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Journal of Biomedical Materials Research Author Index—Volume 68A Abraham, G. A. See de Arruda Brown, K. C. See Luebke, K. J., 696 Dean, D. See Fisher, J. P., 428 Almeida, K., 473 Brunner, E. See Frosch, K.-H., 325 de Arruda Almeida, K. Acil, Y. See Wang, H. 219 Bumgardner, J. D. See Lin, H.-Y., 717 —; Queiroz, A. A. A.; Higa, O. Z.; Adams, C. S. See El-Ghannam, A. R., Burugapalli, K. Abraham, G. A.; San Roman, J.: 615 : Koul, V.; Dinda, A. K.: Effect of Macroporous poly(I-caprolac tone) Akisue, T. See Fujishiro, T., 531 composition of interpenetrating with antimicrobial activity Anderson, D. See Wang, H., 61 polymer network hydrogels based obtained by iodine Anderson, J. M. See Wiggins, M. J., on poly(acrylic acid) and gelatin polymerization, 473 665 on tissue response: A quantitive in de Bruijn, J. D. See Wilson, C. I Anseth, K. S. See Nuttleman, C. R tudy1,1 210 de Leij, L. F. M. H. See van Bilsen, P. Fi |. 425 Antonucci, J. M. See Skrtic, D., 763 Dellacherie, E. See Leonard, M., 335 Asaoka, K. See Yokoyama, K., 150 Demian, N. See Fisher, J. P., 428 Atala, A. See Kim B.-S., 201 Deng, L. F. See Wong, C. T., 513 Denzer, A. See Tosatti, S., 458 Cabrita, A. M. S. See Ferreira, L., 584 de Queiroz, A. A. A. See de Arruda Campbell, C. See Tosatti, S., 458 Almeida, K., 473 Carter, D. E. See Luebke, K. J 696 DeYoung, D. W. See Szivek, J Castner, D. See El-Ghannam, A. R., Balooch, M. See Ho, S. P., 343 Dhert, W. J. A. See Wilson, C. | Barbosa, M. A. See Ferreira, L., 584 615 Dinda, A. K. See Burugapalli, K., 21 Barvencik, F. See Frosch, K.-H., 325 Chan, W. K. See Wong, ¢ Dohi, Y. See Shimaoka, H., 168 Bataillon-Linez, P. See Zhang, Y. M., Chang, B.-S. See Ryu, H.-S Donahue, H. J. See Lim, J. Y., 504 Chang, P.-L. See Kilpadi, K. I 383 Dong, X. N. Chen, F. See Wang, X., 411 Bellis, S. L. See Kilpadi, K. | > Yeni, Y. N Les, C. M.; Fyhrie Benoit, J. P. See Rizk, T., 360 Chen, G. See Wang, X., 411 DD. P Effects of end boundary Best, S. M. See Hing, K. A Chen, S. See Wang, X., 411 conditions and specimen geometry Porter, A. E., 133 Chesne, C. See Lamarque, S., 257 on the viscoelastic properties of Bini, T. B. Cheung, K. M. C. See Wong, C. 1 cancellous bone measured by Gao, S.; Xu, X Wang, S 51 2 dynamic mechanical analysis, 573 Ramakrishna, S. Leong, K. W Choe, E. S. Donovan, D. See Kanjickal, D., 489 Peripheral nerve regneration by Warrier B.; Chun, J. S Park, J. ¢ Dordick, J. S. See Ferreira, L., 584 microbraided poly(L-lactide- Lee, C. H.: EDTA-induced Dresing, K. See Frosch, K.-H., 325 glycolide) biodegradable polymer activation of Ca-regulated proteins Druecke, D. fibers, 286 in the vaginal mucosa, 159 Langer, S.; Lamme, E.; Pieper, J.; Bolikal, D. See Weber, N., 496 ChLo. Cw. S,ee Xu, H. H. K Ugarkovic, M.; Steinau, H. L Bonassar, L. J. See Roy, R., 597 Chun, J. S. See Choe, E. S., 159 Homann, H. H Bonfield, W. See Hing, K. A., 187; Chung, S.-S. See Ryu, H.-S., 79 Neovascularization of poly(ether Porter, A. E., 133 Cladera, J. See Sim, B., 352 ester) block-« opoly mer scaffolds in Bonnaure-Mallet, M. See Lamarque, Clark, R. A. See Shu, X. Z., 365 0: Long-term investigations Sy, 207 Clarke, I. C. See Oonishi, H., 5 using intravital fluorescent Bossano, C. M. See Fisher, J. P., 428 Cochran, D. L. See Tosatti, S., 458 microscopy, 10 Bourke, S. L. See Weber, N., 496 Colombo, G. Dubini, B. See Nicoli Aldini, N., 264 Boyan, B. D. See Tosatti, S., 458 ; Langer, R.; Kohane, D. S. Effect of Ducheyne, P. See El-Ghannam, A. R., Breme, J. See Frosch, K.-H., 325 excipient composition on the 615 Bremmell, K. See Zhang, H., 479 biocompatibility of bupivacaine- Dziubla, T. D. Brey, E. M. See Fisher, J. P., 428 containing microparticles ath the ; Lowman, A. M.: Vascularization of Brockmann, W. G. See Kostorvz, sciat nerve, 651 PEG-grafted macroporous hydrogel Piha 660 Composto, R. J. See El-Ghannam, sponges: A three-dimensional in vitro Brouwer, L. A. See van Bilsen, A. R. 615 angiogenesis model using human r,t. 5425 Cooper, L. F. See Harris, C. 1 , 747 microvascular endothelial cells, 603 Journal of Biomedical Materials Research Vol 68A, 784-789 (2004) Journal of Biomedical Materials Research Author Index—Volume 68A Abraham, G. A. See de Arruda Brown, K. C. See Luebke, K. J., 696 Dean, D. See Fisher, J. P., 428 Almeida, K., 473 Brunner, E. See Frosch, K.-H., 325 de Arruda Almeida, K. Acil, Y. See Wang, H. 219 Bumgardner, J. D. See Lin, H.-Y., 717 —; Queiroz, A. A. A.; Higa, O. Z.; Adams, C. S. See El-Ghannam, A. R., Burugapalli, K. Abraham, G. A.; San Roman, J.: 615 : Koul, V.; Dinda, A. K.: Effect of Macroporous poly(I-caprolac tone) Akisue, T. See Fujishiro, T., 531 composition of interpenetrating with antimicrobial activity Anderson, D. See Wang, H., 61 polymer network hydrogels based obtained by iodine Anderson, J. M. See Wiggins, M. J., on poly(acrylic acid) and gelatin polymerization, 473 665 on tissue response: A quantitive in de Bruijn, J. D. See Wilson, C. I Anseth, K. S. See Nuttleman, C. R tudy1,1 210 de Leij, L. F. M. H. See van Bilsen, P. Fi |. 