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Journal of Biomedical Materials Research 2000: Vol 51 Index PDF

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Preview Journal of Biomedical Materials Research 2000: Vol 51 Index

Journal of Biomedical Materials Research Author Index—Volume 51 Abraham, G. A. Bellamkonda, R. V. See Eavarone, Eiselt, P.; Mooney, D. J.; —; Murray, J.; Billiar, K.; Sullivan, D. A., 10 Halberstadt, C. R.: Comparative S. J.: Evaluation. of the porcine —; See Dillon, G. P., 510 study of seeding methods for intestinal collagen layer as a Bellantone, M. three-dimensional polymeric biomaterial, 442 4 —; Coleman, N. J.; Hench, L. L.: scaffolds, 642 Acil, Y. Bacteriostatic action of a novel Burkoth, A. K. —,; Terheyden, H.; Dunsche, A.; four-component bioactive glass, —,; Burdick, J.; Anseth, K. S.: Surface Fleiner, B.; Jepsen, S.: 484 and bulk modifications to Three-dimensional cultivation of Bellocchio, S. See Locci, P., 561 photocrosslinked polyanhydrides human osteoblast-like cells on Bengtsson, T. See Wetterd, J., 742 to control degradation behavior, highly porous natural bone Berenson, M. See Wroblewski, S., 329 302 mineral, 703 Billiar, K. See Abraham, G. A., 442 Busscher, H. J. See Poelstra, K. A., 224 Adamyan, A. See Horak, D., 184 Bizios, R. See Webster, T. J., 475 —; See Dijk, F., 408 Agrawal, C. M. See Phelps, J. B., 735 Blokhuis, T. J. Butler, D. L. See Awad, H. A., 233 Alaaddinoglu, E. E. See Ozmeric, N., —; Wippermann, B. W.; den Boer, 500 F.C.; van Lingen, A.; Patka, P.; Albrektsson, T. See Roser, K., 280 Bakker, F. C.; Haarman, H. J. T. M.: Cahalan, P. T. See Zeeman, R., 541 Alcantar, N. A. Resorbable calcium phosphate Carey, J. —; Aydil, E.S.; Israelachvili, J. N.: particles as a carrier material for —; Small, C. F.; Pichora, D. R.: In situ Polyethylene glycol—coated bone marrow in an ovine compressive properties of the biocompatible surfaces, 343 segmental defect, 369 glenoid labrum, 711 Alexander, M. R. See Grunkemeier, Bohling, T. See Vuola, J., 117 Carter, K. L. See Tan, J., 694 J. M., 669 Boivin, G. P. See Awad, H. A., 233 Castner, D. G. See Grunkemeier, Anderson, J. M. See Voskerician, G., 1 Boltz—Nitulescu, G. See Rausch—Fan, J. M., 669 —; See Wood, E. M., 147 X., 88 . Chellat, F: Anseth, K. See Elisseeff, J., 164 Bonfield, W. See Ton That, P., 453 —; Tabrizian, M.; Dumitriu, S.; Anseth, K. S. See Burkoth, A. K., 352 —; See Ton That, P., 461 Chornet, E:; Magny, P.; Rivard, Arcos, D. See Vallet-Regi, M., 23 Bouler, J.-M. C.-H.; Yala, L.: In vitro and in Asko-Seljavaara, S. See Vuola, J., 117 —; LeGeros, R. Z.; Daculsi, G.: vivo biocompatibility of Asundi, A. See Kishen, A., 650 Biphasic calcium phosphates: chitosan-xanthan polyionic Atsumi, K. See Jin, Q.-M., 491 Influence of three synthesis complex, 107 Awad, H. A. parameters on the HA/B-TCP Chen, G. —; Butler, D. L.; Harris, M. T.; Ibrahim, R. E.; Wu, Y.; Young, ratio, 680 —; Ushida, T.; Tateishi, T.: A R. G.; Kadiyala, S.; Boivin, G. P.: In Branham, M. L. See Ross, E. A., 29 biodegradable hybrid sponge vitro characterization of Brown, P. W. See Durucan, C., 717 nested with collagen mesenchymal stem cell-seeded —; See Durucan, C., 726 microsponges, 273 collagen scaffolds for tendon Bruce, W. See Svehla, M., 15 Chen, K.-S. See Lin, F.-H., 157 repair: Effects of initial seeding Brynda, E. Chen, Q. density on contraction kinetics, 233 —; Houska, M.; JirouSkova, M.; Dyr, —; Miyata, N.; Kokubo, T.; Aydil, E. S. See Alcantar, N. A., 343 J. E.: Albumin and heparin Nakamura, T.: Bioactivity and multilayer coatings for mechanical properties of blood-contacting medical devices, PDMS-modified CaO-SiO,-TiO, Bae, Y. H. See Vernon, B., 69 249 hybrids prepared by sol-gel Bakker, F. C. See Blokhuis, T. J., 369 Burdick, J. See Burkoth, A. K., 352 process, 605 Barry, M. A. See Godbey, W., 321 Burg, K. J. L. ; Chornet, E. See Chellat, F., 107 Becchetti, E. See Locci, P., 561 —; Holder, W. D., Jr.; Culberson, Chuang, W.