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Journal of Biomedical Materials Research 2002: Vol 59 Index PDF

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Journal of Biomedical Materials Research Author Index—Volume 59 Abe, Y. See Ziani-Cherif, H., 386 Worch, H.; Wenzel, K.-W.: composites of human osteoblasts: Ajayan, P. M. See Supronowicz, P. R., Proliferation and differentiation of A preliminary screening, 611 499 rat calvarial osteoblasts on type | Cametti, C. See Basoli, A., 100 Akaike, T. See Park, K.-H., 591 collagen-coated titanium alloy, 516 Carnes, D. L. See Ong, J. L., 184 Akisue, T. Bessho, K. See Ong, J. L., 184 Carney, D. E. See Sigurdson, L., 357r y —; Bauer, T. W.; Farver, C. F.; Bezemer, J. See Du, C., 535 Carson, R. J. See Salacinski, H. J., 207 Mochida, Y.: The effect of particle Biehl, V. See Velten, D., 18 Castro, M. R. See Caudillo, M., 378 wear debris on NF«B activation Bierbaum, S. See Becker, D., 516 Caudillo, M. and pro-inflammatory cytokine Bigi, A. —; Herrera—Trejo, M.; Castro, M. R.; release in differentiated THP-1 —; Boanini, E.; Panzavolta, S.; Roveri, Ramirez, E.; Gonzalez, C. R.; cells, 507 N.; Rubini, K.: Bonelike apatite Juarez, J. 1: On carbide dissolution Akkus, O.: growth on hydroxyapatite-gelatin in an as-cast ASTM F-75 alloy, 378 —; Comments on acoustic emission sponges from simulated body Cavin, R. See Ong, J. L., 184 visualization of bone cement fluid, 709 Chang, K.-Y. See Liao, C.-J., 676 fatigue locations, 398 Birr, E. See Kapanen, A., 78 Chang, S. J. Amabili, M. See Nuno, N., 191 Bizios, R. See Ergun, C., 305 —,; Lee, C. H.; Hsu, C. Y.; Wang, Y. J.: Amadio, P. C. See Momose, T., 219 Bizios, R. See Supronowicz, P. R., 499 Biocompatible microcapsules with An, K.-N. See Momose, T., 219 Bizios, R. See Webster, T. J., 312 enhanced mechanical strength, 118 Anderson, J. M. See Collier, T. O.,136 Blom, E. J. Chang, Y.-C. See Huang, F.-M., 460 Anseth, K. S. See Bryant, S. J., 63 —; Klein-Nulend, J.; Wolke, J. G. C.; Chang, Y.-C. See Tai, K.-W., 73 Anthony, D. C. See Kohane, D. S., 450 van Waas, M. A. J.; Driessens, Charlebois, S. J. Antonucci, J. M. See Skrtic, D., 597 F.C. M.; Burger, E. H.: —; Daniels, A. U.; Smith, R. A.: Arciola, C. R. Transforming growth factor-61 Metabolic heat production as a —; Baldassarri, L.; Montanaro, L.: In incorporation in a calcium measure of macrophage response catheter infections by phosphate bone cement: Material to particles from orthopedic Staphylococcus epidermidis the properties and release implant materials, 166 intercellular adhesion (ica) locus is characteristics, 265 Chen, C.-F. See Liao, C.-J., 676 a molecular marker of the virulent Boanini, E. See Bigi, A., 709 Chen, J.-H. See Liao, C.-]., 676 slime-producing strains, 557 Bohling, T. See Vuola, J., 152 Chen, L.-T. See Sun, J.-S., 246 Arulanandam, B. P. See Supronowicz, Bonfield, W. See Gibson, I. R Chen, Y. See Feng, B., 12 P.R., 499 Bordi, F. See Basoli, A., 100 Chiang, S.-F. See Liao, C.-J., 676 Arvidson, K. See Mustafa, K., 655 Breitig, D. See Ziegler, J., 422 Chou, M.-Y. See Huang, F.-M., 460 Askew, M. J. See Mostardi, R. A., 605 Breme, J. See Velten, D., 18 Christian, P. See Gough, J. E., 481 Athanasiou, K. A. See Temenoff, J. S., Bright, F. V. See Sigurdson, L., 357 Chu, C.-C. See Zhang, Y., 318 429 Brunworth, R. T. See Skrtic, D., 597 Cohn, D. Aubertin, F. See Velten, D., 18 Bryant, S. J. —; Stern, T.; Fernanda Gonzalez, M.; —,; Anseth, K. S.: Hydrogel properties Epstein, J.: Biodegradable Baldassarri, L. See Arcioia, C. R., 557 influence ECM production by poly(ethylene oxide)/ Basoli, A. chondrocytes photoencapsulated in poly(e-caprolactone) multiblock —; Bordi, F.; Cametti, C.; Gili, T.: poly(ethylene glycol) hydrogels, 63 copolymers, 273 Structural alteration of erythrocyte Burger, E. H. See Blom, E. J., 265 Collier, T. O. cell membrane in presence of —; Anderson, J. M.; Kikuchi, A.; artificial prostheses: a radiowave Okano, T.: Adhesion behavior of dielectric spectroscopy study, 100 Calandrelli, L. monocytes, macrophages and Bauer, T. W. See Akisue, T., 507 —; Immirzi, B.; Malinconico, M.; foreign body giant cells on poly (N- Baumann, M. See Winblade, N. D., 618 Orsello, G.; Volpe, M. G.; Della isopropylacrylamide) temperature- Becker, D. Ragione, F.; Zappia, V.; Oliva, A.: responsive surfaces, 136 —; Geifler, U.; Hempel, U.; Biocompatibility studies on Cooper, E. See Scotchford, C. A., 84 Bierbaum, S.; Scharnweber, D.; biodegradable polyester-based Cui, F. Z. See Du, C., 535 Journal of Biomedical Materials Research, Vol. 59, 726-730 (2002) Journal of Biomedical Materials Research Author Index—Volume 59 Abe, Y. See Ziani-Cherif, H., 386 Worch, H.; Wenzel, K.