425 Antonucci, J. M. See Skrtic, D., 763 Dellacherie, E. See Leonard, M., 335 Asaoka, K. See Yokoyama, K., 150 Demian, N. See Fisher, J. P., 428 Atala, A. See Kim B.-S., 201 Deng, L. F. See Wong, C. T., 513 Denzer, A. See Tosatti, S., 458 Cabrita, A. M. S. See Ferreira, L., 584 de Queiroz, A. A. A. See de Arruda Campbell, C. See Tosatti, S., 458 Almeida, K., 473 Carter, D. E. See Luebke, K. J 696 DeYoung, D. W. See Szivek, J Castner, D. See El-Ghannam, A. R., Balooch, M. See Ho, S. P., 343 Dhert, W. J. A. See Wilson, C. | Barbosa, M. A. See Ferreira, L., 584 615 Dinda, A. K. See Burugapalli, K., 21 Barvencik, F. See Frosch, K.-H., 325 Chan, W. K. See Wong, ¢ Dohi, Y. See Shimaoka, H., 168 Bataillon-Linez, P. See Zhang, Y. M., Chang, B.-S. See Ryu, H.-S Donahue, H. J. See Lim, J. Y., 504 Chang, P.-L. See Kilpadi, K. I 383 Dong, X. N. Chen, F. See Wang, X., 411 Bellis, S. L. See Kilpadi, K. | > Yeni, Y. N Les, C. M.; Fyhrie Benoit, J. P. See Rizk, T., 360 Chen, G. See Wang, X., 411 DD. P Effects of end boundary Best, S. M. See Hing, K. A Chen, S. See Wang, X., 411 conditions and specimen geometry Porter, A. E., 133 Chesne, C. See Lamarque, S., 257 on the viscoelastic properties of Bini, T. B. Cheung, K. M. C. See Wong, C. 1 cancellous bone measured by Gao, S.; Xu, X Wang, S 51 2 dynamic mechanical analysis, 573 Ramakrishna, S. Leong, K. W Choe, E. S. Donovan, D. See Kanjickal, D., 489 Peripheral nerve regneration by Warrier B.; Chun, J. S Park, J. ¢ Dordick, J. S. See Ferreira, L., 584 microbraided poly(L-lactide- Lee, C. H.: EDTA-induced Dresing, K. See Frosch, K.-H., 325 glycolide) biodegradable polymer activation of Ca-regulated proteins Druecke, D. fibers, 286 in the vaginal mucosa, 159 Langer, S.; Lamme, E.; Pieper, J.; Bolikal, D. See Weber, N., 496 ChLo. Cw. S,ee Xu, H. H. K Ugarkovic, M.; Steinau, H. L Bonassar, L. J. See Roy, R., 597 Chun, J. S. See Choe, E. S., 159 Homann, H. H Bonfield, W. See Hing, K. A., 187; Chung, S.-S. See Ryu, H.-S., 79 Neovascularization of poly(ether Porter, A. E., 133 Cladera, J. See Sim, B., 352 ester) block-« opoly mer scaffolds in Bonnaure-Mallet, M. See Lamarque, Clark, R. A. See Shu, X. Z., 365 0: Long-term investigations Sy, 207 Clarke, I. C. See Oonishi, H., 5 using intravital fluorescent Bossano, C. M. See Fisher, J. P., 428 Cochran, D. L. See Tosatti, S., 458 microscopy, 10 Bourke, S. L. See Weber, N., 496 Colombo, G. Dubini, B. See Nicoli Aldini, N., 264 Boyan, B. D. See Tosatti, S., 458 ; Langer, R.; Kohane, D. S. Effect of Ducheyne, P. See El-Ghannam, A. R., Breme, J. See Frosch, K.-H., 325 excipient composition on the 615 Bremmell, K. See Zhang, H., 479 biocompatibility of bupivacaine- Dziubla, T. D. Brey, E. M. See Fisher, J. P., 428 containing microparticles ath the ; Lowman, A. M.: Vascularization of Brockmann, W. G. See Kostorvz, sciat nerve, 651 PEG-grafted macroporous hydrogel Piha 660 Composto, R. J. See El-Ghannam, sponges: A three-dimensional in vitro Brouwer, L. A. See van Bilsen, A. R. 615 angiogenesis model using human r,t. 5425 Cooper, L. F. See Harris, C. 1 , 747 microvascular endothelial cells, 603 Journal of Biomedical Materials Research Vol 68A, 784-789 (2004) AUTHOR INDEX Ehteshami, G. R. See Massia, S. P., Giardino, R. See Nicoli Aldini, N., Ultrastructure and 177 264 nanomechanical properties of Eick, J. D. See Kostoryz, E. L., 660 Giavaresi, G. See Nicoli Aldini, N., cementum dentin junction, 343 El-Ghannam, A. R. 264 Holecko, M. M. See Massia, S. P., 177 —; Ducheyne, P.; Risbud, M.; Adams, Gil, M. H. See Ferreira, L., 584 Homann, H. H. See Druecke, D., 10 C. S.; Shapiro, I. M.; Castner, D.; Glattauer, V. See Lickorish, D., 19 Hong, K. S. See Ryu, H.-S., 79 Golledge S.; Composto, R. J.: Golledge, S. See El-Ghannam, A. R., Honma, R. See Yamamoto, A., 244 Model sufaces engineered with 615 Howlett, C. R. See Lickorish, D., 19; nanoscale roughness and RGD Goodis, H. E. See Ho, S. P., 343 Pabbruwe, M. B., 305 tripeptides promote osteoblast Goreish, H. H. Huang, P. See Zhang, Y. M., 383 activity, 615 -; Lewis, A. L.; Rose, S.; Lloyd, Hubbell, J. A. See Seliktar, D., 704; Elisseeff,J . H. See Li, Q., 28 \. W.: The effect of Tosatti, S., 458 El-Kurdi, M. S. See Orban, Jj. M., 756 phosphorylcholine-coated Hubert, P. See Leonard, M., 335 El-Sherif, D. M. materials on the inflammatory —; Lathia, J. D.; Le, N. T.; Wheatley, response and fibrous capsule M. A.: Ultrasound degradation of formation In vitro and iil VIVO Igarashi, K. See Nakabayashi, N., 558 novel polymer contrast agents, 71 observations, 1 Ikeuchi, M. See Shimaoka, H., 168 Evancho-Chapman, M. M. See