-H. See Lin, J.-C., 413 Beiler, R. J. See Burg, K. J. L., 642 C. R.; Beiler, R. J.; Greene, K. G.; Chuang, W.-Y. See Wang, J.-H., 761 Belcastro, S. See Locci, P., 561 Loebsack, A. B.; Roland, W. D.; Chung, C. P. See Park, Y. J., 391 Journal of Biomedical Materials Research, Vol. , 772-777 (2000) Journal of Biomedical Materials Research Author Index—Volume 51 Abraham, G. A. Bellamkonda, R. V. See Eavarone, Eiselt, P.; Mooney, D. J.; —; Murray, J.; Billiar, K.; Sullivan, D. A., 10 Halberstadt, C. R.: Comparative S. J.: Evaluation. of the porcine —; See Dillon, G. P., 510 study of seeding methods for intestinal collagen layer as a Bellantone, M. three-dimensional polymeric biomaterial, 442 4 —; Coleman, N. J.; Hench, L. L.: scaffolds, 642 Acil, Y. Bacteriostatic action of a novel Burkoth, A. K. —,; Terheyden, H.; Dunsche, A.; four-component bioactive glass, —,; Burdick, J.; Anseth, K. S.: Surface Fleiner, B.; Jepsen, S.: 484 and bulk modifications to Three-dimensional cultivation of Bellocchio, S. See Locci, P., 561 photocrosslinked polyanhydrides human osteoblast-like cells on Bengtsson, T. See Wetterd, J., 742 to control degradation behavior, highly porous natural bone Berenson, M. See Wroblewski, S., 329 302 mineral, 703 Billiar, K. See Abraham, G. A., 442 Busscher, H. J. See Poelstra, K. A., 224 Adamyan, A. See Horak, D., 184 Bizios, R. See Webster, T. J., 475 —; See Dijk, F., 408 Agrawal, C. M. See Phelps, J. B., 735 Blokhuis, T. J. Butler, D. L. See Awad, H. A., 233 Alaaddinoglu, E. E. See Ozmeric, N., —; Wippermann, B. W.; den Boer, 500 F.C.; van Lingen, A.; Patka, P.; Albrektsson, T. See Roser, K., 280 Bakker, F. C.; Haarman, H. J. T. M.: Cahalan, P. T. See Zeeman, R., 541 Alcantar, N. A. Resorbable calcium phosphate Carey, J. —; Aydil, E.S.; Israelachvili, J. N.: particles as a carrier material for —; Small, C. F.; Pichora, D. R.: In situ Polyethylene glycol—coated bone marrow in an ovine compressive properties of the biocompatible surfaces, 343 segmental defect, 369 glenoid labrum, 711 Alexander, M. R. See Grunkemeier, Bohling, T. See Vuola, J., 117 Carter, K. L. See Tan, J., 694 J. M., 669 Boivin, G. P. See Awad, H. A., 233 Castner, D. G. See Grunkemeier, Anderson, J. M. See Voskerician, G., 1 Boltz—Nitulescu, G. See Rausch—Fan, J. M., 669 —; See Wood, E. M., 147 X., 88 . Chellat, F: Anseth, K. See Elisseeff, J., 164 Bonfield, W. See Ton That, P., 453 —; Tabrizian, M.; Dumitriu, S.; Anseth, K. S. See Burkoth, A. K., 352 —; See Ton That, P., 461 Chornet, E:; Magny, P.; Rivard, Arcos, D. See Vallet-Regi, M., 23 Bouler, J.-M. C.-H.; Yala, L.: In vitro and in Asko-Seljavaara, S. See Vuola, J., 117 —; LeGeros, R. Z.; Daculsi, G.: vivo biocompatibility of Asundi, A. See Kishen, A., 650 Biphasic calcium phosphates: chitosan-xanthan polyionic Atsumi, K. See Jin, Q.-M., 491 Influence of three synthesis complex, 107 Awad, H. A. parameters on the HA/B-TCP Chen, G. —; Butler, D. L.; Harris, M. T.; Ibrahim, R. E.; Wu, Y.; Young, ratio, 680 —; Ushida, T.; Tateishi, T.: A R. G.; Kadiyala, S.; Boivin, G. P.: In Branham, M. L. See Ross, E. A., 29 biodegradable hybrid sponge vitro characterization of Brown, P. W. See Durucan, C., 717 nested with collagen mesenchymal stem cell-seeded —; See Durucan, C., 726 microsponges, 273 collagen scaffolds for tendon Bruce, W. See Svehla, M., 15 Chen, K.-S. See Lin, F.