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Journal of Biomedical Materials Research 2006: Vol 77A Index & Table of Contents PDF

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Preview Journal of Biomedical Materials Research 2006: Vol 77A Index & Table of Contents

Journal of Biomedical Materials Research Author Index—Volume 77A Adachi, N. See Yanada, S., 773 the chondrogenesis of human bladder graft neovascularization: Agathopoulos, S. See Rocha, J. H. G., articular chondrocytes, 84 Pilot study, 390 160 Barbu, E. See Verestiuc, L., 726 —; Shou, Z.; Yeger, H.; Farhat, Aguilera, F. S. See Toledano, M., 128 Barranco, V. See Saldana, L., 220 W. A.: Porcine bladder acellular Agung, M. See Yanada, S., 773 Baslé, M. F. See Mabilleau, G., 35 matrix porosity: Impact of Aita, H. See Nakamura, H., 478 Beck, B. See Schwarz, F., 437 hyaluronic acid and lyophilization, Albaladejo, A. See Toledano, M., 128 Becker, J. See Schwarz, F., 437 180 Allcock, H. R. See Greish, Y. E., 416; Benayahu, D. See Shur, I., 832 Castillo-Olivares, J. L. See Garcia Sethuraman, S., 679 Bender, J. D. See Greish, Y. E., 416 Paez, J. M., 839 Al-Saffar, N. See Jell, G., 119 Bengali, Z. See Jang, J.-H., 50 Catauro, M. Ambrosio, L. See Catauro, M., 340 Bernal, D. See Peraire, C., 370 —; Raucci, M. G.; DE Marco, D.; Ameer, G. A. See Kang, Y., 331 Bernier, S. M. See Koleganova, V. A., Ambrosio, L.: Release kinetics of Anderson, J. See Ward, B., 380; Ward, 572 ampicillin, characterization and R., 580 Bierbaum, S. bioactivity of TiO,/PCL hybrid Andia, I. See Anitua, E., 285 —; Douglas, T.; Hanke, T.; materials synthesized by sol-gel Andrews, R. See Marrs, B., 269 Scharnweber, D.; Tippelt, S.; processing, 340 Anissian, L. See Kang, Y., 331 Monsees, T. K.; Funk, R. H. W.; Chang, B.-S. See Lee, J. H., 362 Anitua, E. Worch, H.: Collageneous matrix Chang, K.-Y. See Thissen, H., 590 —; Sanchez, M.; Nurden, A. T.; coatings on titanium implants Chappard, D. See Mabilleau, G., 35 Zalduendo, M.; de la Fuente, M.; modified with decorin and Chen, J. See Cartwright, L., 390 Orive, G.; Azofra, J.; Andia, I.: chondroitin sulfate: Chen, Q. Z. Autologous fibrin matrices: A Characterization and influence on —; Boccaccini, A. R.: Poly(D,L-lactic potential source of biological osteoblastic cells, 551 acid) coated 4555 Bioglass~-based mediators that modulate tendon Bjursten, L. M. See Sahlin, H., 43 scaffolds: Processing and cell activities, 285 Boccaccini, A. R. See Chen, Q. Z., 445 characterization, 445 Ao, Q. See Zhang, L., 277 Bolayir, G. See Develioglu, H., 627 Chen, S. See Lu, Y., 396 —; Wang, A.; Cao, W.; Zhang, L.; Boskey, A. L. See Donnelly, E., 426 Chen, Z. See Luo, J., 823 Kong, L.; He, Q.; Gong, Y.; Zhang, Brauer, D. S. Cheng, H.-L. M. See Cartwright, L., X.: Manufacture of —; Riissel, C.; Li, W.; Habelitz, S.: 390 multimicrotubule chitosan nerve Effect of degradation rates of Cheng, J.-Y. See Shau, M.-D., 736 conduits with novel molds and resorbable phosphate invert Chin, W.-K. See Shau, M.-D., 736 characterization in vitro, 11 glasses on in vitro osteoblast Chiu, R. Arano, A. See Peraire, C., 370 proliferation, 213 —; Ma, T.; Smith, R. L.; Goodman, Arias, J. L. See Peraire, C., 370 Breneman, K. D. See Hinds, M. T., S. B.: Polymethylmethacrylate Arola, D. 458 particles inhibit osteoblastic —; Zheng, W.: Hydration and Brown, P. W. See Greish, Y. E., 416; differentiation of bone marrow dynamic fatigue of dentin, 148 Sethuraman, S., 679 osteoprogenitor cells, 850 Azofra, J. See Anitua, E., 285 Brozek, W. See Wutzl, A., 75 Chung, C. Burdick, J. A. See Chung, C., 518 —; Mesa, J.; Randolph, M. A.; Burgos, R. See Garcia Paez, J. M., 839 Yaremchuk, M.; Burdick, J. A.: Babyn, P. See Cartwright, L., 390 Butz, F. See Nakamura, H., 478 Influence of gel properties on Bachrach, G. neocartilage formation by —; Friedman, M.; Gilinski, G.; auricular chondrocytes Steinberg, D.: Soluble sustained Cao, W. See Ao, Q., 11 photoencapsulated in hyaluronic release gene delivery system, 811 Cartwright, L. acid networks, 518 Baker, S. P. See Donnelly, E., 426 —; Farhat, W. A.; Sherman, C.; Chen, Chung, C.-P. See Seol, Y.-J., 599 Banu, N. J.; Babyn, P.; Yeger, H.; Cheng, Cincu, C. See Mabilleau, G., 35 —; Tsuchiya, T.; Sawada, R.: Effects H.-L. M.: Dynamic contrast- Colby, C. B. See Liu, D. P., 763 of a biodegradable polymer enhanced MRI to quantify VEGF- Conconi, M. T. See Marzaro, M., 795 synthesized with inorganic tin on enhanced tissue-engineered Contreras, R. See Sahlin, H., 43 Journal of Biomedical Materials Research Vol . 77A, 858-864 (2006) Journal of Biomedical Materials Research Author Index—Volume 77A Adachi, N. See Yanada, S., 773 the chondrogenesis of human bladder graft neovascularization: Agathopoulos, S. See Rocha, J. H. G., articular chondrocytes, 84 Pilot study, 390 160 Barbu, E. See Verestiuc, L., 726 —; Shou, Z.; Yeger, H.; Farhat, Aguilera, F. S. See Toledano, M., 128 Barranco, V. See Saldana, L., 220 W. A.: Porcine bladder acellular Agung, M. See Yanada, S., 773 Baslé, M. F. See Mabilleau, G., 35 matrix porosity: Impact of Aita, H. See Nakamura, H., 478 Beck, B. See Schwarz, F., 437 hyaluronic acid and lyophilization, Albaladejo, A. See Toledano, M., 128 Becker, J. See Schwarz, F., 437 180 Allcock, H. R. See Greish, Y. E., 416; Benayahu, D. See Shur, I., 832 Castillo-Olivares, J. L. See Garcia Sethuraman, S., 679 Bender, J. D. See Greish, Y. E., 416 Paez, J. M., 839 Al-Saffar, N. See Jell, G., 119 Bengali, Z. See Jang, J.