Gough, J. E. Inoue, T. See Matsuzaka, K., 227 Kanjickal, D., 489 -; Notingher, I.; Hench, L. L.: Iwasaki, Y. Osteoblast attachment and ; Toida, T.; Nakabayashi, N mineralized nodule formation on Improved wet bonding of methyl Ferreira, L. rough and smooth 45S5 bioactive methacrylate-tri-n-butylborane ; Rafael, A.; Lamghari, M.; Barbosa, glass monoliths, 640 resign to dentin etched with ten M. A.; Gil, M. H.; Cabrita Gray, S. D. See Liu, Y., 142 percent phosphoric acid in the A. M. S.; Dordick, J. S Gu, X. See Wang, X., 411 presence of ferric ions, 566 Biocompatibility of Guthrie, W. F. See Simon, C. G., Jr., chemoenzymatically derived 628 dextran-acrylate hydrogels, 584 Jain, R. Fini, M. See Nicoli Aldini, N., 264 ; Recum, A. F.: Fibroblast Fisher, J. P. Hajdu, S. D. See Szivek, J]. A., 537 ; Lalani, Z.; Bossano, ¢ M.; Brey Hall, M. W. See Pitt, W. G., 95 attachment to smooth and microtextured PET and thin cp-Ti E. M.; Demian, N Johnston Han, Y. See Zhang, Y. M., 383 C. M.; Dean, D.; Jansen, J. A.; Hanawa, T. See Yamamoto, A., 244 films, 296 Wong, M.E . K.; Mikos, A. G Hara, M. See Higuchi, A., 34 Jansen, J. A. See Fisher, J. P., 428 Effect of biomaterial properties Harris, C. T. Jansen, K. See Meek, M. F., 43 bone healing in a rabbit tooth Cooper, L. F.: Comparison of bone Johnston, C. M. See Fisher, J. P., 428 extraction socket model, 428 graft t matrices for human Jollivet, C. See Rizk, T., 360 Frosch, K.-H. mesenchymal stem cell-directed Josset, Y. See Oum’hamed, Z., 114 Barvencik, F.; Viereck, \ osteogenesis, 747 Lohmann, C. H.; Dresing, K Hench, L. L. See Gough, J. E., 640 Breme, ].; Brunner, E.; Stiirmer Hendriks, M. See van Bilsen, P. H. ] Kaneko, K. See Yokoyama, K., K. M.: Growth behavior, matrix $23 Kanjickal, D. production, and gene expression Higa, O. Z. See de Arruda Almeida, ; Lopina, S.; Evancho-Chapman, of human osteoblasts in defined K., 473 M. M.; Schmidt, S.; Donovan, D..; cylindrical titanium channels, 325 Higuchi, A. Springhetti, S.: Polymeric Fujisawa, A. See Oonishi, H., 52 Yamamiya, S.-i.; Yoon, B. O sustained local drug delivery Fujishiro, T. Sakurai, M.; Hara, M.: Peripheral system for the prevention of Nishikawa, 1 ; Shibanuma, N blood cell separation through vascular intimal hyperplasia, 489 \kisue, T.; Takikawa, S surface-modified polyurethane Kao, W. J. See Zilinski, J. L., 392 Yamamoto, T.; Yoshiya, S membranes, 34 Kapur, T. A. Kurosaka, M.: Effect of cylic Hildebrand, H. F. See Zhang, Y. M —; Shoichet, M. S.: Immobilized mechanical stretch and titanium 383 concentration gradients of nerve particles on prostaglandin | Hiltner, A. See Wiggins, M. J., 668 growth factor guide neurite production by human Hing, K. A. outgrowth, 235 macrophages in vitro, 531 Best, S. M.; Tanner, K. E. Bonfield, Kato, S. Fyhrie, D. P. See Dong, X. N., W.; Revell, P. A.: Mediation of ; Kidoaki, S.; Matsuda, T.: bone ingrowth in porous Substrate-dependent cellular hydroxyapatite bone graft behavior of swiss 3T3 fibroblasts Gao, S. See Bini, T. B., 286 substitutes, 187 and activation of RHO family Garner, H. R. See Luebke, K. J., 696 Ho, S. P. during adhesion and spreading Garnotel, R. See Oum’hamed, Z., 114 ~—; Balooch, M.; Goodis, H. E.; processes, 314 Ghosh, K. See Shu, X. Z., 365 Marshall, G. W.; Marshall, S. J.: Kidoaki, S. See Kato, S., 314 AUTHOR INDEX Kilpadi, K. L. inflammatory effects of a titanium- Lopina, S. See Kanjickal, D., 489 —; Swayer, A. A.; Prince, C. W.; peroxy gel: Role of oxygen Lowman, A. M. See Dziubla, T. D., Chang, P.-L.; Bellis, S. L.: Primary metabolites and apoptosis, 448 603 human marrow stromal cells and Lathia, J. D. See El-Sherif, D. M., 71 Lu, D. S. See Wong, C. T., 513 Saos-2 osteosarcoma cells use Laurent-Maquin, D. See Oum’hamed, Lu, W. W. See Wong, C. T., 513 differnet mechanisms to adhere to Z., 114 Ludwig, K. See Wang, H., 219 hydroxylapatite, 273 Le, N. T. See El-Sherif, D. M., 71 Luebke, K. J. Kim, B.-S. Le Lan, J. See Lamarque, S., 257 —; Carter, D. E.; Garner, H. R.; —; Yoo, J. J.; Atala, A.: Peripheral Lee, C. H. See Choe, E. S., 159 Brown, K. C.: Patterning adhesion nerve regeneration using cellular Lee, C.-K. See Ryu, H.-S., 79 of mammalian cells with visible nerve grafts, 201 Lee, D.-H. See Ryu, H.-S., 79 light, tris(bipyirdyl)ruthenium(II) Kim, D. J. See Ryu, H.-S., 79 Lee, J. H. See Ryu, H.-S., 79 chloride, 21d a digital micromirror Kim, H. See Ryu, H.-S., 79 Lee, J.-K. See Ryu, H.-S., 79; Wang, array, 696 Kim, H.-E. See Kim, H.-W., 522 H., 61 Luk, K. D. K. See Wong, C. T., 513 Kim, H.-W. Leonard, M. Lundgqvist-Gustafsson, H. See —; Kim, H.-E.; Salih, V.; Knowles, -; Rastello de Boisseson, M.; Hubert, Larsson, J., 448 J. C.: Dissolutin control and P.; Dellacherie, E.: Production of Luo, Y. See Pitt, W. G., 95; Shu, X. Z., cellular responses of calcium microspheres based on 365 phospahte coatings on zirconia hydrophobically associating Lutolf, M. P. See Seliktar, D., 704 porous scaffold, 522 alginate derivatives by Kirita, T. See Shimaoka, H., 168 dispersion/ gelatin in aqueous Knowles, J. C. See Kim, H.