-H., 157 repair: Effects of initial seeding Brynda, E. Chen, Q. density on contraction kinetics, 233 —; Houska, M.; JirouSkova, M.; Dyr, —; Miyata, N.; Kokubo, T.; Aydil, E. S. See Alcantar, N. A., 343 J. E.: Albumin and heparin Nakamura, T.: Bioactivity and multilayer coatings for mechanical properties of blood-contacting medical devices, PDMS-modified CaO-SiO,-TiO, Bae, Y. H. See Vernon, B., 69 249 hybrids prepared by sol-gel Bakker, F. C. See Blokhuis, T. J., 369 Burdick, J. See Burkoth, A. K., 352 process, 605 Barry, M. A. See Godbey, W., 321 Burg, K. J. L. ; Chornet, E. See Chellat, F., 107 Becchetti, E. See Locci, P., 561 —; Holder, W. D., Jr.; Culberson, Chuang, W.-H. See Lin, J.-C., 413 Beiler, R. J. See Burg, K. J. L., 642 C. R.; Beiler, R. J.; Greene, K. G.; Chuang, W.-Y. See Wang, J.-H., 761 Belcastro, S. See Locci, P., 561 Loebsack, A. B.; Roland, W. D.; Chung, C. P. See Park, Y. J., 391 Journal of Biomedical Materials Research, Vol. , 772-777 (2000) AUTHOR INDEX Coleman, N. J. See Bellantone, M., —; Brown, P. W.: Calcium-deficient Gonzalez-Calbet, J. M. See 484 .° hydroxyapatite-PLGA composites: Rangavittal, N., 660 Colton, E. See Wood, E. M., 147 Mechanical and microstructural Goodman, M. See Johnson, G., 612 Connor, J. See Wood, E. M., 147 investigation, 726 Goodman, S. B. See Trindade, M. C., Craighead, H. G. See Turner, Dyr, J. E. See Brynda, E., 249 360 A. M. P., 430 Gornikiewicz, A. See Rausch—Fan, X., Culberson, C. R. See Burg, K. J. L., Eavarone, D. A. 88 , 642 —,; Yu, X.; Bellamkonda, R. V.: Gottenbos, B. See Poelstra, K. A., 224 Currie, L..M. See Wood, E. M., 147 Targeted drug delivery to C6 Grainger, D. W. See Poelstra, K. A., glioma by transferrin-coupled 224 liposomes (Student Research Greene, K. G. See Burg, K. J. L., 642 Daculsi, G. See Bouler, J.-M., 680 Award in the Undergraduate Griesser, H. J. See Johnson, G., 612 Damiani, F. See Locci, P., 561 , Degree Category, World Grijpma, D. W. See den Dunnen, Dankert, J. See Kuijpers, A. J., 136 Biomaterials Congress 2000, W. F. A., 575 Dauskardt, R. H. See Ohashi, K. L., Kamuela, HI, May 15-20, 2000), 10 Grunkemeier, J. M. 172 Eberhart, R. C. See Rangappa, N., 625 —; Tsai, W. B.; Alexander, M. R.; Davies, J. E. See Holy, C. E., 376 Eiselt, P. See Burg, K. J. L., 642 Castner, D. G.; Horbett, T. A.: Elisseeff, J. Platelet adhesion and procoagulant den Boer, F. C. See Blokhuis, T. J., 369 —; McIntosh, W.; Anseth, K.; Riley, activity induced by contact with den Dunnen, W. F. A. —; Meek, M. F.; Grijpma, D. W.; S.; Ragan, P.; Langer, R.: radiofrequency glow discharge Photoencapsulation of polymers: Roles of adsorbed Robinson, P. H.; Schakenraad, 024 chondrocytes in poly(ethylene fibrinogen and vWF, 669 J. M.: In vivo and in vitro oxide)-based semi-interpenetrating Gumargalieva, K. See Horak, D., 184 degradation of poly[?°/ 5» networks, 164 Guseinov, E. See Horak, D., 184 (°°/,5"/p)LA/e-CL], and the Engbers, G. H. M. See Kuijpers, A. J., implications for the use in nerve 136 Haarman, H. J. T. M. See Blokhuis, reconstruction, 575 Ergun, C. See Webster, T. J., 475 T. J., 369 DiCosmo, F. See DiTizio, V., 96 Haga, S. See Maeda, M., 55 Dijk, F. Feijen, J..See Kuijpers, A. J., 136 Halas, N. J. See Sershen, S. R., 293 —; Westerhof, M.; Busscher, H. J.; van —; See Zeeman, R., 541 Halberstadt, C. R. See Burg, K. J. L., Luyn, M. J. A.; van der Mei, H. C.: Fleiner, B. See Acil, Y., 703 642 In vitro formation of Forster, D. See Udipi, K., 549 Harris, M. T. See Awad, H. A., 233 oropharyngeal biofilms on silicone Franz, A. See Rausch-Fan, X., 88 Haytac, C. M. See Ozmeric, N., 500 rubber treated with a Frondoza, C. G. See Lahiji, A., 586 Heikkila, J. See Peltola, T., 200 palladium/tin salt mixture, 408 Fukui, A. See Maeda, M., 55 Hempel, U. See Geifler, U., 752 Dijkstra, P. J. See Zeeman, R., 541 Hench, L. L. See Oonishi, H., 37 Dillon, G. P. Gan, J. C. —; See Bellantone, M., 484 —; Yu, X.; Bellamkonda, R. V.: The —; Ducheyne, P.; Vresilovic, E.; Hendriks, M. See Zeeman, R., 541 polarity and magnitude of Shapiro, I. M.: Bioactive glass Hirvensalo, E. See Vuola, J., 117 ambient charge influences serves as a substrate for Holder, W. D., Jr. See Burg, K. J. L., three-dimensional neurite maintenance of phenotype of 642 extension from DRGs, 510 nucleus pulposus cells of the Holland, N. B. DiTizio, V. intervertebral disc, 596 —; Marchant, R. E.: Individual plasma —; Karlgard, C.; Lilge, L.; Khoury, Geifler, U. : proteins detected on rough A. E.; Mittelman, M. W.; DiCosmo, —; Hempel, U.; Wolf, C.; biomaterials by phase imaging F.: Localized drug delivery using Scharnweber, D.; Worch, H.; AFM, 307 crosslinked gelatin gels containing Wenzel, K.-W.: Collagen type Holy, C. E. liposomes: Factors influencing I-coating of Ti6bAl4V promotes —; Shoichet, M. S.; Davies, J. E.: liposome stability and drug adhesion of osteoblasts, 752 Engineering three-dimensional release, 96 Gerlach, R. F. bone tissue in vitro using Donath, K. See Roser, K., 280 —; Line, S. R. P.: Mechanisms of cell biodegradable scaffolds: Doremus, R. H. See Webster, T. J., 475 activation by metal ions: Influence Investigating initial cell-seeding Dowell, N. See Turner, A. M. P., 430 of pH (Letter to the Editor), 540 density and culture period, 376 Ducheyne, P. See Lu, H. H., 80 Ginsel, L. A. See Walboomers, X. F., Honda, Y. See Kunou, N., 635 —; See Gan, J. C., 596 S29 Horak, D. Dumitriu, S. See Chellat, F., 107 Godbey, W. —; Guseinov, E.; Vishnevskii, V.; Dunsche, A. See Acil, Y., 703 —; Barry, M. A.; Saggau, P.; Wu, Adamyan, A.; Kokov, L.; Tsvirkun, Durucan, C. K. K.; Mikos, A. G.: V.; Tchjao, A.; Titova, M.; Skuba, —; Brown, P. W.: Low temperature Poly(ethylenimine)-mediated N.; Trostenyuk, N.; Gumargalieva, formation of calcium-deficient transfection: A new paradigm for K.: Targeted chemoembolization of - hydroxyapatite-PLA/PLGA gene delivery, 321 tumors with poly(2-hydroxyethy] composites, 717 Goldberg, M. See Stanislawski, L., 469 methacrylate) particles, 184 AUTHOR INDEX Horbett, T. A. See Grunkemeier, J. M., Johnson, G. Kuriou, N. 669 —; Jenkins, M.; McLean, K. M.; —; Ogura, Y.; Honda, Y.; Hyon, S.-H.; Hoshino, T. Griesser, H. J.; Kwak, J.; Goodman, Ikada, Y.: Biodegradable scleral —; Muranishi, H.; Saito, K.; Notoya, M.; Steele, J. G.: Peptoid-containtng implant-for controlled intraocular K.; Makino, H.; Nagai, H.; Sohda, collagen mimetics with cell delivery of betamethasone T.; Ogawa, Y.: Enhancement of binding activity, 612 phosphate, 635 fracture repair in rats with Jokinen, M. See Peltola, T., 200 Kushida, A. streptozotocin-induced diabetes by —; Yamato, M.; Konno, C.; Kikuchi, a single injection of biodegradable . A.; Sakurai, Y.; Okano, T.: microcapsules containing a bone Kadiyala, S. See Awad, H. A., 233 Temperature-responsive culture dishes allow nonenzymatic harvest formation stimulant, TAK-778, 299 Kam, L. See Turner, A. M. P., 430 of differentiated Madin-Darby Houska, M. See Brynda, E., 249 Kamimura, M. See Shinzato, S., 258 Hubbard, G. B. See Phelps, J. B., 735 Kangasniemi, I. See Peltola, T., 200 canine kidney (MDCK) cell sheets, Hungerford, D. S. See Lahiji, A., 586 Karlgard, C. See DiTizio, V., 96 216 Hyon, S.