-W.: composites of human osteoblasts: Ajayan, P. M. See Supronowicz, P. R., Proliferation and differentiation of A preliminary screening, 611 499 rat calvarial osteoblasts on type | Cametti, C. See Basoli, A., 100 Akaike, T. See Park, K.-H., 591 collagen-coated titanium alloy, 516 Carnes, D. L. See Ong, J. L., 184 Akisue, T. Bessho, K. See Ong, J. L., 184 Carney, D. E. See Sigurdson, L., 357r y —; Bauer, T. W.; Farver, C. F.; Bezemer, J. See Du, C., 535 Carson, R. J. See Salacinski, H. J., 207 Mochida, Y.: The effect of particle Biehl, V. See Velten, D., 18 Castro, M. R. See Caudillo, M., 378 wear debris on NF«B activation Bierbaum, S. See Becker, D., 516 Caudillo, M. and pro-inflammatory cytokine Bigi, A. —; Herrera—Trejo, M.; Castro, M. R.; release in differentiated THP-1 —; Boanini, E.; Panzavolta, S.; Roveri, Ramirez, E.; Gonzalez, C. R.; cells, 507 N.; Rubini, K.: Bonelike apatite Juarez, J. 1: On carbide dissolution Akkus, O.: growth on hydroxyapatite-gelatin in an as-cast ASTM F-75 alloy, 378 —; Comments on acoustic emission sponges from simulated body Cavin, R. See Ong, J. L., 184 visualization of bone cement fluid, 709 Chang, K.-Y. See Liao, C.-J., 676 fatigue locations, 398 Birr, E. See Kapanen, A., 78 Chang, S. J. Amabili, M. See Nuno, N., 191 Bizios, R. See Ergun, C., 305 —,; Lee, C. H.; Hsu, C. Y.; Wang, Y. J.: Amadio, P. C. See Momose, T., 219 Bizios, R. See Supronowicz, P. R., 499 Biocompatible microcapsules with An, K.-N. See Momose, T., 219 Bizios, R. See Webster, T. J., 312 enhanced mechanical strength, 118 Anderson, J. M. See Collier, T. O.,136 Blom, E. J. Chang, Y.-C. See Huang, F.-M., 460 Anseth, K. S. See Bryant, S. J., 63 —; Klein-Nulend, J.; Wolke, J. G. C.; Chang, Y.-C. See Tai, K.-W., 73 Anthony, D. C. See Kohane, D. S., 450 van Waas, M. A. J.; Driessens, Charlebois, S. J. Antonucci, J. M. See Skrtic, D., 597 F.C. M.; Burger, E. H.: —; Daniels, A. U.; Smith, R. A.: Arciola, C. R. Transforming growth factor-61 Metabolic heat production as a —; Baldassarri, L.; Montanaro, L.: In incorporation in a calcium measure of macrophage response catheter infections by phosphate bone cement: Material to particles from orthopedic Staphylococcus epidermidis the properties and release implant materials, 166 intercellular adhesion (ica) locus is characteristics, 265 Chen, C.-F. See Liao, C.-J., 676 a molecular marker of the virulent Boanini, E. See Bigi, A., 709 Chen, J.-H. See Liao, C.-]., 676 slime-producing strains, 557 Bohling, T. See Vuola, J., 152 Chen, L.-T. See Sun, J.-S., 246 Arulanandam, B. P. See Supronowicz, Bonfield, W. See Gibson, I. R Chen, Y. See Feng, B., 12 P.R., 499 Bordi, F. See Basoli, A., 100 Chiang, S.-F. See Liao, C.-J., 676 Arvidson, K. See Mustafa, K., 655 Breitig, D. See Ziegler, J., 422 Chou, M.-Y. See Huang, F.-M., 460 Askew, M. J. See Mostardi, R. A., 605 Breme, J. See Velten, D., 18 Christian, P. See Gough, J. E., 481 Athanasiou, K. A. See Temenoff, J. S., Bright, F. V. See Sigurdson, L., 357 Chu, C.-C. See Zhang, Y., 318 429 Brunworth, R. T. See Skrtic, D., 597 Cohn, D. Aubertin, F. See Velten, D., 18 Bryant, S. J. —; Stern, T.; Fernanda Gonzalez, M.; —,; Anseth, K. S.: Hydrogel properties Epstein, J.: Biodegradable Baldassarri, L. See Arcioia, C. R., 557 influence ECM production by poly(ethylene oxide)/ Basoli, A. chondrocytes photoencapsulated in poly(e-caprolactone) multiblock —; Bordi, F.; Cametti, C.; Gili, T.: poly(ethylene glycol) hydrogels, 63 copolymers, 273 Structural alteration of erythrocyte Burger, E. H. See Blom, E. J., 265 Collier, T. O. cell membrane in presence of —; Anderson, J. M.; Kikuchi, A.; artificial prostheses: a radiowave Okano, T.: Adhesion behavior of dielectric spectroscopy study, 100 Calandrelli, L. monocytes, macrophages and Bauer, T. W. See Akisue, T., 507 —; Immirzi, B.; Malinconico, M.; foreign body giant cells on poly (N- Baumann, M. See Winblade, N. D., 618 Orsello, G.; Volpe, M. G.; Della isopropylacrylamide) temperature- Becker, D. Ragione, F.; Zappia, V.; Oliva, A.: responsive surfaces, 136 —; Geifler, U.; Hempel, U.; Biocompatibility studies on Cooper, E. See Scotchford, C. A., 84 Bierbaum, S.; Scharnweber, D.; biodegradable polyester-based Cui, F. Z. See Du, C., 535 Journal of Biomedical Materials Research, Vol. 59, 726-730 (2002) AUTHOR INDEX Dal Ponte, D. B. See Kidd, K. R., 682 Geif ler, U. See Becker, D., 516 Herrera—Trejo, M. See Caudillo, M., Daniels, A. U. See Charlebois, S. J., 166 Gibson, I. R. 378 de Groot, K. See Du, C., 535 —; Bonfield, W.: Novel synthesis and Herrmann, F. See Pham, M. T., 716 Dean, D. See Fisher, J. P., 547 characterization of an AB-type Hicks, W., Jr. See Sigurdson, L., 357 Della Ragione, F. See Calandrelli, L., carbonate-substituted Hisatome, T. 611 hydroxyapatite, 697 —; Yasunaga, Y.; Ikuta, Y.; Fujimoto, Demers, C. N. Gilbert, J. L. See