-W., 522 sodium chloride solutions, 335 MacEwan, M. See Wiggins, M. J., 668 Kobayashi, T. See Nakamura, S., 90 Leong, J. C. Y. See Wong, C. T., 513 Marshall, G. W. See Ho, S. P., 343 Kofroth, J. A. See Orban, J. M., 756 Leong, K. See Li, Q., 28 Marshall, S. J. See Ho, S. P., 343 Kohane, D. S. See Colombo, G., 651 Leong, K. W. See Bini, T. B., 286 Martini, L. See Nicoli Aldini, N., 264 Kohles, S. S. See Roy, R., 597 Les, C. M. See Dong, X. N., 573 Masaoka, T. See Oonishi, H., 52 Kohn, iB See Weber, N., 496 Lewis, A, L. See Goreish, H. H., 1 Mason, M. L. See Pitt, W. G., 95 Kostoryz, E. L. La, Q. Massia, S. P. —; Wetmore, L. A.; Brockmann, ; Williams, C. G.; Sun, D. D. N.; ; Holecko, M. M.; Ehteshami, G. R.: W. G.; Yourtee, D. M.; Eick, J. D.: Wang, J.; Leong, K.; Elisseeff, In vitro assessment of bioactive Genotoxicity assessment of J. H.: Photocrosslinkable coatings for neural implant oxirane-based dental monomers in poly saccharides based on applications, 177 mammalian cells, 660 chondroitin sulfate, 28 Masuda, S. See Oonishi, H., 52 Koul, V. See Burugapalli, K., 210 Lickorish, D. Matsuda, T. See Kato, S., 314 Krajewski, A. See Nicoli Aldini, N ; Ramshaw, J. A. M.; Werkmeister, Matsuoka, A. 264 J. A.; Glattauer, V.; Howlett, C. R ; Tsuchiya, T.: Gene expression Krishnan, A. Collagen—hydroxyapatite changes in BALB/3T3 ; Sturgeon, J.; Siedlecki, C. A.; composite prepared by biomimetic transformants induced by poly(L- Vogler, E. A.: Scaled interfacial process, 19 lactic acid) or polyurethane films, activity of proteins at the liquid- Lim, J. Y. 376 vapor interface, 544 ; Liu, X.; Vogler, E. A.; Donahue, Matsuzaka, K. Kudo, A. See Shimaoka, H., 168 H. J.: Systematic variation in ; Yoshinari M.; Shimono, M.; Inoue, Kumar, S. See Zhang, H., 479 osteoblast ashesion and phenotype [.: Effects of multigrooved Kurosaka, M. See Fujishiro, T., 5 with substratum surface surfaces on osteoblast-like cells in characteristics, 504 tro: Scanning electron Lin, H.-Y. microscopic observation and Lalani, Z. See Fisher, J. P., 428 ; Bumgardner,J . D.: II n vit Fe mRNA expression of osteopontin Lamarque, S. biocorrosion of Ti-6A1—4V implant and osteocalcin, 227 ; Pellen-Mussi, P.; Rougier, N.; Le alloy by a mouse macrophage cell Maul, T. M. See Orban, J. M., 756 Lan, J.; Chesne, C.; Bonnaure- line, 717 Mazzocchi, M. See Nicoli Aldini, N., Mallet, M.: Gingival organotypic Liu, D. W. See Skrtic, D., 763 264 culture and langerhans cells: A Liu, X. See Lim, J. Y., 504 McDonough, W. G. See Skrtic, D., tool for immunotoxicologic Liu, Y. 4/09 experiments, 257 ; Shu, X. Z.; Gray, S. D.; Prestwich, Meek, M. F. Lamghari, M. See Ferreira, L., 584 G. D.: Disulfide-crosslinked ; Jansen, K.; Steendam, R.; van Lamme, E. See Druecke, D., 10 hyaluronan- gelatin sponge: Oeveren, W.; van Wachem, P. B.; Langer, R. See Colombo, G., 651 growth of fibrous tissue in vivo van Luyn, M. J. A.: In vitro Langer, S. See Druecke, D., 10 142 degradation and biocompatibility Lannutti, J. See Wang, H., 61 ; See Shu, X. Z., 365 of poly(DL-lactide-i-caprolactone) Larsson, J. Lloyd, A. W. See Goreish, H. H., 1 nerve guides, 43 —; Persson, C.; Tengvall, P.; Lohmann, C. H. See Frosch, K.-H., Menei, P. See Rizk, T., 360 Lundqvist-Gustafsson, H.: Anti- 325; Tosatti, S., 458 Mikos, A. G. See Fisher, J. P., 428 AUTHOR INDEX Miyamoto, Y. See Yokoyama, K., 150 D.: Matrix metallaproteinases Rizk, T. Mochizuki, A. See Tanaka, M., 684 MMP-2, -9 and tissue inhibitors —; Montero-Menei, C.; Jollivet, C.; Montero-Menei, C. See Rizk, T., 360 TIMP-1, -2 expression and Benoit, J. P.; Menei, P.: Pitfalls in Morris, R. N. See Pitt, W. G., 95 secretion by primary human the detection of lipid vectors in Mourisi, A. M. See Wang, H., 61 osteoblast cells in response to neural cell clulture and in brain titanium, zirconia, and alumina tissue, 360 ceramics, 114 Rose, S. See Goreish, H. H., 1 Nagumo, M. See Yokoyama, K., 150 Rougier, N. See Lamarque, S., 25 / Nakabayashi, N., 566 Roy, R. —; Watanabe, A.; Igarashi, K.: AFM Pabbruwe, M. B. —; Kohles, S. S.; Zaporojan, V.; observation of collapse and —; Standard, O. C.; Sorrell, C. C.; Peretti, G. M.; Randolph, M. A.; expansion of phosphoric acid- Howlett, C. R.: Use of an Xu, J.; Bonassar, L. J.: Analysis of demineralized dentin, 558 intramedullary in vivo model to bending behavior of native and Nakamurgra, S. study bone formation and engineered auricular and costal —; Kobayashi, T.; Yamashita, K.: maintenance in ceramic porous cartilage, 597 Numerical osteobonding domains, 305 Rueger, D. R. See Wang, H., 219 evaluation of electrically polaried Palumbo, F. S. See Shu, X. Z., 365 Rustichelli, F. See Nicoli Aldini, N., hydroxyapatite ceramics, 90 159 264 Nelson, E. R. See Szivek, J. A., 537 Pellen-Mussi, P. See Lamarque, S., Ryu, H.