the —,; Babensee, J. E.; Proinflammatory enhance bone cell attachment and biocompatibility of phenotype of endothelial cells differentiation in vitro, 583 algin/ap otley- L-lysine /alginate after coculture with Huang, Y.-C. See Sun, J.-S., 616 microcapsules by the use of biomaterial-treated blood cells, 397 Hubbell, J. A. See Vernon, B., 447 epimerized alginate as a coating, Lewis, J. B. Huie, P. See Arora, A., 693 533 —; Randol, T. M.; Lockwood, P. E.; Hung, S.-C. See Ma, H.-L., 272 Kiyotani, T. See Lee, Y. H., 88 Wataha, J. C.: Effect of subtoxic Hiittmann, C. See Schliephake, H., Klausner, K. A. See Anand, V. P., 648 concentrations of metal ions on 225 Kobayashi, K. NF«B activation in THP-1 human —; Komatsu, T.; Iwamaru, A.; monocytes, 217 Matsukawa, Y.; Horinouchi, H.; L7G Ichimura, S. See Sato, M., 249 Watanabe, M.; Tsuchida, E.: —,; Ebenstein, D.; Xu, C.; Chapman, J.; Ignat, M. See Lucksanasombool, P., Oxygenation of hypoxic region in Saloner, D.; Rapp, J.; Pruitt, L.: 93 solid tumor by administration of Biochemical characterization of Ikeuchi, K. See Shibata, N., 570 human serum albumin atherosclerotic plaque constituents Ishibashi, K. See Takebe, J., 207 incorporating synthetic hemes, 48 using FTIR spectroscopy and Ishihara, K. See Sawada, S., 411 Kobayashi, K. See Tsuchida, E., 257 histology, 197 Ishihara, M. Koenig, A. L. Lidberg, U. See Andersson, A.-S., 622 —; Obara, K.; Ishizuka, T.; Fujita, M.; —; Gambillara, V.; Grainger, D. W.: Lin, F.-H. See Sun, J.-S., 616 Sato, M.; Masuoka, K.; Saito, Y.; Correlating fibronectin adsorption Lin, F. H. See Yang, J. M., 138 Yura, H.; Matsui, T.; Hattori, H.; with endothelial cell adhesion and Lin, J.-H. C. See Chen, W.-C., 664 Kikuchi, M.; Kurita, A.: Controlled signaling on polymer substrates, Lin, S.-Y. See Ma, H.-L., 273 release of fibroblast growth 20 Lister, L. See Anand, V. P., 648 factors and heparin from Kohgo, T. See Yokoyama, A., 491 Liu, H.-C. See Wang, J.-H., 606 photocrosslinked chitosan Kokubo, T. See Oyane, A., 339 Lo, W.-H. See Ma, H.-L., 273 hydrogels and subsequent effect Kokubo, T. See Uchida, M., 164 Lockwood, P. E. See Lewis, J. B., 217 on in vivo vascularization, 551 Komatsu, T. See Kobayashi, K., 48 Lohmann, D. See Evans, M. D. M., Ishihara, M. See Sato, M., 249 Komatsu, T. See Tsuchida, E., 257 Sor Ishizuka, T. See Ishihara, M., 551 Krajbich, I. See Hu, Y., 583 Long, P. See Ganta, S. R., 242 Ito, A. See Oyane, A., 339 Kulseng, B. See King, A., 533 Lu, H. H. Iwamaru, A. See Kobayashi, K., 48 Kurita, A. See Ishihara, M., 551 —,; El-Amin, S. F.; Scott, K. D.; Iwasaki, Y. See Sawada, S., 441 Kurita, A. See Sato, M., 249 Laurencin, C. T.: Three- dimensional, bioactive, biodegradable, polymer-bioactive Jackisch, C. See Eltze, E., 12 Lacabanne, C. See Samouillan, V., 330 glass composite scaffolds with Jansen, J. A. See van den Dolder, J., Lange, K.-P. See Groessner-Schreiber, improved mechanical properties 235 B., 591 support collagen synthesis and Jansen, J. A. See Vehof, J. W. M., 417 Langlet, M. See Manso, M., 600 mineralization of human Jiang, J. M. See Yang, J. M., 138 Lateef, S. See Zreiqat, H., 105 osteoblast-like cells in vitro, 465 Ju, C.