Hasenwinkel, J. M., Y.: Effects on articular cartilage of —,; Tabrizian, M.; Petit, A.; Hamdy, 411 subchondral replacement with R. C.; Yahia, L’H.: Effect of Gili, T. See Basoli, A., 100 polymethylmethacrylate and experimental parameters on the in Gilmore, C. P. See Scotchford, C. A., 84 calcium phosphate cement, 490 vitro release kinetics of Goldstein, A. S. Hoffman, A. S. See Winblade, N. D., transforming growth factor B1 —; DiMilla, P. A.: Effect of adsorbed 618 from coral particles, 403 fibronectin concentration on cell Holland, T. A. See Fisher, J. P., 547 DeSilva, S. P. See VandeVord, P. J., 585 adhesion and deformation under Hollinger, J. O. See Hu, Y., 563 DiMilla, P. A. See Goldstein, A. S., 665 shear on hydrophobic surfaces, 665 Hou, Y. See Sigurdson, L., 357 Ding, C. See Liu, X., 259 Gonzalez, C. R. See Caudillo, M., 378 Hozumi, A. See Zhu, P. X., 294 Doremus, R. H. See Ergun, C., 305 GG6ransson, H. See Vuola, J., 152 Hsieh, Y.-S. See Huang, F.-M., 460 Doremus, R. H. See Webster, T. J., 312 Gough, J. E. Hsu, C. Y. See Chang, S. J., 118 Downes, S. See Scotchford, C. A., 84 —; Christian, P.; Scotchford, C. A.; He; ¥. Driessens, F.C. M. See Blom, E. J., 265 Rudd, R. D.; Jones, I. A.: Synthesis, —; Grainger, D. W.; Winn, S. R.; Ba, '€. degradation, and in vitro cell Hollinger, J. O.: Fabrication of —-; Klasens, P.; Haan, R. E.; Bezemer, responses of sodium phosphate poly(a-hydroxy acid) foam J.; Cui, F. Z.; de Groot, K.; glasses for craniofacial bone repair, scaffolds using multiple solvent Layrolle, P.: Biomimetic calcium 481 systems, 563 phosphate coatings on Polyactive® Grainger, D. W. See Hu, Y., 563 Huang, F.-M. See Tai, K.-W., 73 1000/70/30, 535 Grambole, D. See Pham, M. T., 716 Huang, F.-M. Groppetti, R. See Nuno, N., 191 —; Hsieh, Y.-S.; Tai, K.-W.; Chou, Grottkau, B. E. M.-Y.; Chang, Y.-C.: Induction of Eanes, E. D. See Skrtic, D., 597 —; Noordin, S.; Shortkroff, S.; c-fos and c-jun protooncogenes Eberhardt, A. W. See Sierra, D. H., 1 Schaffer, J. L.; Thornhill, T. S.; expression by formaldehyde- Edwards, A. See Salacinski, H. J., 207 Spector, M.: Effect of mechanical releasing and epoxy resin-based Epstein, J. See Cohn, D., 273 perturbation on the release of root-canal sealers in human Ergun, C. See Webster, T. J., 312 PGE, by macrophages in vitro, 288 osteoblastic cells, 460 Ergun, C. Giinther, K.-P. See Ziegler, J., 422 Huang, M.-S. See Tai, K.-W., 73 —; Webster, T. J.; Bizios, R.; Doremus, Huang, Y.-B. See Mi, F.-L., 438 R. H.: Hydroxylapatite with Huang, Y.-C. See Sun, J.-S., 246 substituted magnesium, zinc, Haan, R. E. See Du, C., 535 Hubbell, J. A. See Winblade, N. D., 618 cadmium, and yttrium. I. Structure Hall, L., II See Sigurdson, L., 357 and microstructure, 305 Hall, M. W. —; Solen, K. A.: Hypothermia- Ichino, R. See Kuroda, K., 390 induced platelet aggregation in Farver, C. F. See Akisue, T., 507 Ikuta, Y. See Hisatome, T., 490 Feng, B. human blood in an in vitro model: Imachi, K. See Ziani-Cherif, H., 386 —; Chen, Y.; Zhang, X. D.: Effect of The dominant role of Immirzi, B. See Calandrelli, L., 611 blood—material interactions, 528 water vapor treatment on apatite Inoue, S. See Yoshioka, M., 56 Hamdy, R. C. See Demers, C. N., 403 formation on precalcified titanium Ishikawa, M. See Zhu, P. X., 294 and bond strength of coatings to Hamilton, G. See Salacinski, H. J., 207 substrates, 12 Hanawa, T. See Yamamoto, A., 176 Hao, J.-Y. See Mi, F.-L., 438 Fernanda Gonzalez, M. See Cohn, D., 273 Hard, R. See Sigurdson, L., 357 Jaffer, F. See Woo, G. L. Y., 35 Harrington, J. R. See Momose, T., 219 Fisher, J. P. James, P. F. See Miller, C. A., 473 —; Vehof, J. W. M.; Dean, D.; van der Hasenwinkel, J. M. Janke, A. See Nitschke, M., 632 Waerden, J. P. C. M.; Holland, —; Lautenschlager, E. P.; Wixson, Jansen, J. A. See Fisher, J. P., 547 T. A.; Mikos, A. G.; Jansen, J. A.: R. L.; Gilbert, J. L.: Effect of Jones, I. A. See Gough, J. E., 481 Soft and hard tissue response to initiation chemistry on the fracture Jones, J. R. See Sepulveda, P., 340 photocrosslinked poly(propylene toughness, fatigue strength, and Juarez, J. 1. See Caudillo, M., 378 fumarate) scaffolds in a rabbit residual monomer content of a novel high-viscosity, two-solution model, 547 acrylic bone cement, 411 Fujimoto, Y. See Hisatome, T., 490 Hatori, K. See Kamakura, S., 29 Kagayama, M. See Kamakura, S., 29 Hatton, P. V. See Miller, C. A., 473 Kamakura, S. Ganazzoli, F. See Mantero, S., 329 Hempel, U. See Becker, D., 516 —,; Sasano, Y.; Shimizu, T.; Hatori, K.; Gardella, J. A., Jr. See Sigurdson, L., 357 Hench, L. L. See Sepulveda, P., 340 Suzuki, O.; Kagayama, M.; Motegi, AUTHOR INDEX K.: Implanted octacalcium Kuroda, K. Mi, F.-L. phosphate is more resorbable than —; Ichino, R.; Okido, M.; Takai, O.: —; Wu, Y.