-S. Nemoto, K. See Tanimoto, Y., 107 257 —; Lee, J.-K.; Seo, J.-H.; Kim, H.; Nicoli Aldini, N. Peppas, N. A. See Oral, E., 439 Hong, K. S.; Kim, D. J.; Lee, J. H.; —; Fini, M.; Giavaresi, G.; Martini, L.; Peretti, G. M. See Roy, R., 597 Lee, D.-H.; Chang, B.-S.; Lee, C.- Dubini, B.; Ponzi Bossi, M. G.; Persson, C. See Larsson, J., 448 K.; Chung, S.-S.: Novel bioactive Rustichelli, F.; Krajewski, A.; Pieper, J. See Druecke, D., 10 and biodegradable glass ceramics Ravaglioli, A.; Mazzocchi, M.; Pitt, W. G. with high mechanical strength in Giardino, R.: Osteointegration of —; Morris, R. N.; Mason, M. L.; Hall, the CaO—SiO,.—B,O, system, 79 bioactive glass-coated and M. W.; Luo, Y.; Prestwich, G. D.: uncoated zirconia in osteopenic \ttacjment of hyaluronan to bone: An in VIVO experimental metallic surfaces, 95 Sakai, J. See Yokoyama, K., 150 study, 264 Ponzi Bossi, M. G. See Nicoli Aldini, Sakurai, M. See Higuchi, A., 34 Nishikawa, T. See Fujishiro, T., 531 N., 264 Salih, V. See Kim, H.-W., 522 Nishiwaki, T. See Tanimoto, Y., 107 Popa, E. R. See van Bilsen, P. H. J., San Roman, J. See de Arruda Notingher, I. See Gough, J. E., 640 423 Almeida, K., 473 Nuttleman, C. R. Porter, A. E. Sawyer, A. A. See Kilpadi, K. L., 273 —; Tripodi, M. C.; Anseth, K. S.: In : Best, S. M.; Bonfield, W.: Schildberg, H. See Wang, H., 219 vitro osteogenic differentiation of Ultrastructural comparison of Schmidt, S. See Kanjickal, D., 489 human mesenchymal stem cells hydroxyapatite and silicon- Schwartz, Z. See Tosatti, S., 458 photoencapsulated in PEG substituted hydroxyapatite for Seliktar, D hydrogels|, 777 3 biomedical applications, 133 —; Zisch, A. H.; Lutolf, M. P.; Wrana, Powell, H. See Wang, H., 61 J. L.; Hubbell, J. A.: MMP-2 Prestwich, G. D. See Liu, Y., 142; Pitt, sensitive, VEGF-bearing bioactive Ohgushi, H. See Shimaoka, H., 168 W. G., 95; Shu, X. Z., 365 hydrogels for promotion of Okamoto, M. See Shimaoka, H., 168 Prince, C. W. See Kilpadi, K. L. vascular healing, 704 Oonishi, H. Seo, J.-H. See Ryu, H.-S., 79 ; Clarke, I. C.; Yamamoto, K.; Shapiro, I. M. See El-Ghannam, Masaoka, T.; Fujisawa, A.; Quinn, J. B. See Xu, H. H. K., 7 A. R., 615 Masuda, S.: Assessment of wear in Shibanuma, N. See Fujishiro, T., 531 extensively irradiated UHMWPE Shimaoka, H. cups in simulator studies, 52 Rabie, A. B. M. See Wong, C. T., 513 —; Dohi, Y.; Ohgushi, H.; Ikeuchi, M.; Oral, E. Rafael, A. See Ferreira, L., 584 Okamoto, M.; Kudo, A.; Kirita, T.; ; Peppas, N. A.: Responsive and Ramakrishna, S. See Bini, T. B., 286 Yonemasu, K.: Recombinant recognitive hydrogels using star Ramshaw, J. A. M. See Lickorish, D., growth/ differentiation factor-5 polymers, 439 19 (GDF-5) stimulates osteogenic Orban, J. M. Randolph, M. A. See Roy, R., 597 differentiation of marrow ; Wilson, L. B.; Kofroth, J. A.; El- Rastello dr Boisseson, M. See mesenchymal stem cells in porous Kurdi, M. S.; Maul, T. M.; Vorp, Leonard, M., 335 hydroxyapatite ceramic, 168 D. A.: Crosslinking of collagen Ravaglioli, A. See Nicoli Aldini, N., Shimono, M. See Matsuzaka, K., 227 gels by transglutaminase, 756 264 Shoichet, M. S. See Kapur, T. A., 235 O’Shea, P. See Sim, B., 352 Revell, P. A. See Hing, K. A., 187 Shu, X. 2. Oum’‘hamed, Z. Rhee, S.-H. See Yoo, J. J., 401 —; Ghosh, K.; Liu, Y.; Palumbo, F. S.; —; Garnotel, R.; Josset, Y.; Risbud, M. See El-Ghannam, A. R., Luo, Y.; Clark, R. A.; Prestwich, Trenteseaux, C.; Laurent-Maquin, 615 G. D.: Attachment and spreading AUTHOR INDEX of fibroblasts on an RGD peptide- Taylor, C. E. See van Bilsen, P. H. j., Microstructural disassembly of modified injectable hyaluronan 423 calcium phosphates, 61 hydrogel, 365 Tengvall, P. See Larsson, J., 448 ; Springer, I. N. G.; Schildberg, H.; -—; See Liu, Y., 142 Terheyden, H. See Wang, H., 219 Acil, Y.; Ludwig, K.; Rueger, Siedlecki, C. A. See Krishnan, A., 544 Textor, M. See Tosatti, S., 458 D. R.; Terheyden, H.: Sim, B. Toida, T. See Iwasaki, Y., 566 Carboxymethylcellulose-stabilized —; Cladera, J.; O'Shea, P.: Fibronectin Tosatti, S. collagenous rhOP-1 device—a interactions with osteoblasts: —; Schwartz, Z.; Campbell, C.; novel carrier biomaterial for the Identification of a non-integrin- Cochran, D. L.; VandeVondele, S.; repair of mandibular continuity mediated binding mechanism Hubbeil, J. A.; Denzer, A.; defects, 219 using a real-time fluorescence Simpson, J.; Wieland, M.; Wang, J. See Li, Q., 28 binding assay, 352 Lohmann, C. H.; Textor, M.; Wang, S. See Bini, T. B., 286 Simon, C. G.., Jr. Boyan, B. D.: RGD-containing Wang, X. —; Guthrie, W. F.; Wang, F. W.: Cell peptide GCRGYGRGDSPG —; Gu, X.; Yuan, C.; Chen, S.; Zhang, seeding into calcium phosphate reduces enhancement of osteoblast P.; Zhang, T.; Yao, J.; Chen, F.; cement, 