-H. See Kunou, N., 635 ¢ Kawai, K. Kwak, J. See Johnson, G., 612 —; Tsuchitani, Y.: Effects of resin composite components on glucosyltransferase of cariogenic Lahiji, A. Ibrahim, R. E. See Awad, H. A., 233 bacterium, 123 —,; Sohrabi, A.; Hungerford, D. S.; Ikada, Y. See Maeda, M., 55 Khoury, A. E. See DiTizio, V., 96 Frondoza, C. G.: Chitosan supports —; See Kunou, N., 635 the expression of extracellular Kikuchi, A. See Kushida, A., 216 Inada, Y. See Maeda, M., 55 Kim, S. W. See Vernon, B., 69 matrix proteins in human Inoue, K. See Itou, K., 569 osteoblasts and chondrocytes, 586 Kin, S. See Oonishi, H., 37 Inoue, T. See Nakamura, M., 241 King, T. W. Landa-Canovas, A. R. See Isaacson, M. See Turner, A. M. P., 430 Rangavittal, N., 660 —,; Patrick, C. W., Jr.: Development Ishibashi, K. See Takebe, J., 398 and in vitro characterization of Langer, R. See Elisseeff, J., 164 Ishibashi-Ueda, H. See Nakayama, vascular endothelial growth factor Lee, J. Y. See Park, Y. J., 391 ¥; 520 Lee, S.J. See Park, Y. J., 391 (VEGF)-loaded poly(pL-lactic- Ishikawa, K. See Itou, K., 569 co-glycolic acid)/ poly(ethylene Lee, Y. M. See Park, Y. J., 391 Israelachvili, J. N. See Alcantar, LeGeros, R. Z. See Bouler, J.-M., 680 glycol) microspheres using a solid N. A., 343 Lerouge, S. encapsulation/single Itoh, H. See Jin, O.-M., 491 —; Wertheimer, M. R.; Marchand, R.; emulsion/solvent extraction Itoh, S. See Takebe, J., 398 Tabrizian, M.; Yahia, L.: Effect of technique, 383 Itou, K. gas composition on spore Kinnunen, J. See Vuola, J., 117 —; Torii, Y.; Nishitani, Y.; Ishikawa, mortality and etching during Kishen, A. he K.; Suzuki, K.; Inoue, K.: Effect of low-pressiire plasma sterilization, —; Ramamutrty, U.; Asundi, A.: self-etching primers containing 128 Experimental studies on the nature N-acryloyl aspartic acid on dentin Liao, C.-J. See Lin, F.-H., 157 of property gradients in the adhesion, 569 Lilge, L. See DiTizio, V., 96 human dentine, 650 Iwata, H. See Maeda, M., 55 Lilli, C. See Locci, P., 561 Izquierdo-Barba, I. Kitamura, Y. See Shinzato, S., 258 Lin, C.-Y. See Lin, F.-H., 157 —; Salinas, A. J.; Vallet-Regi, M.: Kobayashi, M. See Shinzato, S., 258 Lin, F.-H. Effect of the continuous solution Kohgo, T. See Jin, Q.-M., 491 —,; Liao, C.-J.; Chen, K.-S.; Sun, J.-S.; exchange on the in vitro reactivity Kokov, L. See Horak, D., 184 Lin, C.-Y.: Preparation of Kokubo, T. See Shinzato, S., 258 BTCP/HAP. biphasic ceramics of a CaO-SiO, sol-gel glass, 191 —; See Chen, Q., 605 with natural bone structure by Konno, C. See Kushida, A., 216 heating bovine cancellous bone Kopeéek, J. See Wroblewski, S., 329 with the addition of (NH,),HPO,, Jansen, J. A. See Walboomers, X. F., Kopeckova, P. See Wréblewski, S., 157 529 329 Lin, J.-C. Jenkins, M. See Johnson, G., 612 Krijgsveld, J. See Kuijpers, A. J., 136 —; Chuang, W.-H.: Synthesis, surface Jensen-Jarolim, E. See Rausch—Fan, Ku, Y. See Park, Y. J., 391 characterization, and platelet X., 88 Kuboki, Y. See Jin, Q.-M., 491 reactivity evaluation for the Jepsen, S. See Acil, Y., 703 Kuijpers, A. J. self-assembled monolayer of Jin, Q.-M. —; van Wachem, P. B.; van Luyn, alkanethiol with sulfonic acid —,; Takita, H.; Kohgo, T.; Atsumi. K.; M. J. A.; Plantinga, J. A.; Engbers, functionality, 413 Itoh, H.; Kuboki, Y.: Effects-of G. H. M.; Krijgsveld, J.;.Zaat, Line, S. R. P. See Gerlach, R. F., 540 geometry of hydroxyapatite as a S. A. J.; Dankert, J.; Feijen, J.: In Locci, P. : cell substratum in BMP-induced vivo compatibility and degradation —; Marinucei, L.; Lilli, C.; Belcastro, ectopic bone formation, 491 of crosslinked gelatin gels S.; Staffolani, N.; Bellocchio, S.; JirouSkova, M. See Brynda, E., 249 incorporated in knitted Dacron, Damiani, F.; Becchetti, E.: Johansson, C. B. See Réser, K., 280 136 Biocompatibility- of alloys used in AUTHOR INDEX orthodontics evaluated by cell analysis of tissue ingrowth in Peltola, T. culture“tests, 561 excimer laser-directed micropored —; Jokinen, M.; Rahiala, H.; Patsi, M.; Loebsack, A. B. See Burg, K. J. L., 642 scaffold for cardiovascular tissue Heikkila, J.; Kangasniemi, [.; Lu, H. H. engineering, 520 Yli-Urpo, A.: Effect of aging time —; Pollack, S. R.; Ducheyne, P.: Nelson, K. D. See Rangappa, N., 625 of sol on structure and in