-B.; Shyu, S.-S.; Schoung, B-tricalcium phosphate and Hydroxyapatite coating on J.-Y.; Huang, Y.-B.; Tsai, Y.-H.; hydroxyapatite, 29 titanium by thermal substrate Hao, J.-Y.: Control of wound Kapanen, A. method in aqueous solution, 390 infections using a bilayer chitosan —; Ryhdanen, J.; Birr, E.; Vaananen, wound dressing with sustainable H. K.; Tuukkanen, J.: Bone antibiotic delivery, 438 morphogenetic protein 3b Lambrechts, P. See Yoshioka, M., 5 Mikos, A. G. See Fisher, J. P., 547 expressing reindeer antler, 78 Langer, R. See Kohane, D. S., 450 Mikos, A. G. See Temenoff, J. S., 429 Kataoka, H. See Nishikori, T., 201 Lautenschlager, E. P. See Miller, C. A. Katsube, K. See Nishikori, T., 201 Hasenwinkel, J. M., 411 —; Kokubo, T.; Reaney, I. M.; Hatton, Kawasaki, K. See Nishikori, T., 201 Layrolle, P. See Du, C., 535 P. V.; James, P. F.: Formation of Kellar, R. S. See Kidd, K. R., 682 LeBaron, R. G. See Temenoff, J. S., 429 apatite layers on modified canasite Kessler, S. See Ziegler, J., 422 Lee, C. H. See Chang, S. J., 118 glass—ceramics in simulated body Kidd, K. R. Lee, K. C. See Park, K.-H., 591 fluid, 473 —; Dal Ponte, D. B.; Kellar, R. S.; Leggett, G. J. See Scotchford, C. A., 84 Mittelman, M. W. See Woo, G. L. Y., 35 Williams, S. K.: A comparative Lemons, J. E. See Sierra, D. H., 1 Mochida, Y. See Akisue, T., 507 evaluation of the tissue responses Leygraf, C. See Mustafa, K., 655 Momose, T. associated with polymeric Liao, C.-J. —; Amadio, P. C.; Sun, Y.-L.; Zhao, implants in the rat and mouse, 682 —; Chen, C.-F.; Chen, J.-H.; Chiang, C.; Zobitz, M. E.; Harrington, J. R.; Kidd, K. R. S.-F.; Lin, Y.-J.; Chang, K.-Y.: An, K.-N.: Surface modification of —; Nagle, R. B.; Williams, S. K.: Fabrication of porous extrasynovial tendon by Angiogenesis and biodegradable polymer scaffolds chemically modified hyaluronic neovascularization associated with using a solvent merging/ acid coating, 219 extracellular matrix-modified particulate leaching method, 676 Montanaro, L. See Arciola, C. R., 557 porous implants, 366 Lin, F.-H. See Sun, J.-S., 246 Montevecchi, F. M. See Mantero, S., 329 Kikuchi, A. See Collier, T. O., 136 Lin, Y.-J. See Liao, C.-J., 676 Mostardi, R. A. Kim, C.-K. See Park, J.-S., 144 Lindenhayn, K. See Spitzer, R.-S., 690 —; Pentello, A.; Kovacik, M. W.; Kim, H. D. Lipp, M. See Kohane, D. S., 450 Askew, M. J.: Prosthetic metals —; Valentini, R. F.: Retention and Liu, X. have a variable necrotic threshold activity of BMP-2 in hyaluronic —,; Ding, C.: Reactivity of plasma- in human fibroblasts: An in vitro acid-based scaffolds in vitro, 573 sprayed wollastonite coating in study, 605 Kim, J. M. See Park, J.-S., 144 simulated body fluid, 259 Motegi, K. See Kamakura, S., 29 Kim, K. M. LoGerfo, F. W. See Stone, D., 160 Murphy, B. P. —; Cells, rather than extracellular Lotan, N. See Kohane, D. S., 450 —,; Prendergast, P. J.: The relationship matrix, nucleate apatite in Louis, D. N. See Kohane, D. S., 450 between stress, porosity, and glutaraldehyde-treated vascular Lucas, L. C. See Messer, R. L. W., 466 nonlinear damage accumulation in acrylic bone cement, 646 tissue, 639 Kinney, R. C. See Kohane, D. S., 450 Mustafa, K. Kitamura, Y. See Shinzato, S., 225 Malinconico, M. See Calandrelli, L., —; Pan, J.; Wroblewski, J.; Leygraf, Klasens, P. See Du, C., 535 611 C.; Arvidson, K.: Electrochemical Klein-Nulend, J. See Blom, E. J., 265 Maniwa, S. See Nishikori, T., 201 impedance spectroscopy and X-ray Kobayashi, T. Mantero, S. photoelectron spectroscopy —; Nakamura, S.; Yamashita, K.: —; Piuri, D.; Montevecchi, F. M.; analysis of titanium surfaces Enhanced osteobonding by Vesentini, S.; Ganazzoli, F.; cultured with osteoblast-like cells negative surface charges of Raffaini, G.: Albumin adsorption derived from human mandibular electrically polarized onto pyrolytic carbon: A molecular bone, 655 hydroxyapatite, 595 mechanics approach, 329 Myoui, A. See Tamai, N., 110 Kohane, D. S. Matsuda, T. See Okino, H., 233 —; Lipp, M.; Kinney, R. C.; Anthony, Matsuda, T. See Ziani-Cherif, H., 386 D: C; Louis, D..N:; Lotan, N.; Matthew, H. W. T. See VandeVord, Na, K. See Park, K.