628 differentiation by poly(L-lysine)- Chen, G.: Evaluation of Simpson, J. See Tosatti, S., 458 graft-poly(ethylene glycol)-coated biocompatibility of polypyrrole in Skrtic, D. titanium surfaces, 458 vitro and in vive, 411 —; Antonucci, J. M.; McDonough, Traisnel, M. See Zhang, Y. M., 383 Wang, Y. W. G.; Liu, D. W.: Effect of Trenteseaux, C. See Oum’hamed, Z., —; Spencer, P.: Overestimating hybrid chemical structure and 114 layer quality in polished composition of the resin phase on Tripodi, M. C. See Nuttleman, C. R., adhesive/dentin interfaces, 722 mechanical strength and vinyl Warrier, B. See Choe, E. S., 159 conversion of amorphous calcium Tsuchiya, T. See Matsuoka, . Watanabe, A. See Nakabayashi, N., phosphate-based composites, 763 558 Sorrell, C. C. See Pabbruwe, M. B., Weber, N. 405 —; Bolikal, D.; Bourke, S. L.; Kohn, J.: Spencer, P. See Wang, Y., 722 Ugarkovic, M. See Druecke, Small changes in the polymer Springer, I. N. G. See Wang, H., 219 structure influence the adsorption Springhetti, S. See Kanjickal, D., 489 behavior of fibrinogen on polymer St. C. Smart, R. See Zhang, H., 479 surfaces: Validation of a new van Bilsen, P. H. J. Standard, O. C. See Pabbruwe, M. B., rapid screening technique, 496 —; Popa, E. R.; Brouwer, L. A.; 305 Vincent, J.; Taylor, C. E.; de Leij, Werkmeister, J. A. See Lickorish, D., Steendam, R. See Meek, M. F., 43 L. F. M. H.; Hendriks, M.; van 19 Steinau, H. U. See Druecke, D., 10 Luyn, M. J. A.: Ongoing foreign Wetmore, L. A. See Kostoryz, E. L. Sturgeon, J. See Krishnan, A., 544 body reaction to subcutaneous 660 Stiirmer, K. M. See Frosch, K.-H., 325 Wheatley, M. A. See El-Sherif, D. M., implanted (heparin) modified Sumita, M. See Yamamoto, A., 244 71 dacron in rats, 423 Sun, D. D. N. See Li, Q., 28 van Blitterswijk, C. A. See Wilson, Wieland, M. See Tosatti, S., 458 Szivek, J. A. Wiggins, M. J. Ce ao —; Nelson, E. R.; Hajdu, S. D.; ; MacEwan, M.; Anderson, J. M.; van Luyn, M. J. A. See Meek, M. F., Yablonski, K.; DeYoung, D. W.: Hiltner, A.: Effect of soft-segment 43; van Bilsen, P. H. J., 423 Transforming growth factor-B1 chemistry on polyurethane van Oeveren, W. See Meek, M. F., 43 accelerates bone bonding to a van Wachem, P. B. See Meek, M. I biostability during in vitro fatigue blended calcium phosphate 43 loading, 668 ceramic coating: A dose-response VandeVondele, S. See Tosatti, S., 458 Williams, C. G. See Li, O., 28 study, 5 aI=/ Verbout, A. J. See Wilson, C. E., 123 Wilson, C. E. ; Bruijn, J. D.; van Blitterswijk, Viereck, V. See Frosch, K.-H., 325 C. A.; Verbout, A. J.; Dhert, Vincent, J. See van Bilsen, P. H. J., Takagi, S. See Xu, H. H. K. 423 W. J. A.: Design and fabrication of Takikawa, S. See Fujishiro, T., Vogler, E. A. See Krishnan, A., 544; standardized hydroxyapatite Tanaka, M. Lim, J. Y., 504 scaffolds with a defined macro- —; Mochizuki, A.: Effect of water von Recum, A. F. See Jain, R., 296 architecture by rapid prototyping structure on blood compatibility Vorp, D. A. See Orban, J. M., 756 for bone-tissue-engineering thermal analysis of water in research, 123 poly(mthe)acrylate, 684 Wilson, L. B. See Orban, J. M., 756 Tanimoto, Y. Winnard, P. See Wang, H., 61 —; Nishiwaki, T.; Nemoto, K.: Wang, F. W. See Simon, C. G., Jr., 628 Wong, C. T. Numerical failure analysis of Wang, H. —; Lu, W. W.; Chan, W. K.; Cheung, glass-fiber-reinforced composites, —; Lee, J.-K.; Mourisi, A. M.; KR. M,C; inky R. be Rs key; DeS:; 107 Anderson, D.; Winnard, P.; Rabie, A. B. M.; Deng, L. F.; Tanner, K. E. See Hing, K. A., 187 Powell, H.; Lannutti, J.: Leong, J. C. Y.: In vivo cancellous AUTHOR INDEX bone remodeling on a strontium- Yamamoto, T. See Fujishiro, T., 531 Zaporojan, V. See Roy, R>. , 597 containing hydroxyapatite (Sr-HA) Yamashita, K. See Nakamura, S., 90 Zhang, H. bioactive cement, 513 Yao, J. See Wang, X., 411 —; Bremmell, K.; Kumar, S.; St. C. Wong, M. E. K. See Fisher, J. P., 428 Yeni, Y. N. See Dong, X. N., 5 Smart, R.: Vitronectin adsorption Wrana, J. L. See Seliktar, D., 704 Yokoyama, K. on surfaces visualized by tapping —; Kaneko, K.; Miyamoto, Y.; Asaoka, mode atomic force microscopy, K.; Sakai, J.; Nagumo, M.: Fracture 479 Xu, H. H. K. associated with hydrogen Zhang, P. See Wang, X., 411 —; Takagi, S.; Quinn, J. B.; Chow, absorption of sustained tensile- Zhang, T. See Wang, X., 411 L. C.: Fast-setting calcium loaded titanium in acid and Zhang, Y. M. phosphate scaffolds with tailored neutral fluoride solutions, 150 —; Bataillon-Linez, P.; Huang, P.; macropore formation rates for Yonemasu, K. See Shimaoka, H., 168 Zhao, Y. M.; Han, Y.; Traisnel, M.; bone regeneration, 725 Yoo,J . I. Xu, K. W.; Hildebrand, H. F.: Xu, J. See Roy, R., 597 —; Rhee, S.