-H., 50 Catauro, M. Ambrosio, L. See Catauro, M., 340 Bernal, D. See Peraire, C., 370 —; Raucci, M. G.; DE Marco, D.; Ameer, G. A. See Kang, Y., 331 Bernier, S. M. See Koleganova, V. A., Ambrosio, L.: Release kinetics of Anderson, J. See Ward, B., 380; Ward, 572 ampicillin, characterization and R., 580 Bierbaum, S. bioactivity of TiO,/PCL hybrid Andia, I. See Anitua, E., 285 —; Douglas, T.; Hanke, T.; materials synthesized by sol-gel Andrews, R. See Marrs, B., 269 Scharnweber, D.; Tippelt, S.; processing, 340 Anissian, L. See Kang, Y., 331 Monsees, T. K.; Funk, R. H. W.; Chang, B.-S. See Lee, J. H., 362 Anitua, E. Worch, H.: Collageneous matrix Chang, K.-Y. See Thissen, H., 590 —; Sanchez, M.; Nurden, A. T.; coatings on titanium implants Chappard, D. See Mabilleau, G., 35 Zalduendo, M.; de la Fuente, M.; modified with decorin and Chen, J. See Cartwright, L., 390 Orive, G.; Azofra, J.; Andia, I.: chondroitin sulfate: Chen, Q. Z. Autologous fibrin matrices: A Characterization and influence on —; Boccaccini, A. R.: Poly(D,L-lactic potential source of biological osteoblastic cells, 551 acid) coated 4555 Bioglass~-based mediators that modulate tendon Bjursten, L. M. See Sahlin, H., 43 scaffolds: Processing and cell activities, 285 Boccaccini, A. R. See Chen, Q. Z., 445 characterization, 445 Ao, Q. See Zhang, L., 277 Bolayir, G. See Develioglu, H., 627 Chen, S. See Lu, Y., 396 —; Wang, A.; Cao, W.; Zhang, L.; Boskey, A. L. See Donnelly, E., 426 Chen, Z. See Luo, J., 823 Kong, L.; He, Q.; Gong, Y.; Zhang, Brauer, D. S. Cheng, H.-L. M. See Cartwright, L., X.: Manufacture of —; Riissel, C.; Li, W.; Habelitz, S.: 390 multimicrotubule chitosan nerve Effect of degradation rates of Cheng, J.-Y. See Shau, M.-D., 736 conduits with novel molds and resorbable phosphate invert Chin, W.-K. See Shau, M.-D., 736 characterization in vitro, 11 glasses on in vitro osteoblast Chiu, R. Arano, A. See Peraire, C., 370 proliferation, 213 —; Ma, T.; Smith, R. L.; Goodman, Arias, J. L. See Peraire, C., 370 Breneman, K. D. See Hinds, M. T., S. B.: Polymethylmethacrylate Arola, D. 458 particles inhibit osteoblastic —; Zheng, W.: Hydration and Brown, P. W. See Greish, Y. E., 416; differentiation of bone marrow dynamic fatigue of dentin, 148 Sethuraman, S., 679 osteoprogenitor cells, 850 Azofra, J. See Anitua, E., 285 Brozek, W. See Wutzl, A., 75 Chung, C. Burdick, J. A. See Chung, C., 518 —; Mesa, J.; Randolph, M. A.; Burgos, R. See Garcia Paez, J. M., 839 Yaremchuk, M.; Burdick, J. A.: Babyn, P. See Cartwright, L., 390 Butz, F. See Nakamura, H., 478 Influence of gel properties on Bachrach, G. neocartilage formation by —; Friedman, M.; Gilinski, G.; auricular chondrocytes Steinberg, D.: Soluble sustained Cao, W. See Ao, Q., 11 photoencapsulated in hyaluronic release gene delivery system, 811 Cartwright, L. acid networks, 518 Baker, S. P. See Donnelly, E., 426 —; Farhat, W. A.; Sherman, C.; Chen, Chung, C.-P. See Seol, Y.-J., 599 Banu, N. J.; Babyn, P.; Yeger, H.; Cheng, Cincu, C. See Mabilleau, G., 35 —; Tsuchiya, T.; Sawada, R.: Effects H.-L. M.: Dynamic contrast- Colby, C. B. See Liu, D. P., 763 of a biodegradable polymer enhanced MRI to quantify VEGF- Conconi, M. T. See Marzaro, M., 795 synthesized with inorganic tin on enhanced tissue-engineered Contreras, R. See Sahlin, H., 43 Journal of Biomedical Materials Research Vol . 77A, 858-864 (2006) AUTHOR INDEX Cordon, A. See Garcia Paez, J. M., Facchini, A. See Lisignoli, G., 497 Goh, J. C. H. See Ge, Z., 639 839 Fan, H. Gong, Y. See Ao, Q., 11; Zhang, L., Courtman, D. W. See Hinds, M. T., —; Hu, Y.; Qin, L.; Li, X.; Wu, H.; 277 458 Lv, R.: Porous Gonzalez-Carrasco, J. L. See Saldana, Cristino, S. See Lisignoli, G., 497 gelatin—chondroitin—hyaluronate L., 608 Currier, B. L. See Kempen, D. H. R., tri-copolymer scaffold containing Goodman, S. B. See Chiu, R., 850; 103 microspheres loaded with TGF-B1 Ramachandran, R., 512 induces differentiation of Gorna, K. See Gogolewski, S., 802; mesenchymal stem cells in vivo for Harris, L. G., 304 Dagang, G. enhancing cartilage repair, 785 Green, K. L. See Verestiuc, L., 726 —; Kewei, X.; Haoliang, S.; Yong, H.: Farhat, W. A. See Cartwright, L., 390; Gregory, K. W. See Hinds, M. T., 458 Physicochemical properties of Cartwright, L. M., 180 Greil, P. See Tsuchiya, H., 534 TTCP/DCPA system cement Farrar, R. See Sethuraman, S., 679 Greish, Y. E. See Sethuraman, S., 679 formed in physiological saline Ferreira, J. M. F. See Rocha, J. H. G., —; Bender, J. D.; Lakshmi, S.; Brown, solution and its cytotoxicity, 313 160 P. W.; Allcock, H. R.; Laurencin, de Groot, K. See Habibovic, P., 747 Fornasiero, F. See Weinmiiller, C., C. T.: Formation of de la Fuente, M. See Anitua, E., 285 230 hydroxyapatite-polyphosphazene Dellinger, J. G. Frangos, J. A. See Sahlin, H., 43 polymer composites at physiologic —; Wojtowicz, A. M.; Jamison, R. D.: Friedman, M. See Bachrach, G., 811 temperature, 416 Effects of degradation and Fritz, E. A. Gunduz, M. See Rodriguez, A. P., porosity on the load bearing —; Glant, T. T.; Vermes, C.; Jacobs, 707; Tsujigiwa, H., 507 properties of model J. J.; Roebuck, K. A.: Chemokine Guo, Z.