-P. See Chen, W.-C., 664 Latour, R. A., Jr. See Basalyga, D. M., Lucksanasombool, P. 120 —; Higgs, W. A. J.; Ignat, M.; Higgs, Laurencin, C. T. See Lu, H. H., 465 R. J. E. D.; Swain, M. V.: Karp, J. M. Layrolle, P. See Barrére, F., 378 Comparison of failure —-; Shoichet, M. S.; Davies, J. E.: Bone Lee, C. H. See Singla, A., 706 characteristics of a range of formation on two-dimensional Lee, C. R. cancellous bone—bone cement poly(DL-lactide-co-glycolide) —; Grodzinsky, A. J.; Spector, M.: composites, 93 (PLGA) films and three- Biosynthetic response of passaged Lusquiifios, F. dimensional PLGA tissue chondrocytes in a type II collagen —; De Carlos, A.; Pou, J.; Arias, J. L.; engineering scaffolds in vitro, 388 scaffold to mechanical Boutinguiza, M.; Leon, B.; Kasemo, B. See Andersson, A.-S., 622 compression, 560 Pérez-Amor, M.; Driessens, AUTHOR INDEX F.C. M.; Hing, K.; Gibson, I.; Best, Morch, Y. A. See Strand, B. L., 540 Peretti, G. M. S.; Bonfield, W.: Calcium Mortisen, D. J. See Poshusta, A. K., 62 —; Zaporojan, V.; Spangenberg, phosphate coatings obtained by Morvan, F. See Blanquaert, F., 525 K. M.; Randolph, M. A.; Fellers, J.; Nd:YAG laser cladding: Motta, L. F. See Ganta, S. R., 242 Bonassar, L. J.: Cell-based bonding Physicochemical and biologic Miiller, W.-D. See Groessner- of articular cartilage: An extended properties, 630 Schreiber, B., 591 study, 517 Pérez-Amor, M. See Lusquinos, F., Ma, C.-Y. See Sung, H.-W., 427 630 Ma, H.-L. Nakabayashi, N. See Sawada, S., 411 Pernodet, N. —; Hung, S.-C.; Lin, S.-Y.; Chen, Nakagawa, A. See Tsuchida, E., 257 —; Rafailovich, M.; Sokolov, J.; Xu, Y.-L.; Lo, W.-H.: Chondrogenesis Nakamura, A. See Nakaoka, R., 439 D.; Yang, N.-L.; McLeod, K.: of human mesenchymal stem cells Fibronectin fibrillogenesis on Nakamura, T. See Lee, Y. H., 88 encapsulated in alginate beads, 273 sulfonated polystyrene surfaces, Nakamura, T. See Oyane, A., 339 MacNeil, S. See Haddow, D. B., 80 Nakamura, T. See Uchida, M., 164 684 Manias, E. See Xu, R., 114 Nakaoka, R. Pfleiderer, B. See Eltze, E., 12 Manso, M. —; Tsuchiya, T.; Nakamura, A.: Piesco, N. P. See Ganta, S. R., 242 —; Herrero, P.; Fernandez, M.; Neural differentiation of midbrain Pietrabissa, R. See Zaffe, D., 365 Langlet, M.; Martinez-Duart, J. M.: cells on various protein- Popa, E. R See Bonnema, H., 502 Textured hydroxyapatite interface immobilized polyethylene films, Poshusta, A. K. onto biomedical titanium-based 439 —; Burdick, J. A.; Mortisen, D. J.; coatings, 600 Nakasu, M. See Yokoyama, A., 491 Padera, R. F.; Ruehlman, D.; Mao, J. Nakayama, Y. Yaszemski, M. J.; Anseth, K. S.: —; Zhao, L.; de Yao, K.; Shang, Q.; —; Nishi, S.; Ueda-Ishibashi, H.; Histocompatibility of Yang, G.; Cao, Y.: Study of novel Matsuda, T.: Fabrication of photocrosslinked polyanhydrides: chitosan-gelatin artificial skin in micropored elastomeric A novel in situ forming vitro, 301 film-covered stents and orthopaedic biomaterial, 62 Markovic, B. See Zreigat, H., 105 acute-phase