-H.: Evaluations of Surface analyses of micro-arc Xu, K. W. See Zhang, Y. M., 383 bioactivity and mechanicla oxidized and hydrothermally Xu, X. See Bini, T. B., 286 Porroofp erties of ppoollyy treated titanium and effect on (l-caprolactone)/silica osteoblast behavior, 383 nanocomposite following heat Zhao, Y. M. See Zhang, Y. M., 383 Yablonski, K. See Szivek, J. A., 537 treatment, 401 Zilinski, J. L. Yamamiya, S.-i. See Higuchi, A., 34 —; See Kim, B.-S., 201 —; Kao, W. J.: Tissue adhesiveness Yamamoto, A. Yoon, B. O. See Higuchi, A., 34 and host response of in situ —; Honma, R.; Sumita, M.; Hanawa, Yoshinari, M. See Matsuzaka, K., Photopolymerizable [.: Cytoxicity evaluation of Yoshiya, S. See Fujishiro, T., 531 interpenetrating networks ceramic particles of different sizes Yourtee, D. M. See Kostoryz, E. L., containing methylprednisolone and shapes, 244 660 acetate, 392 Yamamoto, K. See Oonishi, H., 5 5 Yuan, C. See Wang, X., 411 Zisch, A. H. See Seliktar, D., 704 Journal of Biomedical Materials Research Subject Index—Volume 68A Acellular collagen matrix, 201 Blood, 34 Combination groove, 227 Adhesion, 504 Blood compatible materials, 684 Conducting polymer, 411 Adhesion peptides, 696 Blood proteins, 544 Controlled release, 651 Adhesive, 722 Blood response, 95 Coralline hydroxyapatite, 747 AFM, 343, 558 Bone, 305 Corrosion, 61, 150 Alginate, 628 Bone formation, 428, 513 COX-2, 53 \lkoxysilane self-assembled Bone graft, 628 cp-titanium, 296 monlayer, 615 Bone graft substitute, 19 Craniofacial and orthopedic repair Alumina, 30 Bore graft substitutes, 187 725 Amorphous calcium phospate, 763 Bone healing, 428 Creep, 668 Angoigernesis, 603 Bone ingrowth, 187 Crosslinked biomaterial, 36 Animal model, 264 Bone-marrow stromal cells, Crosslinked UHMWPE, 52 Antimicrobial activity, 473 Bone remodeling, 51 Crosslinking, 756 Antiwashout, 725 Bone tissue engineering, 725, 77 Culture-expanded marrow Apoptosis, 448 mesenchymal stem cells (MSCs), Arg-Gly-Asp, 365 ' , re 68 Calcium phosphate cement, 628, 725 16 Arterial injury, 704 Calcium phosphate ceramics (CPC) Cyclic mechanical stretch, 531 Arthroplasty, 52 95 Cyclosporin, 489 Associative alginate, 335 =59 Cytoskeletal organization, 3 S C alcium Phosphates Atomic force microscopy (AFM), 479 a2 Cytotoxicity, 43, 79, 584 ( ancellous bone, 5/3 Attachment, 296 Carbocyanine dye, 360 uricula rtilage ) r 23 \uricular cartilag ( arboxymethylcellulose, 219 Dacron, 423 \utofluorescence, 560 a~*-regulated proteins, 159 De novo bone formation, 168 ( C arrier biomaterials, 21I 9 Defects, 1 54 BALB/3T3, 376 artilage, 28 Degree of vinyl conversion, 7 Biaxial flexure strength, 7¢ CD34 cell, 34 Dentin, 722 Bioactive, 79 "3 Dentin bonding, 558, 566 Bioactive bone cement, 5 ‘Il adhesion kinetics, 383 Dextran, 584 Bioactive glass, 264, 640 ell adhesion patterning, 696 Differentiation, 458 Bioactivitv, 133, 401 Il-cvcle analvsis, 660 Digital micromirror array, 696 Biocatalytic polyester, 584 Il growth, 142 Dissolution control, 522 Bioceramic, 61 \ ‘Ii-Implant interface, 296 DNA damage, 660 Biocompatibility, 210, 411, 584 ‘Il motility, 314 DNA microarray analysis, 376 pti Biocompatibility and cytotoxicity, 717 I] seeding, 628 Dose response, 5 v/ B> iodegrada; blej PL' GA | poly(la' ctic-co- ell' separation, . 34 Dru—g del]i ver=y , 230992 , 489 glycolic acid], 71 Il shape, 314 Dynamic mechaical analysis, 573 Biodegradable polymers, 504 ‘Il-surface interaction, 615 ‘ Biodegradation, 79, 668 lular adhesion, 1 EDTA, 159 Biological activity, 473 lular response, p5a2n2 Electrical charge, 90 Biomaterial, | 2> 10, 411 ‘Il morphology, 314 Electrical polarization, 90 Biomaterial surfaces, 47 Cementum, 343 Endothelial cells, 704 Biomaterials, 10, 34, 11-4 Cementum-dentin juction, 343 Engineered biomaterials, 177 Biomechanical adaption, 18 Ceramic, 61 Engineered extracellular matrix, 365 Biomechanical testing, 21 Chondroitin sulfate, 28 Enzymatic degradation, 704 Biomechanics, 597 Coagulation, 544 Enzyme, 756 Biomimetic, 19 Cold crystallization, 684 Eponeurium, 651 Biospecific cell adhesion, 177 Collagen, 19, 756 Epoxy resins, 660 Biostability, 668 Collagenous matrix, 219 Expansion of demineralized dentin, BISGMA, 660 Collapse, 558 558 Block-copolymer scaffolds, 10 Colony formation assay, 244 Extracellular matrix, 114 Journal of Biomedical Materials Research Vol. 68A, 790-792 (2004) SUBJECT INDEX Fast-setting, 725 0 model 305 Nerve regeneration, 201 Fatigue, 668 strian analysis, 537 Numerical failure analysis, 107 Ferric ion, 566 Inflammation, 423, 651 Numerical model, 107 Fibrinogen, 496 Inflammatory response, | Fibronectin, 273, Integrin a5b1, 352 Oil red O, 360 Fibrous capsule formation, 1 Integrins, 273 Organotypic culture, 257 Finite element method, 107 Interface, 343, 722 Osseointegration, 114 Fluoresceinphophatidylethanolamine Intergranular, 61 Osteoblast, 325, 458, 504, 640 ase e4 Interpenetrating polymer network, Osteoblast adhesion, 615 Fluoride, 150 210 Osteoblast-like cells, 227 Foreign body