-Y. See Wang, W., 28 hydroxyapatite bone scaffolds, 563 gene activation in human bone Gupta, V. See Nakamura, H., 478 de Marco, D. See Catauro, M., 340 marrow-derived osteoblasts Develioglu, H. following exposure to particulate —; Saraydin, S. U.; Bolayir, G.; wear debris, 192 Haapa-aho, V. See Meretoja, V. V., Dupoirieux, L.: Assessment of the Fujimoto, S. See Nakagawa, M., 112 261 effect of a biphasic ceramic on Funk, R. H. W. See Bierbaum, S., 551 Habelitz, S. See Brauer, D. S., 213 bone response in a rat calvarial Habibovic, P. defect model, 627 —; Sees, T. M.; van den Doel, M. A.; Dhert, W. J. A. See Kempen, D. H. R., Ganazzoli, F. See Raffaini, G., 618 van Blitterswijk, C. A.; de Groot, 103 Garcia, A. J. See Stabenfeldt, S. E., K.: Osteoinduction by Dixon, S. J. See Koleganova, V. A., 718 biomaterials—Physicochemical 572 Garcia-Alonso, M. C. See Saldana, L., and structural influences, 747 Donnelly, E. 220 Hall, H. See Reidy, M., 542 —; Baker, S. P.; Boskey, A. L.; van Garcia Paez, J. M. Halloran, B. P. See Kazakia, G. J., 688 der Meulen, M. C. H.: Effects of —; Sanmartin, A. C.; Herrero, E. J.; Hamada, Y. See Nakagawa, M., 112 surface roughness and maximum Millan, I.; Cordon, A.; Rocha, A.; Han, J.-X. See Liu, Y., 324 load on the mechanical properties Maestro, M.; Burgos, R.; Téllez, G.; Han, P. P. See Tsujigiwa, H., 507 of cancellous bone measured by Castillo-Olivares, J. L.: Durability Han, S.-B. See Seol, Y.-J., 599 nanoindentation, 426 of a cardiac valve leaflet made of Han, X.-J. See Huang, Z.-M., 169 Douglas, T. See Bierbaum, S., 55 | calf pericardium: Fatigue and Hanke, T. See Bierbaum, S., 551 Drummond, J. L. See Zhou, M., | energy consumption, 839 Hanley, L. See Zhou, M., 1 Du, F. G. See Lu, X. L., 653 Gaskill, D. F. See Sahlin, H., 43 Haoliang, S. See Dagang, G., 313 Dupoirieux, L. See Develioglu, H., Ge, X. C. See Lu, X. L., 653 Harris, L. G. 627 Ge, Z. —; Gorna, K.; Gogolewski, S.; —; Yang, F.; Goh, J. C. H.; Richards, R. G.: Biodegradable Ramakrishna, S.; Lee, E. H.: polyurethane cytocompatibility to Ebenstein, D. M. See Kazakia, G. J., Biomaterials and scaffolds for fibroblasts and staphylococci, 304 688 ligament tissue engineering, 639 He, C.-L. See Huang, Z.-M., 169 Ebert, M. See Ward, B., 380 George, S. See Kishen, A., 406 He, Q. See Ao, Q., 11 Edirisinghe, P. D. See Zhou, M., 1 Gilinski, G. See Bachrach, G., 811 He, Y. See Wang, H., 672 Ehashi, T. Giuliani, S. See Marzaro, M., 795 Helminen, A. O. See Meretoja, V. V., —; Ohshima, N.; Miyoshi, H.: Three- Glant, T. T. See Fritz, E. A., 192 261 dimensional culture of porcine Glattauer, V. See Thissen, H., 590 Herrero, E. J. See Garcia Paez, J. M., fetal liver cells for a bioartificial Gogolewski, S. See Harris, L. G., 304 839 liver, 90 —; Gorna, K.; Turner, A. S.: Herten, M. See Schwarz, F., 437 Einav, S. See Shur, I., 832 Regeneration of bicortical defects Hinds, M. T. El-Amin, S. See Sethuraman, S., 679 in the iliac crest of estrogen- —; Rowe, R. C.; Ren, Z.; Teach, J.; Elli, S. See Raffaini, G., 618 deficient sheep, using new Wu, P.-C.; Kirkpatrick, S. J.; Escudero, M. L. See Saldana, L., 220 biodegradable polyurethane bone Breneman, K. D.; Gregory, K. W.; Evora, C. See Soriano, I., 632 graft substitutes, 802 Courtman, D. W.: Development of AUTHOR INDEX a reinforced porcine elastin Kang, S.-W. Kohane, D. S. composite vascular scaffold, 458 —; Son, S.-M.; Lee, J.-S.; Lee, E.-S.; —,; Tse, J. Y.; Yeo, Y.; Padera, R.; Hofbauer, G. See Wutzl, A., 75 Lee, K.-Y.; Park, S.-G.; Park, J.-H.; Shubina, M.; Langer, R.: Holmbom, J. See Wilson, T., 67 Kim, B.-S.: Regeneration of whole Biodegradable polymeric Hong, K. S. See Lee, J. H., 362 meniscus using meniscal cells and microspheres and nanospheres for Honoré, T. See Mabilleau, G., 35 polymer scaffolds in a rabbit total drug delivery in the peritoneum, 351 Houchin, T. L. See Jang, J.-H., 50 meniscectomy model, 659 Hsu, S. D. See Omata, Y., 470 Kang, Y. Koleganova, V. A. —,; Bernier, S. M.; Dixon, S. J.; Hu, Y. See Fan, H., 785 —; Yang, J.; Khan, S.; Anissian, L.; Rizkalla, A. S.: Bioactive glass/ Huang, Z.-M. Ameer, G. A.: A new polymer composite materials with —; He, C.-L.; Yang, A.; Zhang, Y.; biodegradable polyester elastomer mechanical properties matching Han: XJ; Yin; J; Wu; QO: for cartilage tissue engineering, those of cortical bone, 572 Encapsulating drugs in 331 Kong, L. See Ao, Q., 11; Zhang, L., biodegradable ultrafine fibers Kannan, S. See Rocha, J. H. G., 160 277 through co-axial electrospinning, Katti, D. See Verma, D., 59 Konno, T. See Ueda, H., 19 169 Katti, K. See Verma, D., 59 Korventausta, J. J. See Meretoja, Hubbell, J. A. See Reidy, M., 542 Kawamata, S. See Yanada, S., 773 V.V., 261 Kazakia, G. J. Ku, Y. See Seol, Y.-J., 599 —; Nauman, E. A.; Ebenstein, D. M.; Kumar, R. See Kishen, A., 406 Halloran, B. P.; Keaveny, T. M.: Kunze, J. See Tsuchiya, H., 534 Inoue, M. See Tsujigiwa, H., 507 Effects of in vitro bone formation Ishihara, K. See Ueda, H., 19 on the mechanical properties of a Itoh, S. trabeculated hydroxyapatite bone Lakshmi, S. See Greish, Y. E., 416 —; Susuki, C.; Tsuji, T.: Platelet substitute, 688 Langel, C. See Weinmiiller, C., 230 activation through interaction with Keaveny, T. M. See Kazakia, G. J., Langer, R. See Kohane, D. S., 351 hemodialysis membranes induces 688 LaPlaca, M. C. See Stabenfeldt, S. E., neutrophils to produce reactive Kellerth, J.