performances, 52 Pou, J. See Lusquifios, F., 630 Marshall, G. W., Jr. See Gallagher, Nakayama, Y. See Brodbeck, W. G., Pruitt, L. See Li, C., 197 R. R., 372 320 Marshall, S. J. See Gallagher, R. R., Nasser, S. See Sieving, A., 457 Quaglini, V. See Zaffe, D., 365 372 Neubert, A. See Groessner-Schreiber, Martinez, A. See Coreno, J., 131 B., 591 Martinez-Duart, J. M. See Manso, M., Nimura, Y. See Mizuno, K., 177 Rafailovich, M. See Pernodet, N., 684 600 Nishi, S. See Nakayama, Y., 52 Randol, T. M. See Lewis, J. B., 217 Masuoka, K. See Ishihara, M., 551 Noda, M. See Higashiyama, S., 475 Randolph, M. A. See Peretti, G. M., Masuoka, K. See Sato, M., 249 517 Mathur, A. B. Rapp, J. See Li, C., 197 —,; Truskey, G. A.; Reichert, W. M.: Obara, K. See Ishihara, M., 551 Reichert, W. M. See Mathur, A. B., Synergistic effect of high-affinity binding and flow preconditioning Offenbacher, S. See Takebe, J. , 207 155 Ong, J. L. See Yang, Y., 509 Reno, F. See Bosetti, M., 698 on endothelial cell adhesion, 155 Onuma, K. See Oyane, A., 339 Rizzo, S. See Zaffe, D., 365 Matsuda, T. See Brodbeck, W. G., 320 Rodriguez y Baena, R. See Zaffe, D., Osada, T. See Mizuno, K., 177 Matsuda, T. See Nakayama, Y., 52 365 Oscarsson, S. See Bergkvist, M., 349 Matsui, T. See Ishihara, M., 551 Oyane, A. Rody, A. See Eltze, E., 12 Matsukawa, Y. See Kobayashi, K., 48 Rokstad, A.-M. See King, A., 533 —; Onuma, K.; Ito, A.; Kim, H.-M.; Matsukawa, Y. See Tsuchida, E., 257 Rosa, A. L. See Beloti, M. M., 171 Kokubo, T.; Nakamura, T.: Matsuno, H. See Yokoyama, A., 491 ROoGler. S. Mayton, L. See Sieving, A., 457 Formation and growth of clusters —; Sewing, A.; Stélzel, M.; Born, R.; in conventional and new kinds of McLeod, K. See Pernodet, N., 684 simulated body fluids, 339 Scharnweber, D.; Dard, M.; Worch, Mendes, S. C. See Claase, M. B., 291 H.: Electrochemically assisted Mikos, A. G. See van den Dolder, J., deposition of thin calcium 230 phosphate coatings at Mizuno, K. Padera, R. F. See Poshusta, A. K., 62 near-physiological pH and —; Yamamura, K.; Yano, K.; Osada, Page, B. F. J. See Anand, V. P., 648 temperature, 655 T.; Saeki, S.; Takimoto, N.; Sakurai, Papworth, G. D. See Ganta, S. R., 242 RdGler, S. See Schliephake, H., 225 T.; Nimura, Y.: Effect of chitosan Park, J. H. Ruehlman, D. See Poshusta, A. K., 62 film containing basic fibroblast —; Bae, Y. H.: Hydrogels based on Runt, J. See Xu, R., 114 growth factor on wound healing poly(ethylene oxide) and in genetically diabetic mice, 177 poly(tetramethylene oxide) or Moore, M. See Samouillan, V., 330 poly(dimethyl siloxane). III. In vivo Saeki, S. See Mizuno, K., 177 Moradian-Oldak, J. See Wen, H. B., biocompatibility and biostability, Saito, Y. See Ishihara, M., 5 483 309 Sakai, H. See Tsuchida, E., AUTHOR INDEX Sakaki, S. See Sawada, S., 411 characteristics of total joint morphogenetic protein 2 Sakurai, T. See Mizuno, K., 177 arthroplasty-derived ultra-high expression in the J774A.1 Saloner, D. See Li, C., 197 molecular weight polyethylene macrophage cell line, 207 Samouillan, V. (UHMWPE) wear debris that Takimoto, N. See