vitro Temporal zeta potential variations calcium phosphate formation of Neo, M. See Shinzato, S., 258 of 45S5 bioactive glass immersed Nicolardi, G. See Ramires, P. A., 535 sol-gel-derived titania films, 200 in an electrolyte solution, 80 Pemberton, J. E. See Schoenfisch, Nishi, S. See Nakayama, Y., 520 M. H., 209 . s Nishitani, Y. See Itou, K., 569 ~~ Norman, T. L. See Yeni, Y. N., 504 Pérez-Pariente, J. See Vallet-Regi, M., 23 Ma, L. Notoya, K. See Hoshino, T., 299 Perianin, A. See Stanislawski, L., 469 —,; Sines, G.: Fatigue behavior of a. Phelps, J. B. pyrolytic carbon, 61 —; Hubbard, G. B.; Wang, X.; Maeda, M. Agrawal, C. M.: Microstructural —; Fukui, A.; Nakamura, T.; Inada, Ogata, S. See Maeda, M., 55 heterogeneity and the fracture Y.; Tamai, S.; Haga, S.; Ogawa, Y. See Hoshino, T., 299 toughness of bone, 735 Tatsumi-Nagano, K.; Yamamoto, Ogura, Y. See Kunou, N., 635 Pichora, D. R. See Carey, J., 711 H.; Ogata, S.; Iwata, H.; Ikada, Y.: Ohashi, K. L. Plantinga, J. A. See Kuijpers, A. J., 136 Progenitor endothelial cells on vascular grafts: an ultrastructural —; Dauskardt, R. H.: Effects of fatigue Poelstra, K. A. study, 55 loading and PMMA precoating on —; van der Mei, H. C.; Gottenbos, B.; Magny, P. See Chellat, F., 107 the adhesion and subcritical Grainger, D. W.; van Horn, J. R.; Busscher, H. J.: Pooled human Makino, H. See Hoshino, T., 299 debonding of prosthetic- PMMA immunoglobulins reduce adhesion Maloney, W. J. See Trindade, M. C., interfaces, 172 of Pseudomonas aeruginosa in a 360 Okada, J. See Takebe, J., 398 parallel plate flow chamber, 224 Marchand, R. See Lerouge, S., 128 Okano, T. See Kushida, A., 216 Pollack, S. R. See Lu, H. H., 80 Marchant, R. E. See Holland, N. B., 307 Oonishi, H. Marinucci, L. See Locci, P., 561 —; Hench, L. L.; Wilson, J.; Sugihara, Matsuda, T. See Nakayama, ¥ 2520 F.; Tsuji, E.; Matsuura, M.; Kin, S.; Ragan, P. See Elisseeff, J., 164 Matsuura, M. See Oonishi, H., 37 Yamamoto, T.; Mizokawa, S.: Ragel, C. V. McIntosh, W. See Elisseeff, J., 164 Quantitative comparison of bone —; Vallet—-Regi, M.: In vitro bioactivity ‘McLean, K. M. See Johnson, G., 612 growth behavior in granules of and gentamicin release from Meek, M. F. See den Dunnen, Bioglass®, A-W glass-ceramic, and glass—polymer-antibiotic W. F. A., 575 hydroxyapatite, 37 composites, 424 Mikos, A. G. See Godbey, W., 321 Ornberg, R. L. See Udipi, K., 549 Rahiala, H. See Peltola, T., 200 Mirenghi, L. See Ramires, P. A., 535 Ovadia, M. See Schoenfisch, M. H., Ramamutrty, U. See Kishen, A., 650 Mittelman, M. W. See DiTizio, V., 96 209 Ramires, P. A. Miyata, N. See Chen, Q., 605 Ozcan, G. See Ozmeric, N., 500 —; Mirenghi, L.; Romano, A. R.; Mizokawa, S.,See Oonishi, H., 37 Ozmeric, N. Palumbo, F.; Nicolardi, G.: Mooney, D.J. See Burg, K. J. L., 642 —; Ozcan, G.; Haytag, C. M.; Plasma-treated PET surfaces Morberg, P. See Svehla, M., 15 Mousa, W. F. See Shinzato, S., 258 Alaaddino§glu, E. E.; Sargon, M. F.; improve the biocompatibility of Senel, S.: Chitosan film enriched human endothelial cells (Technical Muranishi, H. See Hoshino, T., 299 Murray, J. See Abraham, G. A., 442 with an antioxidant agent, taurine, Note), 535 in fenestration defects, 500 Rangappa, N. —; Romero, A.; Nelson, K. D.; Eberhart, R. C.; Smith, G. M.: Nagai, H. See Hoshino, T., 299 Laminin-coated poly(L-lactide) Nakamura, M. filaments induce robust neurite Palumbo, F. See Ramires, P. A., 535 —; Inoue, T.; Shimono, M.: growth while providing Park, S. N. See Park, Y. J., 391 Immunohistochemical study of directional orientation, 625 Park, Y. J. dental pulp applied with’ Rangavittal, N. 4-META/MMA-TBB adhesive —; Lee, Y. M.; Park, S. N.; Lee, J. Y.;° —; Landa-Canovas, A. R.; resin after pulpotomy, 241 Ku; Y.; Chung; €: P.; Lee, S: J. Gonzalez-Calbet, J. M.; Vallet-Regi, Nakamura, T. See Maeda, M., 55 Enhanced guided bone M.: Structural study and stability —; See Shinzato, S., 258 regeneration by controlled of hydroxyapatite and B-tricalcium —; See Chen, Q., 605 tetracycline release from phosphate: Two important Nakayama, Y. poly(L-lactide) barrier membranes, bioceramics, 660 —; Nishi, S.; Ishibashi-Ueda, H.; 391 Rausch-Fan, X. : Matsuda, T.: Surface Patka, P. See Blokhuis, T. J., 369 —; Schedle, A.; Franz, A.; Spittler, A.; microarchitectural design in Patrick, C. W., Jr. See King, T. W., 383 Gornikiewicz, A.; Jensen—Jarolim, biomedical applications: In vivo Patsi, M. See Peltola, T., 200 E.; Sperr, W.; Boltz—Nitulescu, G..: 776 AUTHOR INDEX Influence of dental amalgam and photothermally modulated drug Takebe, J. heavy metal cations on in vitro delivery (Young Investigator —-; Itoh, S.; Okada, J.; Ishibashi, K.: interleukin-18 production by Award, World Biomaterials Anodic oxidation and human peripheral blood Congress 2000, Kamuela, HI, May hydrothermal treatment of mononuclear cells, 88 15-20, 2000), 293 titanium results in a surface that Riley, D. See Udipi, K., 549 Settle, S. L. See Udipi, K., 549 causes increased attachment and Riley, S. See Elisseeff, J., 164 Shain, W. See Turner, A. M. P., 430 altered cytoskeletal morphology of Rivard, C.-H. See Chellat, F., 107 Shapiro, I. M. See Gan, J. C., 596 rat bone marrow stromal cells in Robinson, P. H. See den Dunnen, Shen, H. See Tan, J., 694 vitro, 398 W. F.. A.,.575 % Shimono, M. See Nakamura, M., 241 Takita, H. See Jin, Q.-M., 491 Roland, W. D. See Burg, K. J. L., 642 Shinzato, S. Tamai, S. See Maeda, M., 55 Romano, A. R. See Ramires, P. A., 535 —; Kobayashi, M.; Mousa, W. F°; Tan, J. Romero, A. See Rangappa, N., 625 Kamimura, M.; Neo, M.; Kitamura, —; Shen, H.; Carter, K. L.; Saltzman, Rondelli, G. Y.; Kokubo, T.; Nakamura, T.: W. M.: Controlling human —; Vicentini, B.: Evaluation by ., Bioactive polymethyl polymorphonuclear leukocytes electrochemical tests of the passive methacrylaté-based bone cement: motility using microfabrication film stability of equiatomic Ni-Ti Comparison of glass beads, technology, 694 alloy also in presence of apatite- and wollastonite- Tanner, K. See Ton That, P., 453 stress-induced martensite, 47 containing glass-ceramic, and —; See Ton That, P., 461 Roser, K. hydroxyapatite fillers on Tateishi, T. See Chen, G., 273 —,; Johansson, C. B.; Donath, K.; mechanical and biological Tatsumi-Nagano, K. See Maeda, M., 55 Albrektsson, T.: A new approach properties, 258 Tchjao, A. See Horak, D., 184 to demonstrate cellular activity in Shoichet, M. S. See Holy, C. E., 376 Tebbett, I. R. See Ross, E. A., 29 bone formation adjacent Siegel, R. W. See Webster, T. J., 475 Tengvall, P. See Wetter6, J., 742 to implants, 280 Sines, G. See Ma, L., 61 Terheyden, H. See Acil, Y., 703 Ross, E. A. Skuba, N. See Horak, D., 184 Tesk, J. —; Branham, M. L.; Tebbett, I. R.: Small, C. F. See Carey, J., 711 —,; NIST workshop on needs for Optimization of ligand Smith, G. M. See Rangappa, N., 625 reference biomaterials, 155 presentation for immunoadsorption Smith, R. L. See Trindade, M. C., 360 Thierry, B. using star-configured polyethylene Sohda, T. See Hoshino, T., 299 —,; Tabrizian, M.; Trepanier, C.; glycols, 29 Soheili-Majd, E. See Stanislawski, L., Savadogo, O.; Yahia, L.’H.: Effect Ruddell, D. E. 469 of surface treatment and —; Thompson, J. Y.; Stoner, B. R.: Sohrabi, A. See Lahiji, A., 586 sterilization processes on the Mechanical properties of a dental Sonnabend, D. See Svehla, M., 15 corrosion behavior of NiTi shape ceramic coated by RF magnetron Sperr, W. See Rausch-Fan, X., 88 memory alloy; 685 sputtering, 316 Spittler, A. See Rausch-Fan, X., 88 