-O. See Novikova, L. N., 718 oxygen species, 294 242 Laurencin, C. T. See Greish, Y. E., Iwata, H. See Moriyasu, K., 136 Kempen, D. H. R. 416; Sethuraman, S., 679 —; Lu, L.; Kim, C.; Zhu, X.; Dhert, Lee, C.-K. See Lee, J. H., 362 W. J. A.; Currier, B. L.; Yaszemski, Lee, E. H. See Ge, Z., 639 M. J.: Controlled drug release Lee, E.-S. See Kang, S.-W., 659 Jacobs, J. J. See Fritz, E. A., 192 from a novel injectable Lee, J. H. Jamison, R. D. See Dellinger, J. G., biodegradable —,; Lee, C.-K.; Chang, B.-S.; Ryu, 563 microsphere/scaffold composite H.-S.; Seo, J.-H.; Hong, K. S.; Kim, Jang, J.-H. based on poly(propylene H.: In vivo study of novel —,; Bengali, Z.; Houchin, T. L.; Shea, fumarate), 103 biodegradable and L. D.: Surface adsorption of DNA Kerjaschki, D. See Jell, G., 119 osteoconductive CaO-SiO,-B,O, to tissue engineering scaffolds for Kewei, X. See Dagang, G., 313 glass-ceramics, 362 efficient gene delivery, 50 Khan, S. See Kang, Y., 331 Lee, J.-S. See Kang, S.-W., 659 Jansen, J. A. See van den Beucken, Khorasani, M. T. Lee, J.-Y. See Seol, Y.-J., 599 Lee, K.-Y. See Kang, S.-W., 659 J. J. J. P., 202; Yonggang, Y., 815 —,; Shorgashti, S.: Fabrication of Jansen, K. microporous polyurethane by Lee, S.-C. See Seol, Y.-J., 599 Lee, Y. J. See Tsujigiwa, H., 507 —; Meek, M. F.; van der Werff, spray phase inversion method as Lee, Y.-M. See Seol, Y.-J., 599 J. F. A.; van Wachem, P. B.; van small diameter vascular grafts Legeay, G. See Mabilleau, G., 35 Luyn, M. J. A.: Long-term material, 253 LeGeros, R. Z. See Tsujigiwa, H., 507 regeneration of the rat sciatic Kibayashi, H. See Nakagawa, M., 112 Lemos, A. F. See Rocha, J. H. G., 160 nerve through a biodegradable Kim, B.-S. See Kang, S.-W., 659 Leon, B. See Peraire, C., 370 poly(DL-lactide-i-caprolactone) Kim, C. See Kempen, D. H. R., 103 Lernbass, I. See Wutzl, A., 75 nerve guide: Tissue reactions with Kim, H. See Lee, J. H., 362 Lewis, J. B. See Omata, Y., 470 focus on collagen III/IV Kim, K.-H. See Seol, Y.-J., 599 Li, W. See Brauer, D. S., 213 reformation, 436 Kim, T.-I. See Seol, Y.-J., 599 Li, X. See Fan, H., 785 Jell, G. Kirkpatrick, S. J. See Hinds, M. T., Li, Z.-X. See Wang, W., 28 —; Kerjaschki, D.; Revell, P.; Al- 458 Lim, C. T. See Tan, E. P. S., 526 Saffar, N.: Lymphangiogenesis in Kishen, A. Lisignoli, G. the bone-implant interface of —; George, S.; Kumar, R.: —; Cristino, S.; Piacentini, A.; Zini, orthopedic implants: importance Enterococcus faecalis-mediated N.; Noél, D.; Jorgensen, C.; and consequence, 119 biomineralized biofilm formation Facchini, A.: Chondrogenic Jiang, S. See Wang, H., 672 on root canal dentine in vitro, 406 differentiation of murine and Jorgensen, C. See Lisignoli, G., 497 Kitamura, M. See Saito, A., 700 human mesenchymal stromal cells AUTHOR INDEX in a hyaluronic acid scaffold: Giuliani, S.; Nico, B.; Perrino, G.; Nolte, R. J. M. See van den Beucken, Differences in gene expression and Nussdorfer, G. G.; Parnigotto, J. }. }. P. 202 cell morphology, 497 P. P.: In vitro and in vivo proposal Novikov, L. N. See Novikova, L. N., Liu, D. P. of an artificial esophagus, 795 242 —; Majewski, P.; O’Neill, B. K.; Masuda, S. See Saito, A., 700 Novikova, L. N. Ngothai, Y.; Colby, C. B.: The McVenes, R. See Ward, B., 380; —; Mosahebi, A.; Wiberg, M.; optimal SAM surface functional Ward, R., 580 Terenghi, G.; Kellerth, J.-O.; group for producing a biomaterial Meek, M. F. See Jansen, K., 436 Novikov, L. N.: Alginate hydrogel HA coating on Ti, 763 Meng, Y. Z. See Lu, X. L., 653 and matrigel as potential cell Liu; Y: Meretoja, V. V. carriers for neurotransplantation, —; Han, J.-X.; Xiao, S.-Q.; Wang, —; Helminen, A. O.; Korventausta, 242 S.-L.; Wang, M.: Study of J. J.; Haapa-aho, V.; Seppala, J. V.; Nurden, A. T. See Anitua, E., 285 recombinant human osteogenic Narhi, T. O.: Crosslinked poly(i- Nussdorfer, G. G. See Marzaro, M., protein-1 expressed in caprolactone/D,L-lactide) /bioactive 795 prokaryocyte on the repair of glass composite scaffolds for bone extracted socket in rabbits, 324 tissue engineering, 261 Lockwood, P. E. See Omata, Y., 470 Mesa, J. See Chung, C., 518 Ochi, M. See Yanada, S., 773 Lu, G. See Zhang, L., 277 Messer, R. L. W. See Omata, Y., 470 Ogata, S.-I. See Saito, A., 700 Lu, L. See Kempen, D. H. R., 103 Millan, I. See Garcia Paez, J. M., 839 Ogawa, T. See Nakamura, H., 478 La, xX L. Missana, L. See Rodriguez, A. P., 707 Ohshima, N. See Ehashi, T., 90 —; Du, F. G.; Ge, X. C.; Xiao, M.; Miyoshi, H. See Ehashi, T., 90 Ohtsuki, C. See Saito, A., 700 Meng, Y. Z.: Biodegradability and Monsees, T. K. See Bierbaum, S., 551 Omata, Y. thermal stability of poly(propylene Moriyasu, K. —; Lewis, J. B.; Rotenberg, S.; carbonate)/starch composites, 653 —; Yamazoe, H.; Iwata, H.: Induction Lockwood, P. E.; Messer, R. L. W.; Ew ¥. dopamine releasing cells from Noda, M.; Hsu, S. D.; Sano, H.; —; Mapili, G.; Suhali, G.; Chen, S.; mouse embryonic stem cells and Wataha, J. C.: Intra- and Roy, K.: A digital micro-mirror their long-term culture, 136 extracellular reactive oxygen device-based system for the Mosahebi, A. See Novikova, L. N., species generated by blue light, microfabrication of complex, 242 470 spatially patterned tissue O’Neill, B. K. See Liu, D. P., 763 engineering scaffolds, 396 Orive, G. See Anitua, E., 285 Luo, J. Munuera, L. See Saldana, L., 220; Oselladore, B. See Marzaro, M., 795 —; Chen, Z.; Sun, Y.: Controlling Saldana, i 608 Osorio, E. See Toledano, M., 128 biofilm formation with an N- Osorio, R. See Toledano, M., 128 halamine-based polymeric additive, 823 Nagai, N. See Rodriguez, A. P., 707; Lv, R. See Fan, H., 785 Tsujigiwa, H., 507 Padera, R. See Kohane, D. S., 351 Nagatsuka, H. See Rodriguez, A. P., Papanicolau, P. See Schwarz, F., 437 707; Tsujigiwa, H., 507 Parikka, V. See Wilson, T., 67 Ma, T. See Chiu, R., 850 Nair, L. S. See Sethuraman, S., 679 Park, J.