Mizuno, K., 177 —,; Dandurand, J.; Lacabanne, C.; provoke inflammation in a murine Takimoto, Y. See Lee, Y. H., 88 Thoma, R. J.; Adams, A.; Moore, model of inflammation, 457 M.: Comparison of chemical Sikavitsas, V. I. See van den Dolder, treatments on the chain dynamics ].,290 Teramachi, M. See Lee, Y. H., 88 and thermal stability of bovine Singla, A. Thoma, R.J . See Samouillan, V., 330 pericardium collagen, 330 —,; Lee, C. H.: Inhibition of CEM Tirelli, N. See Vernon, B., 447 San Roman, J. See Abraham, G. A., calcification by the sequential Tomita, N. See Shibata, N., 570 638 pretreatment with ethanol and Torricelli, P. San Roman, J. See de Queiroz, EDTA, 706 —; Fini, M.; Giavaresi, G.; Botter, R.; A. A. A., 147 Skjak-Brek, G. See King, A., 533 Beruto, D.; Giardino, R.: Sanchez, F. See Corefio, J., 13 1 Skjak-Brek, G. See Strand, B. L., 540 Biomimetic PMMA-based bone Sandler, S. See King, A., 533 Smith, R. L. See Arora, A., 693 substitutes: A comparative in vitro Sato, M. Snyder, A.J. See Xu, R., 114 evaluation of the effects of pulsed —; Asazuma, T.; Ishihara, M.; Sokolov, J. See Pernodet, N., 684 electromagnetic field exposure, 182 Kikuchi, T.; Masuoka, K.; Soncini, M. See Zaffe, D., 365 Trindade, M. See Arora, A., 693 Ichimura, S.; Kikuchi, M.; Kurita, Song, Y. See Arora, A., 693 Truskey, G. A. See Mathur, A. B., 155 A.; Fujikawa, K.: An atelocollagen Spangenberg, K. M. See Peretti, Tsuchida, E. honeycomb-shaped scaffold with a G. M., 517 —; Komatsu, T.; Matsukawa, Y.; membrane seal (ACHMS-scaffold) Spauwen, P. H. M. See van den Nakagawa, A.; Sakai, H.; for the culture of annulus fibrosus Dolder, J., 235 Kobayashi, K.; Suematsu, M.: cells from an intervertebral disc, Spauwen, P. H. M. See Vehof, Human serum albumin 249 J. W. M., 417 incorporating synthetic heme: Red Sato, M. See Ishihara, M., 551 Spector, M. See Lee, C. R., 560 blood cell substitute without Sawada, S. Steele, D. A. See Haddow, D. B., 80 hypertension by nitric oxide —; Sakaki, S.; Iwasaki, Y.; Stolz, D. B. See Ganta, S. R., 242 scavenging, 257 Nakabayashi, N.; Ishihara, K.: Stdlzel, M. See R6fGler, S., 655 Tsuchida, E. See Kobayashi, K., 48 Suppression of the inflammatory Strand, B. See King, A., 533 Tsuchiya, T. See Nakaoka, R., 439 response from adherent cells on Strand, B. L. Tsuda, T. See Lee, Y. H., 88 phospholipid polymers, 411 —; Merch, Y. A.; Syvertsen, K. R.; Scharnweber, D. See ROGler, S., 655 Espevik, T.; Skjak-Breek, G.: Uchida, M. Microcapsules made by Scharnweber, D. See Schliephake, H., —; Kim, H.-M.; Kokubo, T.; 225 enzymatically tailored alginate, Fujibayashi, S.; Nakamura, T.: Schliephake, H. 540 Structural dependence of apatite —; Scharnweber, D.; Dard, M.; Su, W. Y. See Yang, J. M., 138 formation on titania gels in a R6Gler, S.; Sewing, A.; Hiittmann, Suematsu, M. See Tsuchida, E., 257 simulated body fluid, 164 C.: Biological performance of Sun, J.-S. Ueda-Ishibashi, H. See Nakayama, biomimetic calcium phosphate —; Huang, Y.-C.; Lin, F.-H.; Chen, ¥ooe coating of titanium implants in the L.