-H., 591 Langer, R.: Biocompatibility of P. J; 565 Nagle, R. B. See Kidd, K. R., 366 lipid-protein-sugar particles Matz, W. See Pham, M. T., 254 Nakamura, S. See Kobayashi, T., 595 containing bupivacaine in the Matz, W. See Pham, M. T., 716 Nakamura, T. See Shinzato, S., 225 epineurium, 450 Mayr-Wohlfart, U. See Ziegler, J., 422 Nakase, T. See Tamai, N., 110 Kohyama, Y. See Yamamoto, A., 176 Mayton, L. See VandeVord, P. J., 585 Nakayama, Y. See Okino, H., 233 Kokubo, T. See Miller, C. A., 473 Messer, R. L. W. Nishikori, T. Kokubo, T. See Shinzato, S., 225 —; Lucas, L. C.: Localization of —; Ochi, M.; Uchio, Y.; Maniwa, S.; Koumoto, K. See Zhu, P. X., 294 metallic ions within gingival Kataoka, H.; Kawasaki, K.; Kovacik, M. W. See Mostardi, R. A., fibroblast subcellular fractions, 466 Katsube, K.; Kuriwaka, M.: Effects 605 Metzger, D. W. See Supronowicz, of low-intensity pulsed ultrasound Kuriwaka, M. See Nishikori, T., 201 P. R., 499 on proliferation and chondroitin AUTHOR INDEX sulfate synthesis of cultured biodegradable poly(lactide-co- Schmack, G. See Nitschke, M., 632 chondrocytes embedded in glycolide) scaffolds prepared by gas SchmG6kel, H. See Winblade, N. D., 618 Atelocollagen® gel, 201 foaming of effervescent salts, 127 Schoung, J.-Y. See Mi, F.-L., 438 Nitschke, M. Pentello, A. See Mostardi, R. A., 605 Scotchford, C. A. See Gough, J. E., 481 —; Schmack, G.; Janke, A.; Simon, F.; Perka, C. See Spitzer, R.-S., 690 Scotchford, C. A. Pleul, D.; Werner, C.: Low Petit, A. See Demers, C. N., 403 —; Gilmore, C. P.; Cooper, E.; pressure plasma treatment of Pham, M. T. Leggett, G. J.; Downes, S.: Protein poly(3-hydroxybutyrate): Toward —; Matz, W.; Grambole, D.; adsorption and human tailored polymer surfaces for Herrmann, F.; Reuther, H.; Richter, osteoblast-like cell attachment and tissue engineering scaffolds, 632 E.; Steiner, G.: Solution deposition growth on alkylthiol on gold Nof, M. of hydroxyapatite on titanium self-assembled monolayers, 84 —; Shea, L. D.: Drug-releasing pretreated with a sodium ion Seifalian, A. M. See Salacinski, H. J., scaffolds fabricated from implantation, 716 207 drug-loaded microspheres, 349 Pham, M. T. Seo, W. S. See Zhu, P. X., 294 Nomura, Y. See Yoshioka, M., 56 —; Matz, W.; Reuther, H.; Richter, E.; Sepulveda, P. Noordin, S. See Grottkau, B. E., 288 Steiner, G.; Oswald, S.: —-; Jones, J. R.; Hench, L. L.: Bioactive Nuno, N. Interface-mediated synthesis of sol-gel foams for tissue repair, 340 —; Amabili, M.; Groppetti, R.; Rossi, A.: hydroxyapatite, 254 Shea, L. D. See Nof, M., 349 Static coefficient of friction between Phaneuf, M. See Stone, D., 160 Shimizu, T. See Kamakura, S., 29 Ti-6Al-4V and PMMA for cemented Pidaparti, R. M. Shintani, H. See Yoshioka, M., 56 hip and knee implants, 191 —; Vogt, A.: Experimental Shinzato, S. investigation of Poisson’s ratio as —; Nakamura, T.; Kokubo, T.,; a damage parameter for bone Kitamura, Y.: PMMA-based Ochi, M. See Nishikori, T., 201 fatigue, 282 bioactive cement: Effect of glass Ochi, T. See Tamai, N., 110 Piuri, D. See Mantero, S., 329 bead filler content and histological Oh, Y.-K. See Park, J.-S., 144 Pleul, D. See Nitschke, M., 632 change with time, 225 Okano, T. See Collier, T. O., 136 Possart, W. See Velten, D., 18 Shortkroff, S. See Grottkau, B. E., 288 Okazaki, M. See Yoshioka, M., 56 Prendergast, P. J. See Murphy B. P., 646 Shyu, S.-S. See Mi, F.-L., 438 Okido, M. See Kuroda, K., 390 Pujol, J. Sierra, D. H. Okino, H. —; Qi, G.: Reply to Dr. Akkus’s —; Eberhardt, A. W.; Lemons, J. E.: —; Nakayama, Y.; Tanaka, M.; comments, 399 Failure characteristics of Matsuda, T.: In situ hydrogelation Puolakkainen, P. See Vuola, J., 152 multiple-component fibrin-based of photocurable gelatin and drug adhesives, 1 release, 233 Sigurdson, L. Oliva, A. See Calandrelli, L., 611 Qi, G. See Pujol, J., 399 —; Carney, D. E.; Hou, Y.; Hall, L., Ong, J. L. Quist, W. C. See Stone, D., 160 Ill; Hard, R.; Hicks, W., Jr.; Bright, —,; Bessho, K.; Cavin, R.; Carnes, F. V.; Gardella, J. A., Jr.: A D. L.: Bone response to radio frequency sputtered calcium Raffaini, G. See Mantero, S., 329 comparative study of primary and phosphate implants and titanium Ramirez, E. See Caudillo, M., 378 immortalized cell adhesion implants in vivo, 184 Reaney, I. M. See Miller, C. A., 473 characteristics to modified Orsello, G. See Calandrelli, L., 611 Reuther, H. See Pham, M. T., 254 polymer surfaces: Toward the goal of effective re-epithelialization, 357 Oswald, S. See Pham, M. T., 254 Reuther, H. See Pham, M. T., 716 Simon, F. See Nitschke, M., 632 Richter, E. See Pham, M. T., 254 Richter, E. See Pham, M. T., 716 Sivamurthy, N. See Stone, D., 160 Pan, J. See Mustafa, K., 655 Rossi, A. See Nuno, N., 191 Skrtic, D. Panzavolta, S. See Bigi, A., 709 Roveri, N. See Bigi, A., 709 —; Antonucci, J. M.; Eanes, E. D.; Park, J.-S. Rubini, K. See Bigi, A., 709 Brunworth, R. T.: Silica- and —; Oh, Y.-K.; Yoon, H.; Kim, J. M.; Rudd, C. D. See Gough, J. E., 481 zirconia-hybridized amorphous Kim, C.-K.: In situ gelling and Ryhanen, J. See Kapanen, A., 78 calcium phosphate: Effect on mucoadhesive polymer vehicles transformation to hydroxyapatite, 597 - for controlled intranasal delivery of plasmid DNA, 144 Salacinski, H. J. Smith, R. A. See Charlebois, S. J., 166 Park, K.