reaction, 423 Intimal hyperplasia, 489 Osteoblasts, 273, 352 Fracture, 150 Intravital microscopy, 10 Osteobonding, 90 Freezing bond water, 684 lodophor, 473 Osteoconductive, 513 Functional coating, q95922 Osteogenesis, 168, 305, 747 FXII, 544 I 929 cells response, 660 Osteogenic differentiation, 773 Langerhans cells, 257 Osteogenic protein, 219 GCRGYGRGDSPG, 458 I angerin, 257 Osteointegration, 264 Gelatin, 210, 392 Large-deflection bending, 597 Osteoporosis, 264 Genotoxicity, 660 Lipid-coated microbubbles, 360 Oxidative burst, 448 Gingiva, 257 Liposomes, 360 Oxide, 61 Glass ceramics, 79 Liquid-vapor interfacial tension, 544 Oxidized titanium, 479 Oxirane-based dental resins, 660 Glass-fiber-reinforced composite, 107 Loss tangent, 573 Glycosaminoglycan, 352, 365 | yophilized scaffold, 142 Gradient, 235 PC12cells, 235 Growth/ differentiation factor-5 (GDF- Peel test, 392 Macrophage cell culture, 717 PEG, 458 5), 168 Macroporous sponge, 142 Growth factors, 201 Peripheral nerve, 201 MAP kinase, 159 Peripheral nerve guide, 43 Matrix metallaproteinase (MMP), 704 PET, 296 Heat treatment, 401 Matrix metalloproteinases, 114 PGE,, 53 Hemocompatibility, 43 Mechanical properties, 401 PH sensitive, 439 Heparin, 423 Mechanical stimulation, 244 pHEMA, 235 Hollow polymer microcapsules, 71 fechanical strength, 79 Phosphoric acid, 566 HPLC, 71 Metal corrosion, 717 Phosphorylation, 159 H.PO,, 558 Methyl methacrylate-tri--butylborane Phosphorylcholine polymer coating, 1 Human macrophages, 531 (MMA-TBB) resin, 566 Photoencapsulation, 773 Human mesenchymal stem cell, 747 Micro-arc oxidation, 383 Photopolymerization, 28 Human Mesenchymal stem cells, 773 Microbraiding, 286 Platelet adhesion, 95 Human microvascular endothelial Microcirculation, it 10 PLGA biodegradable fibers, 286 cells (HMVEC 603 Microparticles, 335 PLLA, 376 Human osteoblasts, 114 Microtexturing, 296 Poly(acrylic acid), 210 Human tracheal scar fibroblasts, 142 Mineralization, 640 Polyarylates, 496 Hyaluronan, 95 Mineralized extracellular matrix, 227 Poly(e-caprolactone), 401 Hybrid layer, 722 Modulated drug delivery, 439 Polyethylene glycol, 392, 704 Hydrogel, 28, 489, 584 Molecular imprinting, 439 Poly(ethylene glycol), 458, 603 Hydrogel sponges, 603 Morphology, 722 poly(ethylene glycol) (PEG), 489 Hy drogels, 210, Mouse skinfold chamber, 10 Poly(hydroxyethyl methacrylate), 235 Hydrogen embrittlement, 150 Multigrooves, 227 Poly(I-caprolactone), 4 43 Hydrothermal synthesis, 730873 Murine fibroblast, 244 Poly(lactic acid), 496 Hydroxyapatite, 19, 90, 123, 133, 187, Murine macrophage, 244 Poly(L-lysine)-¢-poly(ethylene glycol), 640, 725, 747 Myotoxicity6,51 458 Hydroxylapatite, 273 Polymer library, 496 Hysrogel, 392 Nanoindentation, 343 Polymer scaffold, 773 Necrosis, 448 Poly(2-methoxyethyl acrylate), 684 Immunofluorescence assay, 496 Neovascularization, 10 Polymorphonuclear neutrophil, 448 Immunohistochemistry, 428 Nerve regeneration, 286, 411 Polypyrrole, 411 Immunotoxicology, 257 Neural function, 201 Polyurethane, 668 Implantation, 43, 423 Neural prosthetics, 177 Polyurethane membrane, 34 In vitro cell growth, 365 Neurotrophins, 235 Pore channels, 325 In vitro degradation, 43 NGF, 235 Porous architecture, 187 In vitro studies, 531 Noncollagenous peptides, 558 Porous ceramics, 305 In vivo fibrous tissue engineering, 365 Nerve guide conduits, 286 Porous hydroxyapatite ceramic, 168 SUBJECT INDEX Proliferation, 383, 458, 504 Silicon, 133 Titanium implants, 32 5 Prolonged duration local anesthesia, Simulated body fluid, 19 Titanium particles, 53 l 651 Simulator wear, 52 Topography, 640 Protein adsorption, 479, 496, 544 Soft-tissue deformation, 597 Transformation, 376 PU, 376 Spinal cord injury, 235 Transforming growth factor (TGF)-B1, Stainless steel, 95 537 Statistic estimation, 90 Transglutaminase, 756 Quantitative RT-PCR, 227 Storage modulus, 573 Transgranular, 61 Strain gauge, 537 Tricalcium phosphate, 747 Rapid prototyping, 123 Strontium-containing hydroxyapatite, Rapid screening, 496 513 Ultrsound contrast agent, 71 Reactive chemical species (nitric oxide Surface chemistry, 504 Ultrsound-induced degradation, 71 and hydrogen peroxide), 717 Surface energy, 383, 504 Recognition, 439 Surface modification, 177 RGD cell adhesive peptide, 95 Vaginal mucosa, 159 RGD grafting, 615 Viscoelasticity, 573 TEM (transmission electron RGD peptide, 458 Vitronectin, 273, 479 microscopy), 133 Rho family, 314 Ternary methacrylate resins, 763 Ruthenium complex, 696 Thiol modification, 142 Water structure, 684 Three point bending simulation, 107 Wet-bonding, 566 Scaffold, 725 Ti alloy, 717 Wollastonite, 79 Shrinkage of demineralized dentin, Tissue engineering, 10, 28, 123, 325 , 566 428, 597, 615, 628, 696, 756 Zirconia, 264 Silica, 401 Titanium, 150, 448 ZrO, porous scaffold, 522

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