-T.: The effect of sintered Uo, M. See Yokoyama, A., 491 dog mandible, 225 dicalcium pyrophosphate on Urbanski, P. See Anand, V. P., 648 Scott, K. D. See Lu, H. H., 465 osteoclast metabolism: An See, L. C. See Yang, J. M., 138 ultrastructural study, 616 Sewing, A. See RGGler, S., 655 Sung, H.-W. van Blitterswijk, C. A. See Barreére, F., Sewing, A. See Schliephake, H., 225 —,; Chang, W.-H.; Ma, C.-Y.; Lee, 378 Shang, Q. See Mao, J., 301 M.-H.: Crosslinking of biological van den Dolder, J. Shen, M. See Wagner, M.S., 1 tissues using genipin and/or —; Bancroft, G. N.; Sikavitsas, V. I; Shibata, N. carbodiimide, 427 Spauwen, P. H. M.; Jansen, J. A.; —; Tomita, N.; Ikeuchi, K.: Numerical Sutherland, D. See Andersson, A.-S., Mikos, A. G.: Flow perfusion simulations on fatigue destruction 622 culture of marrow stromal of ultra-high molecular weight Swain, M. V. See Lucksanasombool, osteoblasts in titanium fiber mesh, polyethylene using discrete P93 235 element analyses, 570 Syvertsen, K. R. See Strand, B. L., 540 van den Dolder, J. See Vehof, Shih, C. H. See Yang, J. M., 138 J. W. M., 417 Shimizu, Y. See Lee, Y. H., 88 van der Valk, C. M. See Barrére, F., Shoichet, M. S. See Karp, J. M., 388 Takebe, J. 378 Short, R. D. See Haddow, D. B., 80 —; Champagne, C. M.; Offenbacher, van Luyn, M. J. A. See Bonnema, H., Sieving, A. S.; Ishibashi, K.; Cooper, L. F.: 502 —; Wu, B.; Mayton, L.; Nasser, S.; Titanium surface topography alters van Timmeren, M. M. See Bonnema, Wooley, P. H.: Morphological cell shape and modulates bone H,, 502 AUTHOR INDEX van Wachem, P. B. See Bonnema, H., Watkins, S. C. See Ganta, S. R., 242 properties of hydroxyapatite 502 Wei, C.-W. See Wang, J.-H., 606 coating on Ti, ZrO,-coated Ti, and Vaquero, J. See Abraham, G. A., 638 Wen, H. B. TPS-coated Ti substrate, 509 Vehof, J. W. M. —; Moradian-Oldak, J.: Modification Yano, K. See Mizuno, K., 177 —; van den Dolder, J.; de Ruijter, of calcium—phosphate coatings on Yaszemski, M. J. See Poshusta, A. K., J. E.; Spauwen, P. H. M.; Jansen, titanium by recombinant 62 J. A.: Bone formation in amelogenin, 483 Yokoyama, A. CaP-coated and noncoated Winn, S. R. See Hu, Y., 583 —; Matsuno, H.; Yamamoto, S.; titanium fiber mesh, 417 Wooley, P. H. See Sieving, A., 457 Kawasaki, T.; Kohgo, T.; Uo, M.; Vernon, B. Worch, H. See RO6Gler, S., 655 Watari, F.; Nakasu, M.: Tissue —-; Tirelli, N.; Bachi, T.; Haldimann, Woss, C. J. See Anand, V. P., 648 response to a newly developed D.; Hubbell, J. A.: Water-borne, in Wu, B. See Sieving, A., 457 calcium phosphate cement situ crosslinked biomaterials from containing succinic acid and phase-segregated precursors, 447 carboxymethyl-chitin, 491 Voskerician, G. See Brodbeck, W. G., Xu, C. See Li, C., 197 Young, T.-H. See Wang, J.-H., 606 320 Xu, D. See Pernodet, N., 684 Yura, H. See Ishihara, M., 551 Xu, R. —; Manias, E.; Snyder, A.J.; Runt, J.: Wagner, M. S. Low permeability biomedical Zaffe, D. —; Shen, M.; Horbett, T. A.; Castner, polyurethane nanocomposites, —; Rodriguez y Baena, R.; Rizzo, S.; D. G.: Quantitative analysis of 114 Brusotti, C.; Soncini, M.; binary adsorbed protein films by Pietrabissa, R.; Cavani, F.; time of flight secondary ion mass Quaglini, V.: Behavior of the spectrometry, 1 Yagi, K. See Higashiyama, S., 475 bone-titanium interface after Wang, J.