-H. —; Tai, N. R.; Carson, R. J.; Edwards, Solen, K. A. See Hall, M. W., 528 —; Na, K.; Akaike, T.; Lee, K. C.: A.; Hamilton, G.; Seifalian, A. M.: Spector, M. See Grottkau, B. E., 288 Probe of specific interaction In vitro stability of a novel Spencer, P. See Wang, Y., 46 between a simplified synthetic compliant poly(carbonate- Spitzer, R.-S. glycopolymer and erythrocytes as urea)urethane to oxidative and —; Perka, C.; Lindenhayn, K.; Zippel, mediated by a glucose transporter hydrolytic stress, 207 H.: Matrix engineering for (GLUT) on a cell membrane, 591 Santerre, J. P. See Woo, G. L. Y. , JaI osteogenic differentiation of rabbit Park, T. G. Sasano, Y. See Kamakura, S., 29 periosteal cells using a-tricalcium —,; Perfusion culture of hepatocytes Schaffer, J. L. See Grottkau, B. E., 288 phosphate particles in a three- within galactose-derivatized Scharnweber, D. See Becker, D., 516 dimensional fibrin culture, 690 AUTHOR INDEX Steiner, G. See Pham, M. T., 254 Vaananen, H. K. See Kapanen, A., 78 Woo, G. L. Y. Steiner, G. See Pham, M. T., 716 Valentini, R. F. See Kim, H. D., 573 —; Yang, M.L.; Yin, H. Q.; Jaffer, F.; Stern, T. See Cohn, D., 273 Valeske, B. See Velten, D., 18 Mittelman, M. W.; Santerre, J. P.: Stone, D. van der Waerden, J. P. C. M. See Biological characterization of a —; Phaneuf, M.; Sivamurthy, N.; Fisher, J. P., 547 novel biodegradable antimicrobial LoGerfo, F. W.; Quist, W. C.: A Van Meerbeek, B. See Yoshioka, M., 56 polymer synthesized with biologically active VEGF construct van Waas, M.A. J. See Blom, E. J., 265 fluoroquinolones, 35 in vitro: Implications for VandeVord, P. J. Wooley, P. H. See VandeVord, P. J., 585 bioengineering-improved —; Matthew, H. W. T.; DeSilva, S. P.; Worch, H. See Becker, D., 516 prosthetic vascular grafts, 160 Mayton, L.; Wu, B.; Wooley, P. H.: Wroblewski, J. See Mustafa, K., 655 Sun, J.-S. Evaluation of the biocompatibility Wu, B. See VandeVord, P. J., 585 —; Huang, Y.-C.; Tsuang, Y.-H.; Chen, of a chitosan scaffold in mice, 585 Wu, Y.-B. See Mi, F.-L., 438 L.-T.; Lin, F.-H.: Sintered dicalcium Vanherle, G. See Yoshioka, M., 56 pyrophosphate increases bone Vehof, J. W. M. See Fisher, J. P., 547 Yahia, L’H. See Demers, C. N., 403 mass in ovariectomized rats, 246 Velten, D. Yamamoto, A. Sun, Y.-L. See Momose, T., 219 —-; Biehl, V.; Aubertin, F.; Valeske, B.; —; Kohyama, Y.; Hanawa, T.: Supronowicz, P. R. Possart, W.; Breme, J.: Preparation Mutagenicity evaluation of forty- —,; Ajayan, P. M.; Ullmann, K. R.; of TiO, layers on cp-Ti and one metal salts by the umu test, 176 Arulanandam, B. P.; Metzger, Ti6AI4V by thermal and anodic Yamashita, K. See Kobayashi, T., 595 D. W.; Bizios, R.: Novel current- oxidation and by sol-gel coating Yang, M. L. See Woo, G. L. Y., 35 conducting composite substrates techniques and their Yasunaga, Y. See Hisatome, T., 490 for exposing osteoblasts to characterization, 18 Yin, H. Q. See Woo, G. L. Y., 35 alternating current stimulation, 499 Vesentini, S. See Mantero, S., 329 Yokogawa, Y. See Zhu, P. X., 294 Suzuki, O. See Kamakura, S., 29 Vogt, A. See Pidaparti, R. M., 282 Yoon, H. See Park, J.-S., 144 Volpe, M. G. See Calandrelli, L., 611 Yoshida, Y. See Yoshioka, M., 56 Tabrizian, M. See Demers, C. N., 403 Vuola, J. Yoshikawa, H. See Tamai, N., 110 Tai, K.-W. See Huang, F.-M., 460 —,; Bohling, T.; G6ransson, H.; Yoshioka, M. Tai, K.-W. Puolakkainen, P.: Transforming —; Yoshida, Y.; Inoue, S.; Lambrechts, P.; —; Huang, F.-M.; Huang, M.-S.; growth factor B released from Vanherle, G.; Nomura, Y.; Okazaki, Chang, Y.-C.: Assessment of the natural coral implant enhances M.; Shintani, H.; Van Meerbeek, genotoxicity of resin and bone growth at calvarium of B.: Adhesion/ decalcification zinc-oxide eugenol-based root mature rat, 152 mechanisms of acid interactions canal sealers using an in vitro with human hard tissues, 56 mammalian test system, 73 Wang, Y. Tai, N. R. See Salacinski, H. J., 207 —; Spencer, P.: Quantifying adhesive Zappia, V. See Calandrelli, L., 611 Takai, O. See Kuroda, K., 390 penetration in adhesive/dentin Zhang, X. D. See Feng, B., 12 Tamai, N. interface using confocal Raman Zhang, Y. —; Myoui, A.; Tomita, T.; Nakase, T.; microspectroscopy, 46 —; Chu, C.-C.: Biodegradable Tanaka, J.; Ochi, T.; Yoshikawa, Wang, Y. J. See Chang, S. J., 118 dextran—polylactide hydrogel H.: Novel hydroxyapatite ceramics Webster, T. J. See Ergun, C., 305 networks: Their swelling, with an interconnective porous Webster, T. J. morphology and the controlled structure exhibit superior —; Ergun, C.; Doremus, R. H.; Bizios, release of indomethacin, 318 osteoconduction in vivo, 110 R.: Hydroxylapatite with substituted Zhao, C. See Momose, T., 219 Tanaka, J. See Tamai, N., 110 magnesium, zinc, cadmium, and Zhu, P. X. Tanaka, M. See Okino, H., 233 yttrium. II. Mechanisms of —; Ishikawa, M.; Seo, W. S.; Hozumi, Temenoff, J. S. osteoblast adhesion, 312 A.; Yokogawa, Y.; Koumoto, K.: —,; Athanasiou, K. A.; LeBaron, R. G.; Wenzel, K.