-H. See Kang, S.-W., 659 Mabilleau, G. Nakagawa, M. Park, S.-G. See Kang, S.-W., 659 —; Stancu, I. C.; Honoré, T.; Legeay, —; Teraoka, F.; Fujimoto, S.; Park, Y.-J. See Seol, Y.-J., 599 G.; Cincu, C.; Baslé, M. F.; Hamada, Y.; Kibayashi, H.; Parnigotto, P. P. See Marzaro, M., 795 Chappard, D.: Effects of the length Takahashi, J.: Improvement of cell Penttinen, R. See Wilson, T., 67 of crosslink chain on poly(2- adhesion on poly(L-lactide) by Peraire, C. hydroxyethyl methacrylate) atmospheric plasma treatment, 112 —; Arias, J. L.; Bernal, D.; Pou, J.; (pHEMA) swelling and Nakamura, H. Leon, B.; Arané, A.; Roth, W.: biomechanical properties, 35 —; Shim, J.; Butz, F.; Aita, H.; Gupta, Biological stability and Macak, J. M. See Tsuchiya, H., 534 V.; Ogawa, T.: Glycosaminoglycan osteoconductivity in rabbit tibia of Maestro, M. See Garcia Paez, J. M., degradation reduces mineralized pulsed laser deposited 839 tissue—titanium interfacial hydroxylapatite coatings, 370 Majewski, P. See Liu, D. P., 763 strength, 478 Perrino, G. See Marzaro, M., 795 Mapili, G. See Lu, Y., 396 Narhi, T. O. See Meretoja, V. V., 261 Peterlik, M. See Wutzl, A., 75 Marrs, B. Nastasescu, O. See Verestiuc, L., 726 Piacentini, A. See Lisignoli, G., 497 —; Andrews, R.; Rantell, T.; Nauman, E. A. See Kazakia, G. J., 688 Pienkowski, D. See Marrs, B., 269 Pienkowski, D.: Augmentation of Ngothai, Y. See Liu, D. P., 763 Pietschmann, P. See Wutzl, A., 75 acrylic bone cement with Nguyen, M.-T. N. See Sethuraman, Pou, J. See Peraire, C., 370 multiwall carbon nanotubes, 269 S., 679 Pound, B. G. Martin, A. Y. See Soriano, I., 632 Nico, B. See Marzaro, M., 795 —; Susceptibility of nitinol to Marzaro, M. Nobuto, H. See Yanada, S., 773 localized corrosion, 185 —; Vigolo, S.; Oselladore, B.; Noda, M. See Omata, Y., 470 Prausnitz, J. M. See Weinmiiller, C., Conconi, M. T.; Ribatti, D.; Noél, D. See Lisignoli, G., 497 230 AUTHOR INDEX Qin, L. See Fan, H., 785 Sahlin, H. Sethuraman, S. —; Contreras, R.; Gaskill, D. F.; —; Nair, L. S.; El-Amin, S.; Farrar, R.; Bjursten, L. M.; Frangos, J. A.: Nguyen, M.-T. N.; Singh, A.; Anti-inflammatory properties of Allcock, H. R.; Greish, Y. E.; Radke, C. J. See Weinmiiller, C., 230 micropatterned titanium coatings, Brown, P. W.; Laurencin, C. T.: In Raffaini, G. 43 vivo biodegradability and —; Elli, $.; Ganazzoli, F.: Computer Saito, A. See Ueda, H., 19 biocompatibility evaluation of simulation of bulk mechanical —; Suzuki, Y.; Kitamura, M.; Ogata, novel alanine ester based properties and surface hydration S.-I.; Yoshihara, Y.; Masuda, S.; polypohosphazenes in a rat of biomaterials, 618 Ohtsuki, C.; Tanihara, M.: Repair model, 679 Ramachandran, R. of 20-mm long rabbit radial bone Shau, M.-D. —; Goodman, S. B.; Smith, R. L.: The defects using BMP-derived —; Tseng, S.-J.; Yang, T.-F.; Cheng, effects of titanium and peptide combined with an a- J.-Y.; Chin, W.-K.: Effect of polymethylmethacrylate particles tricalcium phosphate scaffold, 700 molecular weight on the on osteoblast phenotypic stability, Saldana, L. transfection efficiency of novel polyurethane as a biodegradable 52 —; Barranco, V.; Garcia-Alonso, Ramakrishna, S. See Ge, Z., 639 M. C.; Vallés, G.; Escudero, M. L.; gene vector, 736 Shea, L. D. See Jang, J.-H., 50 Ramshaw, J. A. M. See Thissen, H., Munuera, L.; Vilaboa, N.: 590 Concentration-dependent effects of Sherman, C. See Cartwright, L., 390 Shim, J. See Nakamura, H., 478 Randolph, M. A. See Chung, C., 518 titanium and aluminium ions Rantell, T. See Marrs, B., 269 released from thermally oxidized Shorgashti, S. See Khorasani, M. T., 253 Ratner, B. D. See Wang, H., 672 Ti6A14V alloy on human Shou, Z. See Cartwright, L. M., 180 Raucci, M. G. See Catauro, M., 340 osteoblasts, 220 Shubina, M. See Kohane, D. S., 351 Rauner, M. See Wutzl, A., 75 —; Gonzalez-Carrasco, J. L.; Shur, I. Reidy, M. Rodriguez, M.; Munuera, L.; —; Zilberman, M.; Einav, S.; —; Zihlmann, P.; Hubbell, J. A.; Hall, Vilaboa, N.: Osteoblast response to Benayahu, D.: Molecular and H.: Activation of cell-survival plasma-spray porous Ti6A14V cellular characterization of transcription factor NF«B in coating on substrates of identical mesenchymal progenitors for L1lg6-stimulated endothelial cells, alloy, 608 skeletal biomedical devices, 832 542 Sanchez, E. See Soriano, I., 632 Simon, C. G., Jr. See Weir, M. D., 487 Ren, Z. See Hinds, M. T., 458 Sanchez, M. See Anitua, E., 285 Singh, A. See Sethuraman, S., 679 Revell, P. See Jell, G., 119 Sanmartin, A. C. See Garcia Paez, Smith, R. L. See Chiu, R., 850; Rhyu, I.-C. See Seol, Y.-J., 599 J. M., 839 Ramachandran, R., 512 Ribatti, D. See Marzaro, M., 795 Sano, H. See Omata, Y., 470 Sommerdijk, N. A. J. M. See van den Richards, R. G. See Harris, L. G., 304 Saraydin, S. U. See Develioglu, H., Beucken, J. J. J. P., 202 Rivera, R. See Rodriguez, A. P., 707 627 Son, S.