-H. Yamamoto, S. See Yokoyama, A., 491 push-in testing: A morphological —; Wei, C.-W.,; Liu, H.-C.; Young, Yamamoto, Y. See Lee, Y. H., 88 study, 365 T.-H.: Behavior of MG-63 cells on Yamamura, K. See Mizuno, K., 177 Zanardi, L. See Bosetti, M., 189 nylon/chitosan-blended Yang, G. See Mao, J., 301 Zaporojan, V. See Peretti, G. M., 517 membranes, 606 Yang, J. M. Zhao, L. See Mao, J., 301 Wang, J.-W. —,; Shih, C. H.; Chang, C.-N.; Lin, Ziats, N. P. See Brodbeck, W. G., 320 —; Hon, M.-H.: Sugar-mediated F. H.; Jiang, J. M.; Hsu, Y. G.; Su, Zreiqat, H. chitosan/ poly(ethylene W. Y.; See, L. C.: Preparation of —; Akin, F. A.; Howlett, C. R.; glycol)-B-dicalcium pyrophosphate epoxy-SiO, hybrid sol-gel Markovic, B.; Haynes, D.; Lateef, composite: Mechanical and material for bone cement, 138 S.; Hanley, L.: Differentiation of microstructural properties, 262 Yang, N.-L. See Pernodet, N., 684 human bone-derived cells grown Wataha, J. C. See Lewis, J. B., 217 Yang, Y. on GRGDSP-peptide bound Watanabe, M. See Kobayashi, K., 48 —; Ong, J. L.: Bond strength, titanium surfaces, 105 Watari, F. See Yokoyama, A., 491 compositional, and structural Zurita, M. See Abraham, G. A., 638 Journal of Biomedical Materials Research Part A Subject Index—Volume 64A Adhesion, 88 Bone formation, 225 Compression, 560 Adsorption, 684 Bone marrow, 417 Cover, 52 Aggregation, 282 Bone marrow cell culturing, 291 Crack propagation, 93 AIF-1 (allograft inflammatory Bone morphogenetic proteins, 207 Critical stress intensity factor, 93 factor-1), 12 Bone remodeling, 105 Crosslinking characteristics, 427 Alginate, 533, 540 Bone repair, 525 Culture method, 417 Alginate beads, 273 Bone substitutes, 182 Cultured cell, 249 Amelogenin, 483 Bone tissue engineering, 388 Cytokines, 320 Amorphous calcium phosphate, 655 Bone/implant interface, 365 Anatase, 164 Bone-like carbonate apatite, 378 Debris morphology, 457 Animal model, 12 Bovine pericardium, 330 Defect formation and propagation, Annulus fibrosus, 249 570 Antitumoral drugs, 638 Calcification, 706 Degradable hydrogels, 70 Apatite, 131, 164, 339, 483, 664 Calcite, 339 Delamination, 570 Apoptosis, 616 Calcium adsorption, 131 Dendrimer, 475 Arginine-glycine-aspartic acid (RGD), Calcium carbonate, 171 Dental materials, 217 583 Calcium phosphate, 171, 225, 630 Dentin-enamel junction (DEJ), 372 Articular chondrocytes, 560 Calcium phosphate cement, 491, 664 Differential scanning calorimetry, 330 Artificial skin, 301 Calcium phosphate coating, 417, 483 Diisocyanato-2-methylpentane, 242 Atherosclerotic plaque, 197 Calcium phosphate phases, 655 Discrete element method, 570 Atomic force microscopy (AFM), 349 Carbodiimide, 427 Drug delivery, 52 Auger electron spectroscopy, 600 Cardiac assist device, 114 Drug release, 638 Avidin-biotin, 155 Cartilage, 70, 517 Dynamic light scattering, 339 Cartilage repair, 517 B-DCP, 262 CD44, 502 EDTA, 706 Basement membrane, 