-W. See Becker, D., 516 Nucleation and growth of Mikos, A. G.: Effect of Werner, C. See Nitschke, M., 632 hydroxyapatite on an amino poly(ethylene glycol) molecular Williams, S. K. See Kidd, K. R., 366 organosilane overlayer, 294 weight on tensile and swelling Williams, S. K. See Kidd, K. R., 682 Ziani-Cherif, H. properties of oligo(poly(ethylene Winblade, N. D. —; Abe, Y.; Imachi, K.; Matsuda, T.: glycol) fumarate) hydrogels for —; Schm6kel, H.; Baumann, M.; Visible-light-induced surface graft cartilage tissue engineering, 429 Hoffman, A. S.; Hubbell, J. A.: polymerization via camphorquinone Thornhill, T. S. See Grottkau, B. E., 288 Sterically blocking adhesion of impregnation technique, 386 Tomita, T. See Tamai, N., 110 cells to biological surfaces with a Ziegler, J. Tsai, Y.-H. See Mi, F.-L., 438 surface-active copolymer —; Mayr-Wohlfart, U.; Kessler, S.; Tsuang, Y.-H. See Sun, J.-S., 246 containing poly(ethylene glycol) Breitig, D.; Giinther, K.-P.: Tuukkanen, J. See Kapanen, A., 78 and phenylboronic acid, 618 Adsorption and release properties Winn, S. R. See Hu, Y., 563 of growth factors from Uchio, Y. See Nishikori, T., 201 Wixson, R. L. See Hasenwinkel, J. M., biodegradable implants, 422 Ulimann, K. R. See Supronowicz, 411 Zippel, H. See Spitzer, R.-S., 690 P.R., 499 Wolke, J. G. C. See Blom, E. J., 265 Zobitz, M. E. See Momose, T., 219 Journal of Biomedical Materials Research Subject Index—Volume 59 Acids, 56 Bond strength, 125 Coral, 152 AD-concept, 56 Bone, 166, 282 Coral degradation, 403 Adhesion, 312 Bone cement, 191, 411, 646 Coral particles, 403 Adhesion/ decalcification concept, 56 Bone defect, 29 Corrosion resistance, 18 Adhesive, 46 Bone grafts, 340 Craniofacial bone repair, 481 Adsorption, 422 Bone mass, 246 Crosslinkers, 160 Albumin, 84, 329 Bone morphogenetic protein 2, 573 Crystallinity, 265 Alendronate, 246 Bone regeneration, 563 Culture, 201 Alginate, block copolymer, 118 Bone repair, 29 Current-conducting biomaterials Aliphatic polyesters, 611 Bone substitute, 152 Cytokine, 605 Alkyithiol self-assembled monolayers, Bovine serum albumin, 160 Cytokines, 166, 507 84 Bupivacaine, 450 Cytotoxicity, 35, 73, 466 Alloys, 466 Amino organosilane overlayer, 294 c-fos, 460 Damage, 282 Ammonia plasma, 632 c-jun, 460 Damage accumulation, 646 Amorphous calcium phosphate, 597 Calcification, 639 Deformation, 665 Angiogenesis, 366, 682 Calcium carbonate, 152 Degradable, 481 Anodic oxidation, 18 Calcium hydroxyapatite ceramics, 11 0 Dentin, 46 Antimicrobial, 35 Calcium phosphate, 184, 390 Deposition process, 390 Antimicrobial activity, 438 Calcium phosphate cement, 265, 490 Detachment, 665 Antler, 78 Calcium-to-phosphorus ratio, 265 Dextran, 318 Apatite, 473, 535 Camphorquione, 386 Differentiation, 516 Apatite coating, 12 Canasite, 473 Doped, 312 Arthroplasty, 605 Carbide, 378 Doped ceramic, 305 Articular cartilage, 490 Carbon nanotubes, 499 Drug delivery, 349 ASTM F-75 alloy, 378 Carbonate, 697 Drug polymer, 35 Atelocollagen®, 201 Carb2o5n9a te-containing hydroxyapatite, Drug release, 318 B-tricalcium phosphate, 29 Carcinogenicity, 176 Bacteria, 35 Cardiovascular biomaterials, 100 Electrical impedance, 100 Bilayer wound dressing, 438 Cartilage, 63 Electrical stimulation, 499 Bioactive, 225 Cartilage tissue engineering, 429 Electrochemical impedance Bioactivity, 340, 473 Catheter infection, 557 spectroscopy (EIS), 655 Biocompatibility, 118, 450, 547, 585, Cell adhesion, 357, 618 Electrostatic interaction, 294 611 Cell, matrix, 639 Embolism, 528 Biodegradable, 563 Cell-surface interaction, 84 Endothelial cells, 160 Biodegradable implants, 422 Chitosan, 438, 585 Endothelium, 366 Biodegradable polymer, 127, 535 Chondrocyte, 201 Endotoxin, 507 Enzyme, 35 Biodegradable polymers, 632, 676 Ciprofloxacin, 35 Biodegradation, 35, 152, 273, 318, 547 Coating, 219, 254 Epoxy resin, 460 Biomaterials, 160, 176, 528 Cobalt chrome alloy, 166 ePTFE, 366 Erythrocyte membrane, 100 Biomimetic coating, 535 Coefficient of friction, 191 Biomimetics, 709 Collagen type I coating, 516 Erythrocyte surface charge, 100 Erythrocytes, 591 Bioprosthesis, 639 Compliant poly(carbonate-urea) Extracellular matrix, 366 Bioreactor, 127 urethane, 207 Biphasic hydrogel, 429 Composite, 282 Bisphenol A diglyether, 73 Composites, 709 Fatigue, 282, 411, 646 Block copolymer, 273 Compression strength, 110, 265 Fibrin, 1, 690 BMP-3b, 78 Controlled release, 450 Fibroblast, necrosis, 605 Journal of Biomedical Materials Research, Vol. 59, 731-733 (2002) SUBJECT INDEX Fibronectin, 84, 665 lonic substitution, 305 Poly(ethylene oxide), 273 Flexor tendon, 219 Isothermal microcalorimetry, 166 Poly(3-hydroxybutyrate), 632 Fluorescence intensity, 