-M. See Kang, S.-W., 659 Rizkalla, A. S. See Koleganova, V. A., Sarvaiya, I. See Verestiuc, L., 726 Soriano, I. Jyf d Sawada, R. See Banu, N., 84 —; Martin, A. Y.; Evora, C.; Sanchez, Rocha, A. See Garcia Paez, J. M., 839 Scharnweber, D. See Bierbaum, S., E.: Biodegradable implantable Rocha, J. H. G. 551 fluconazole delivery rods designed —; Lemos, A. F.; Agathopoulos, S.; Schmuki, P. See Tsuchiya, H., 534 for the treatment of fungal Kannan, S.; Valério, P.; Ferreira, Schopper, C. See Wutzl, A., 75 osteomyelitis: Influence of gamma J. M. F.: Hydrothermal growth of Schwarz, F. sterilization, 632 hydroxyapatite scaffolds from —; Papanicolau, P.; Rothamel, D.; Stabenfeldt, S. E. aragonitic cuttlefish bones, 160 Beck, B.; Herten, M.; Becker, J.: —; Garcia, A. J.; LaPlaca, M. C.: Rodriguez, A. P. Influence of plaque biofilm Thermoreversible laminin- —; Missana, L.; Nagatsuka, H.; removal on reestablishment of the functionalized hydrogel for neural Gunduz, M.; Tsujigiwa, H.; Rivera, biocompatibility of contaminated tissue engineering, 718 R.; Nagai, N.: Efficacy of titanium surfaces, 437 Stancu, I. C. See Mabilleau, G., 35 atelocollagen honeycomb scaffold Sees, T. M. See Habibovic, P., 747 Steinberg, D. See Bachrach, G., 811 in bone formation using KUSA/ Seo, J.-H. See Lee, J. H., 362 Stokes, K. See Ward, B., 380; Ward, Al cells, 707 Seol, Y.-J. R., 580 Rodriguez, M. See Saldana, L., 608 —; Park, Y.-J.; Lee, S.-C.; Kim, K.-H.; Suhali, G. See Lu, Y., 396 Roebuck, K. A. See Fritz, E. A., 192 Lee, J.-Y.; Kim, T.-I.; Lee, Y.-M.; Sun, Y. See Luo, J., 823 Rotenberg, S. See Omata, Y., 470 Ku, Y.; Rhyu, I.-C.; Han, S.-B.; Susuki, C. See Itoh, S., 294 Roth, W. See Peraire, C., 370 Chung, C.-P.: Enhanced osteogenic Suzuki, Y. See Saito, A., 700 Rothamel, D. See Schwarz, F., 437 promotion around dental implants Rowe, R. C. See Hinds, M. T., 458 with synthetic binding motif Roy, K. See Lu, Y., 396 mimicking bone morphogenetic Riissel, C. See Brauer, D. S., 213 protein (BMP)-2, 599 Takahashi, J. See Nakagawa, M., 112 Ryu, H.-S. See Lee, J. H., 362 Seppaila, J. V. See Meretoja, V. V., 261 Takai, M. See Ueda, H., 19 AUTHOR INDEX ‘Fan; E. P:'S. phospholipid polymer membrane Wang, M. See Liu, Y., 324 —; Lim, C. T.: Characterization of for bioartificial kidney, 19 Wang, S.-L. See Liu, Y., 324 bulk properties of nanofibrous Wang, W. scaffolds from nanomechanical —; Wang, H.-B.; Li, Z.-X.; Guo, Z.-Y.: properties of single nanofibers, Silicon inhibition effects on the 526 Valério, P. See Rocha, J. H. G., 160 polymerase chain reaction: A real- Tanihara, M. See Saito, A., 700 Vallés, G. See Saldana, L., 220 time detection approach, 28 Teach, J. See Hinds, M. T., 458 van Blitterswijk, C. A. See Ward, B. Tebb, T. A. See Thissen, H., 590 Habibovic, P., 747 —; Anderson, J.; Ebert, M.; McVenes, Téllez, G. See Garcia Paez, J. M., 839 van den Beucken, J. J. J. P. R.; Stokes, K.: In vivo biostability Teraoka, F. See Nakagawa, M., 112 —; Walboomers, X. F.; Vos, M. R. J.; of polysiloxane polyether Terenghi, G. See Novikova, L. N., Sommerdijk, N. A. J. M.; Nolte, polyurethanes: Resistance to metal 242 R. J. M.; Jansen, J. A.: Cyto- and ion oxidation, 380 histocompatibility of multilayered Thissen, H. Ward, R. DNA-coatings on titanium, 202 —; Chang, K.-Y.; Tebb, T. A.; Tsai, —; Anderson, J.; McVenes, R.; Stokes, van den Doel, M. A. See Habibovic, W.-B.; Glattauer, V.; Ramshaw, K.: In vivo biostability of P., 747 J. A. M.; Werkmeister, J. A.: polysiloxane polyether van der Meulen, M. C. H. See Synthetic biodegradable polyurethanes: Resistance to Donnelly, E., 426 microparticles for articular biologic oxidation and stress van der Werff, J. F. A. See Jansen, K., cartilage tissue engineering, 590 cracking, 580 436 Tippelt, S. See Bierbaum, S., 551 Wataha, J. C. See Omata, Y., 470 van Luyn, M. J. A. See Jansen, K., 436 Toledano, M. Watanabe, J. See Ueda, H., 19 van Wachem, P. B. See Jansen, K., —; Osorio, R.; Albaladejo, A.; 436 Watzinger, F. See Wutzl, A., 75 Aguilera, F. S.; Osorio, E.: Verestiuc, L. Weinmiiller, C. Differential effect of in vitro —,; Nastasescu, O.; Barbu, E.; —; Langel, C.; Fornasiero, F.; Radke, degradation on resin—dentin Sarvaiya, I.; Green, K. L.; C. J.; Prausnitz, J. M.: Sorption bonds produced by self-etch versus Tsibouklis, J.: Functionalized kinetics and equilibrium uptake total-etch adhesives, 128 chitosan/ NIPAM (HEMA) hybrid for water vapor in soft-contact- Tsai, W.-B. See Thissen, H., 590 polymer networks as inserts for lens hydrogels, 230 Tse, J. Y. See Kohane, D. S., 351 ocular drug delivery: Synthesis, in Weir, M. D. Tseng, S.-J. See Shau, M.