357 Cell adhesion, 155, 225, 517 Elastin, 706 Bioactive glasses, 189, 465 Cell attachment, 80, 583, 622 Elastomeric polymer, 52 Bioactivity, 164, 465 Cell culture, 20, 630 Electrochemistry, 655 Bioartificial liver, 475 Cell culture techniques, 235 Electron microscopy, 357 Biochemical characterization, 197 Cell differentiation, 439 Emission spectroscopy, 372 Biocompatibility, 62, 242, 309, 320, Cell loading method, 417 Emulsions, 447 411, 491, 533, 648, 698 Cell transfer, 80 Endosseous implant, 207 Biodegradable, 465 Cement line matrix, 388 Endothelial cells, 397 Biodegradable polyurethane, 242 Cement-composite material, 93 Enthalpy, 120 Biological interfacial material, 372 Chitosan hydrogel, 551 Entropy, 120 Biological tissue, 427 Chitosan, 177, 262, 301, 606 Enzymatic degradation, 427 Biomaterial interface, 388 Chitosan lactate, 147 Epimerase, 533 Biomaterials, 182, 273, 397 Cholesterol conjugation, 282 Epithelium, 357 Biomechanics, 517 Chondrocyte, 517 Ethylene oxide, 648 Biomimetic coating, 225, 378 Chondrogenesis, 273 Extracellular matrix, 20 Biopolymer, 282 Cluster, 339 Biostability, 309 CM-chitin, 491 Blend, 606 Coating, 600, 630 Fatigue, 570 Blood, 397 Collagen, 88, 439 Fibrillogenesis, 684 Blood compatibility, 147 Collagen denaturation, 330 Fibroblast, 301, 591 Blood plasma, 339 Collagen implant,-502 Fibroblast growth factor, 177 Bone, 93, 465 Collagen-elastin matrix, 706 Fibroblast growth factor-1, 551 Bone attachment, 672 Composite, 262, 463 Fibroblast growth factor-2, 551 Journal of Biomedical Materials Research, Vol. 64A, 722-724 (2003) SUBJECT INDEX Fibronectin, 20, 349, 684 Mechanical properties, 427 Plasma spraying, 509 Flow perfusion, 235 Mechanical testing, 672 Platelets, 397 Flow preconditioning, 155 Medical devices, 648 Poly (ether ester) segmented block Fluorescence spectra, 372 Membrane, 114 copolymer, 291 Focal contacts, 155 Mesenchymal stem cells (MSCs), 273 Poly(dimethyl siloxane), 309 Foreign-body reaction, 502 Messenger RNA (mRNA) expression, Poly(ethylene glycol), 70 Fracture lines, 365 41] Poly(ethylene oxide), 309 Fracture toughness, 93 MG-63 cells, 606 Poly(L-lysine), 583 Free energy, 120 Michael-type reaction, 447 Poly(tetramethylene oxide), 309 Freeze-drying, 262, 291 Microcapsules, 540 Poly(vinyl alcohol), 147 FTIR-ATR, 197 Microdiffraction, 664 Polyanhydrides, 62 Microencapsulation, 533 Polycarbonate, 357 Micromass culture system, 439 Polymer, 20, 465 Gas-plasma treatment, 291 Gelatin, 88, 301 Microparticles, 397 Polymer blend, 171 Genetically diabetic mouse, 177 Micropore, 52 Polymeric micelles, 282 Genipin, 427 Microradiography, 365 Polyurethane, 114 Graft copolymers, 638 Midbrain cells, 439 Porosity, 672 MMP-2, 698 Porous matrix, 583 Model breast implants, 12 Porous titanium, 417 Hard coatings, 591 Molecular modeling, 120 Protein adsorption, 1, 20, 120, 349, 622 Heavy metals, 217 Mononuclear cells, 397 Proteinoids, 282 Hemidesmosome, 357 Mucosal irritation, 648 Pulsed electromagnetic field, 182 Hemolysis, 648 Multinucleated giant cell, 502 Push-in test, 365 Heparin, 551 Heparin-binding growth