591 Poly(lactide-co-glycolide), 349 Fluoropolymer, 357 Kinetics, 378 Poly(methyl methacrylate) (PMMA), Foam, 340 411 Foam-gel technique, 110 Local drug delivery, 233 Poly(propylene fumarate), 547 Foreign body giant cell (FBGC) Location, 466 Polyactive® 1000/70/30, 535 formation, 136 Polyethylene glycol, 618 Formaldehyde, 73, 460 Macrophage, 166, 288, 481 Polyethylene glycol (PEG), 118 Fracture mechanics, 1 Macrophage adhesions, 136 Polylactide, 318 Fracture toughness, 411 Macrophages, 507 Polymer network, 318 Matrix, 690 Polymer scaffolds, 547 Galactose, 127 Mechanical properties, 1 Polymerase chain reaction (PCR), 557 Gas foaming, 349 Mechanical property, 225 Polymeric implants, 682 Gelatin sponges, 709 Mechanical strain, 288 Polymethyl methacrylate (PMMA), Genotoxicity, 73, 176 Metal, 466 225 Glass, 225 — Metal debris, 605 Polymethylmethacrylate, 490, 646 Glass—ceramic, 473 Metal ions, 176 Polyurethane, 35, 273 Gliding resistance, 219 Mice, 585 Porosity, 646 Glucose transporter, 591 Microcapsules, 118 Porous ceramics, 340 Glutaraldehyde, 639 Microstructure, 265, 305 Porous scaffolds, 676 Glycopolymer, 591 Miner’s law, 646 Postsurgical adhesions, 618 Graft copolymer, 618 Mineralization, 516 pQcT, 78 Growth, 294 Molecular mechanics, 329 Precalcification, 12 Growth factor delivery system, 403 Molecular modeling, 329 Precipitation, 390 Growth factors, 422 Monocytes, 136 Primary cells, 357 Morphology, 318 Prolonged duration local anesthesia, Heat treatment, 184 Mucoadhesive polymers, 144 450 Heat-treatment, 12 Prostaglandin, 288 Heparin coating, 528 Nasal absorption, 144 Protein adsorption, 329, 403 Hepatocytes, 127 Natural hydroxyapatite, 611 Protooncogene, 460 Heterotopic bone formation, 78 Neovascularization, 682 PVA, 357 Histology, 184 Nonviral DNA, 349 Pyrolytic carbon, 329 Homogeneous and heterogeneous Nuclear factor kappa B, 507 nucleation, 294 Nucleation, 716 Rabbit cranial defect model, 547 Human hard tissues, 56 Radial-flow chamber, 665 Human osteoblasts, 611 Octacalcium phosphate, 29 Raman spectroscopy, 46 Hyaluronic acid, 219, 573 Orthopedic implants, 254 Recombinant human transforming Hybridization, 597 Osteoblast, 84, 312, 481, 516 growth factor-B1 (rhTGF-B1), 265 Hydrogel, 233, 318 Osteoblast functions, 499 Reindeer, 78 Hydrogel material properties, 429 Osteoblasts, 655 Release, 265, 422 Hydrogels, 63 Osteoconduction, 110 Residual monomer, 411 Hydrolytic, oxidative, peroxidative, Osteoconductivity, 225 Root canal sealer, 73 and plasma-fraction-led Osteolysis, 166 Root-canal sealer, 460 degradation, 207 Osteoporosis, 246 Hydroxyapatite, 29, 56, 254, 294, 697, Ovariectomy, 246 Scaffold, 573 709, 716 Scaffolds, 563 Hydroxylapatite, 305, 312 Particulates, 166 Sciatic nerve, 450 Hydroxypatite, 390 Periosteal cells, 690 Setting time, 265 Hypothermia, 528 Phagocytosis, 288 Silica, 597 Phase separation, 563 Silica-rich layer, 259 ica locus, 557 Phenylboronic acid, 618 Silver sulfadiazine, 438 Immune response, 585 Photocrosslinking, 318 Simulated body fluid, 259, 473 Implantation, 585 Photopolymerization, 63 Sintered dicalcium pyrophosphate, In situ gelling, 144 Photoreactive gelatin, 233 246 In situ polymerizable hydrogel, 429 Plasma spraying, 259 Sintering, 697 Indomethacin, 318 Plasmid DNA, 144 Slime, 557 Inflammation, 450 Pluripotent stem cell, 573 Sodium phosphate glass, 481 Inflammatory response, 166 Poly(a-hydroxy acid), 563 Sol-gel process, 18 Interconnected pore, 110 Poly(caprolactone), 273 Solution treatment, 378 Interface, 46 Poly(ethylene glycol), 63, 273 SOS response, 176 Ion implantation, 254, 716 Poly(ethylene glycol) (PEG), 429 Specific interaction, 591 SUBJECT INDEX Sputter coatings, 184 Ti-6Al-4V alloy, 191 Vascular grafts, 207 Staphylococcus epidermidis, 557 Tissue adhesive, 1 VEGF, 160 Stiffness, 282 Tissue engineering, 63, 219, 340, 349, Viscoelasticity, 207 Subcellular, 466 357, 547, 585, 632, 676, 690 Visible-light irradiation, 922323 Subchondral replacement, 490 Tissue responses, 682 Surface chemistry, 84 Titanium, 12, 166, 254, 655, 716 Wear debris, 507 Surface modification, 127, 632 Titanium alloy, 516 Wollastonite coating, 259 Surface photograft polymerization Titanium oxide layer, 18 Wound infection, 438 technique, 386 TKA, 191 Surface roughness, 655 Transforming growth factor B, 152 Swelling, 318 Transforming growth factor beta 1, X-ray photoelectron spectroscopy, 386 Synthetic bone graft, 697 403 X-ray photoelectron spectroscopy Transplantation, 201 (XPS), 655 Temperature-responsive surfaces, 136 Tricalcium phosphate, 690 Test methods, 1 Yttrium, 305, 312 THA, 191 UHMWPE, 166 Thermal oxidation, 18 Ultimate interfacial strength, 184 Thermal substrate method, 390 Ultrasound, 201 Zirconia, 597

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