-D., 736 vitro assessment, and in vivo —; Xu, H. H. K.; Simon, C. G., Jr.: Tsibouklis, J. See Verestiuc, L., 726 evaluation, 726 Strong calcium phosphate cement- Tsuchiya, H. Verma, D. chitosan-mesh construct —; Macak, J. M.; Miiller, L.; Kunze, —; Katti, K.; Katti, D.: Experimental containing cell-encapsulating J.; Miiller, F.; Greil, P.; Virtanen, investigation of interfaces in hydrogel beads for bone tissue S.; Schmuki, P.: Hydroxyapatite hydroxyapatite/ polyacrylic acid/ engineering, 487 growth on anodic TiO, nanotubes, polycaprolactone composites using Werkmeister, J. A. See Thissen, H., photoacoustic FTIR spectroscopy, 534 590 59 Tsuchiya, T. See Banu, N., 84 Wiberg, M. See Novikova, L. N., Tsuji, T. See Itoh, S., 294 Vermes, C. See Fritz, E. A., 192 242 Vigolo, S. See Marzaro, M., 795 Tsujigiwa, H. See Rodriguez, A. P., Wilson, T. Vilaboa, N. See Saldana, L., 220; 707 —; Parikka, V.; Holmbom, J.; Ylanen, Saldana, L., 608 —; Nagatsuka, H.; Lee, Y. J.; Han, H.; Penttinen, R.: Intact surface of Virtanen, S. See Tsuchiya, H., 534 P. P.; Gunduz, M.; LeGeros, R. Z.; bioactive glass S53P4 is resistant Vos, M. R. J. See van den Beucken, Inoue, M.; Yamada, M.; Nagai, N.: to osteoclastic activity, 67 Lik. Py 2 Immobilized Wojtowicz, A. M. See Dellinger, J. G., rhBMP-2/succinylated type | 563 atelocollagen gene expression of Wolke, J. G. C. See Yonggang, Y., 815 intracellular signaling molecules Worch, H. See Bierbaum, S., 551 Walboomers, X. F. See van den on ST2 cells, 507 Wu, C. See Zhou, M., 1 Beucken, J. J. J. P., 202 Turner, A. S. See Gogolewski, S., Wang, A. See Ao, Q., 11; Zhang, L., Wu, H. See Fan, H., 785 802 277 Wu, P.-C. See Hinds, M. T., 458 Wu, Q. See Huang, Z.-M., 169 Wang, H. Wutzl, A. —; He, Y.; Ratner, B. D.; Jiang, S.: Modulating cell adhesion and —; Brozek, W.; Lernbass, I.; Rauner, Ueda, H. spreading by control of Fnlll>_,, M.; Hofbauer, G.; Schopper, C.; —,; Watanabe, J.; Konno, T.; Takai, orientation on charged self- Watzinger, F.; Peterlik, M.; M.; Saito, A.; Ishihara, K.: assembled monolayers (SAMs) of Pietschmann, P.: Bone Asymmetrically functional surface alkanethiolates, 672 morphogenetic proteins 5 and 6 properties on biocompatible Wang, H.-B. See Wang, W., 28 stimulate osteoclast generation, 75 AUTHOR INDEX Xiao, M. See Lu, X. L., 653 Yang, D.-Z. See Yan, X.-J., 97 Zalduendo, M. See Anitua, E., 285 Xiao, S.-Q. See Liu, Y., 324 Yang, F. See Ge, Z., 639 Zhang, L. See Ao, Q., 11 Xu, H. H. K. See Weir, M. D., 487 Yang, J. See Kang, Y., 331 —; Ao, Q.; Wang, A.; Lu, G.; Kong, Yang, T.-F. See Shau, M.-D., 736 L.; Gong, Y.; Zhao, N.; Zhang, X.: Yaremchuk, M. See Chung, C., 518 A sandwich tubular scaffold Yaszemski, M. J. See Kempen, derived from chitosan for blood Yamada, M. See Tsujigiwa, H., 507 D. H. R., 103 vessel tissue engineering, 277 Yamazoe, H. See Moriyasu, K., 136 Yeger, H. See Cartwright, L., 390; Zhang, X. See Ao, Q., 11; Zhang, L., 277 Yan, X.-J. Cartwright, L. M., 180 Zhang, Y. See Huang, Z.-M., 169 Zhao, N. See Zhang, L., 277 —; Yang, D.-Z.: Corrosion resistance Yeo, Y. See Kohane, D. S., 351 of a laser spot-welded joint of Yin, J. See Huang, Z.-M., 169 Zheng, W. See Arola, D., 148 Zhou, M. NiTi wire in simulated human Ylanen, H. See Wilson, T., 67 —; Wu, C.; Edirisinghe, P. D.; body fluids, 97 Yong, H. See Dagang, G., 313 Drummond, J. L.; Hanley, L.: Yanada, S. Yonggang, Y. Organic overlayer model of a —; Ochi, M.; Adachi, N.; Nobuto, H.; —; Wolke, J. G. C.; Yubao, L.; Jansen, dental composite analyzed by Agung, M.; Kawamata, S.: Effects J. A.: Subcutaneous evaluation of laser desorption postionization of CD44 antibody—or RGDS RF magnetron-sputtered calcium mass spectrometry and peptide-immobilized magnetic pyrophosphate and photoemission, 1 beads on cell proliferation and hydroxylapatite-coated Ti Zhu, X. See Kempen, D. H. R., 103 chondrogenesis of mesenchymal implants, 815 Zihlmann, P. See Reidy, M., 542 stem cells, 773 Yoshihara, Y. See Saito, A., 700 Zilberman, M. See Shur, I., 832 Yang, A. See Huang, Z.-M., 169 Yubao, L. See Yonggang, Y., 815 Zini, N. See Lisignoli, G., 497 Journal of Biomedical Materials Research Subject index—Volume 77A Absorption/desorption hysteresis, 230 BMP-2, 599, 700 Composite, 416 Acellular matrix, 180, 390, 795 BMP-5, 75 Composite biomaterials, 59 Acid phosphatase, 67 BMP-6, 75 Composite scaffold, 103 Additive, 823 Bonding, 128 Computer simulations, 618 Adhesion, 351, 478, 832 Bone, 563 Copolymer, 261 Alginate hydrogel, 487 Bone cement, 269 Corrosion, 97, 220 Alkaline phosphatase, 67 Bone engineering, 445 Cortisol, 90 Amorphous silicon oxide, 1 Bone formation, 707 Critical-sized defect, 700 Angiogenesis, 119, 285, 390 Bone-implant integration, 478 Cross-link chain length, 35 Annealing, 534 Bone marrow cells, 850 Cuttlefish bone, 160 Antimicrobial, 823 Bone marrow stromal cells, 688 Cyclic potentiodynamic polarization, Apatite, 406 Bone mineral density, 700 185 Apoptosis, 542 Bone regeneration, 119, 627 Cytocompatibility, 19, 202 Aragonite, 160 Bone substitutes, 802 Cytotoxicity, 313, 487, 736 Arthroplasty, 269 Bone tissue engineering, 103, 261, 487, Articular cartilage, 590 688 Decorin, 551 Artificial kidney, 19 Degradable phosphate glasses, 213 Aseptic loosening, 512 Degradation, 128, 169, 261, 563 Calcification, 406 Atelocollagen, 707 Calcium phosphate cement, 313, 487 Dental and orthopedic implants, 599 Atmospheric plasma treatment, 112 Cancellous bone, 426 Dental composite, 1 Atomic force microscopy, 526 Cancer, 470 Dental prostheses, 269 Autoxidation, 580 CaO-SiO,-B,O, glass-ceramics, 362 Dentin, 128, 148 Carbonated apatite ceramic, 747 Dentine, 406 Bacteria, 406 Carbon dioxide, 653 DFDA, 470 Bioactive glass, 67, 261, 572 Carbon nanotubes, 269 Digital micro-mirror device, 396 Bioactivity, 340 Cardiac bioprostheses, 839 DNA-coating, 202 Dopaminergic neuron, 136 Bioartificial liver, 90 Cartilage, 331, 518 Bioceramic scaffold, 160 Cell adhesion, 112, 294 Double-layered nanofibers, 169 Drug delivery, 103 Biocompatibility, 351, 608, 679, 763 Cell adhesion and spreading, 672 Biodegradable, 