factors, 525 Hepatocytes, 475 Nanocomposite, 114 R-curve, 93 Human osteoblast-like cells, 189 NF«B, 217 Rat bone marrow cell, 171 Human serum albumin, 48, 257 Nitric oxide, 257 Red blood cell substitute, 257 Hydrogel, 147, 309 Nylon, 606 Reverse transcription polymerase Hydroxyapatite, 509, 600, 655 chain reaction (RT-PCR), 411 Hypertension, 257 Octacalcium phosphate, 378, 483 RGD, 38 Hypoxia, 48 Orthopaedic biomaterial, 62 RGTA, 525 Orthopaedic wear debris, 457 Ricinus communis polyurethane, 171 Immune response, 693 Osseointegration, 225 Rutile, 164 In situ crosslinking, 447 Osseous wound healing, 207 In vitro, 273, 378 Osteoblast-like cells, 698 Salt leaching, 291 In vitro model, 525 Osteoblasts, 105, 182 Scaffold, 249, 388, 475 In vivo, 378 Osteoclasts, 105, 616 Scanning electron microscope, 365 In vivo experiments, 638 Osteoconductivity, 491 Selected-area diffraction, 664 In vivo spectroscopy, 197 Osteogenesis, 417 Self-assembled monolayers, 120 Inflammation, 12, 217, 320, 457 Osteogenic cells, 235 Self-organization, 684 Injectable biomaterials, 447 Osteoinduction, 207 SEM, 447 Interfaces, 600 Osteointegration, 465, 698 Shear stress, 155 Interleukin-18 (IL-18), 411 Osteolysis, 693 Simulated body fluid (SBF), 339 Interpenetrating polymer network, 38 Oxidation, 698 Sintered dicalcium pyrophophate, 616 Intervertebral disc, 249, 447 Oxygen-carrying medicine, 48 Sol-gel titania, 131 Solid tumor, 48 Juniper wood, 672 Partial least squares regression, 1 Spheroids, 475 Partially biodegradable matrices, 638 Stent, 52 PEG, 38 Sterilization, 672 Keratinocyte, 80, 301 Peptide residues, 120 Stress fibers, 155 Peptides, 105 Structural changes, 349 Laser, 630 Periprosthetic tissue, 457 Subcutaneous implantation, 378 Laser cladding, 630 Permeability, 114 Succinic acid, 491 Leukocytes, 320 PGA, 88 Sucrose, 242 Lymphocytes, 693 Phenotype, 249 Sugar, 262 Phosphate adsorption, 131 Supported lipid bilayers, 622 Macrophage fusion, 502 Phosphatidylcholine, 622 Surface charge density, 684 Macrophage phenotype, 207 Phospholipid polymer, 411 Surface eroding, 62 Mannuronan epimerase, 540 Photopolymerization, 62, 70 Surface modification, 38, 439, 509, 583 Matrix bonding, 517 Plasma polymer, 80 Surface treatment, 630 Matrix synthesis, 560 Plasma polymerization, 80 Surgery, 88 SUBJECT INDEX Synergism, 706 Toxicity, 672 Vascular endothelial cells, 20 Synthetic heme, 48, 257 Trabecular bone, 388 Vascularization, 551 Transmission electron microscopy, Thermal oxidation, 591 600 Wettability, 591 Thermally stimulated currents, 330 Transplantation, 533 Whisker, 664 Tissue engineering, 70, 189, 235, 242, Type I collagen, 189 Width estimate, 372 249, 417, 465, 517 Type II collagen, 560 Work of fracture, 93 Titania, 164 Wound defects, 12 Titanium, 38, 105, 483, 509, 655 Titanium fiber mesh, 235 UHMWPE, 457, 698 Wound healing, 80, 147, 177, 320 Titanium implants, 591 Ultra-high molecular weight ToF-SIMS, 1 polyethylene, 570 ¢ potential, 131 Total hip replacement, 693 Ultrastructure, 616 Zirconium oxide, 509

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