1, 304, 362, 590, 653, Cell culture, 242, 437, 470 Drug encapsulation, 169 736 Cell encapsulation, 487 Drug release, 169 Biodegradable microspheres, 103 Cell-material interactions, 572 Durability, 839 Biodegradable polymer, 331, 659 Cell morphology, 497 Dynamic contrast-enhanced MRI, 390 Biodegradable polymer rods, 632 Cell proliferation, 242, 497, 773 Dynamic Young’s modulus, 572 Biodegradable polyurethanes, 802 Cell survival, 542 Biofilm, 406, 437, 823 Ceramic, 815 Elastic modulus, 526 Biologically active molecules, 802 Chemokine, 192 Elastin, 458 Biomaterials, 672, 747 Chick embryo chorioallantoic Elastomer, 331 Biomaterials availability, 639 membrane, 795 Electrochemical anodization, 534 Biomechanics, 35 Chitosan, 11, 277 Electrostatic self-assembly, 202 Biomimetic material, 763 Chondrogenesis, 84, 497 Embryonic stem cell, 136 Biopolymers, 832 Chondrogenic differentiation, 773 Endothelial cells, 542 Bioprosthesis, 242 Chondrogenic markers, 497 Energy consumption, 839 Bioresorbable implant materials, 213 Chondroitin sulfate, 551 Environmental stress cracking, 580 Biostability, 380, 580 Citric acid, 331 Esophagus, 795 Biphasic calcium phosphate ceramic, Clustering, 230 Extracted socket, 324 747 Coating, 445, 815 Biphasic ceramic, 627 Co-axial electrospinning, 169 Fatigue, 148, 269, 839 Bladder, 180, 390 Collagen, 507 Fibrin matrices, 285 Blood vessel tissue engineering, 277 Collagen type I, 551 Fibroblasts, 304 Journal of Biomedical Materials Research Vol. 77A, 865-867 (2006) SUBJECT INDEX; Fibronectin, 242 Laminin, 718 Osteoinduction, 747 Fluconazole, 632 Laser spallation, 478 Osteolysis, 192 FnIII_,5, 672 Laser spot-welded joint, 97 Osteomyelitis, 632 Foams, 445 Layer-by-layer, 396 Osteoprogenitor cells, 850 Fracture, 148 Ligament, 639 Free-floating culture, 136 Localized corrosion, 185 Peritoneum, 351 Free radicals, 43 Long-term culture, 136 Phase inversion, 253 FTIR, 50 Low temperature, 416 Phase separation, 11 Functionalized chitosan, 726 Lymphatic vessels, 119 Phospholipid polymer, 19 Photopolymerization, 470, 518 Gene delivery, 736, 811 Macrophages, 43 Physiological saline solution (0.9% Gene expression, 832 Macroporous, 487 NaCl), 313 Gene therapy, 50 Magentic force, 773 Plasma spraying, 608 Glassy polymers, 618 Magnetic beads, 773 Plasmid, 50 Growth factors, 285 MC3T3-E1 cell, 112 Platelet, 285, 294 Mechanical performance, 169 Polycapralactone, 59 Mechanical properties, 277, 426, 618, Polycarbonate, 653 Halamine, 823 688 Poly(D,L-lactic acid), 445 Hardness, 35 Mechanical tests, 526 Polyelectrolyte, 202 Hard tissue replacement, 213 Mechanism, 747 Polyethyleneimine, 50 Hemocompatibility, 19 Meniscus, 659 Poly (glycolic acid), 84 Hemodialysis, 294 Mesenchymal cells, 832 Poly(2-hydroxyethyl methacrylate), 35 Histocompatibility, 202 Mesenchymal stem cell, 773, 785 Poly(L-lactide) (PLLA), 112 Honeycomb scaffold, 707 Mesh reinforcement, 487 Polymer, 639, 679 Human articular cartilage, 84 Metal-ion release, 220 Polymer nanofiber, 526 HUVECs, 542 Methacrylic acid copolymer, 811 Polymethylmethacrylate, 512, 850 Hyaluronic acid, 180, 518 Microencapsulation, 136 Polyphosphazene, 416, 679 Hydration, 148 Microfabrication, 396 Poly(propylene fumarate), 103 Hydrogel, 518, 718 Micromass culture, 84 Polysiloxane polyether polyurethane, Hydrophilicity, 304, 802 Microparticles, 351, 590 580 Hydrophobicity, 304 Micropatterning, 43 Polysulfone, 19 Hydrothermal transformation, 160 Microsphere, 785 Polyurethane, 253, 304, 380, 736 Hydroxyapatite, 59, 160, 362, 416, 563 Minitablets, 726 Porcine fetal liver cells, 90 Hydroxyapatite coating, 763 MIO, 380 Porosity, 180, 253, 261 Hydroxyapatite formation, 534 Mitochondrial activity, 437 Porous scaffolds, 213, 802 Hydroxyapatite scaffolds, 688 Mold, 11 Potentiodynamic test, 97 2-Hydroxyethyl methacrylate, 726 Molecular dynamics, 618 Prokaryocyte expression, 324 Hydroxylapatite, 370, 815 Protein immobilization, 718 Hypochlorite, 128 Protein orientation, 672 Nanofibrous scaffolds or foams, 526 Proteoglycan, 478 Nanoindentation, 426 Ilium defects, 802 Nanoparticles, 28, 351 Pulsed laser deposition, 370 Immersion process, 313 Pyrophosphate, 815 Nanotubes, 534 Immobilization, 507 Nerve conduits, 11 Immunohistochemical staining, 707 Neural tissue engineering, 242, 718 RANKL, 75 Implant, 815 Neutrophil, 43, 294 Rat, 627 Inflammation, 119 NFxB, 542 Reactive oxygen species, 294 Inhibition effects, 28 N-isopropylacrylamide, 726 Real-time PCR, 28 Injectable material, 103 NiTi, 97 Recombinant human osteogenic Inorganic tin catalyst, 84 Nitinol, 185 protein-1 (rhOP-1), 324 Interface, 1 Non-viral vector, 50 Repair, 324 Intrabone marrow delivery systems, Resin, 128 632 Restoration failure, 148 Intracellular signaling molecule, 507 Ophthalmic drug delivery, 726 rhBMP-2, 507 In vitro biocompatibility, 213 Organic/inorganic hybrid, 340 Rutile, 220 In-vivo test, 370 Orthopedic implant, 763 Osseointegration, 478, 599 Osteoblast, 67, 75, 192, 220, 512, 551, Sample preparation, 426 Joint replacement, 119 572, 608 45S5 Bioglass”’, 445 Osteoblastic differentiation, 850 Scaffold, 445, 458, 563, 639, 659, 785 Kinetics, 416 Osteoclast, 67, 75 Self-assembled monolayer, 672, 763 Knitting, 277 Osteoconduction, 362, 370 Silane, 572 KUSA/A\1 cells, 707 Osteogenic markers, 497 Silicon, 28

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