Thompson, J. Y. See Ruddell, D. E., Staffolani, N. See Locci, P., 561 316 Stanislawski, L. Thurmond, K. B., III See Udipi, K., Saggau, P. See Godbey, W., 321 —; Soheili—Majd, E.; Perianin, A.; 549 Saito, K. See Hoshino, T., 299 Goldberg, M.: Dental restorative Titova, M. See Horak, D., 184 Sakurai, Y. See Kushida, A., 216 biomaterials induce glutathione Ton That, P. Salinas, A. J. See Izquierdo-Barba, I., depletion in cultured human —; Tanner, K. E.; Bonfield, W.: 191 gingival fibroblast: Protective Fatigue characterization of a Saltzman, W. M. See Tan, J., 694 effect of N-acetyl cysteine, 469 hydroxyapatite-reinforced Sargon, M. F. See Ozmeric, N., 500 Steele, J. G. See Johnson, G., 612 polyethylene composite. I. Uniaxial Savadogo, O. See Thierry, B., 685 Stoner, B. R. See Ruddell, D. E., 316 fatigue, 453 Schakenraad, J. M. See den Dunnen, Sugihara, F. See Oonishi, H., 37 —; Tanner, K. E.; Bonfield, W.: W.F. A., 575 Sullivan, S.J. See Abraham, G. A., 442 Fatigue characterization of a Scharnweber, D. See Geifler, U., 752 Sun, J.-S. See Lin, F.-H., 157 hydroxyapatite-reinforced Schedle, A. See Rausch—Fan, X., 88 Suzuki, K. See Itou, K., 569 polyethylene composite. II. Biaxial Schoenfisch, M. H. Svehla, M. fatigue, 461 —; Ovadia, M.; Pemberton, J. E.: —; Morberg, P.; Zicat, B.; Bruce, W.; Torii, Y. See Itou, K., 569 Covalent surface chemical Sonnabend, D.; Walsh, W. R.: Trepanier, C. See Thierry, B., 685 modification of electrodes for Morphometric and mechanical Trindade, M. C. cardiac pacing applications, 209 evaluation of titanium implant —; Schurman, D. J.; Maloney, W. J.; Schurman, D. J. See Trindade, M. C., integration: Comparison of five Goodman, S. B.; Smith, R. L.: 360 surface structures, 15 G-protein activity requirement for Senel, S. See Ozmeric, N., 500 polymethylmethacrylate and Sershen, S. R. titanium. particle-induced —; Westcott, S. L.; Halas, N. J.; West, Tabrizian, M. See Chellat, F., 107 fibroblast interleukin-6 and J. L.: Temperature-sensitive —,; See Lerouge, S., 128 monocyte chemoattractant polymer-nanoshell composites for —; See Thierry, B., 685 protein-1 release in vitro, 360 AUTHOR INDEX N N Trostenyuk, N. See Horak, D., 184 inhibition of endothelial cell inflammatory cytokine production Tsai, W. B: See Grunkemeier, J. M., 669 function on biomaterials (Student during blood platelet storage: An , Tsuchitani, Y. See Kawai, K., 123 Research Award in the in vitro model with implications Tsuji, E. See Oonishi, H., 37 Undergraduate Degree Category, for transfusion practice Tsvirkun, V. See Horak, D., 184 World Biomaterials Congress 2000, (Outstanding Research by a Turner, A. M. P. Kamuela, HI, May 15-20, 2000), 1 Resident or Clinical Fellow, World —;-Dowell, N.; Turner, S. W. P.; Kam, Vresilovic, E. See Gan, J. C., 596 Biomaterials Congress 2000, ' _L.; Isaacson, M.; Turner, J. N.; Vuola, J. Kamuela, HI, May 15-20, 2000), Craighead, H. G.; Shain, W.: —; Bohling, T.; Kinnunen, J.; 147 ~Attachment of astroglial cells to Hirvensalo, E.; Asko-Seljavaara, S.: Worch, H. See Geifsler, U.; 752 microfabricated pillar arrays of Natural coral as bone-defect-filling Wroblewski, S. different geometries, 430 material, 117 —; Berenson, M.; Kopetkova, P.; Turner, J. N. See Turner, A. M. P., 430 Kopeéek, J.: Biorecognition of Turner, S. W. P. See Turner, A. M. P., HPMA copolymer-lectin 430 Walboomers, X. F. conjugates as an indicator of —; Ginsel, L. A.; Jansen, J. A.: Early differentiation of cell-surface spreading events of fibroblasts on glycoproteins in development, Udipi, K. microgrooved substrates, 529 maturation, and diseases of human —,; Ornberg, R. L.; Thurmond, K. B., Walsh, W. R. See Svehla, M., 15 and rodent gastrointestinal tissues, II; Settle, S. L.; Forster, D.; Riley, Wang, J.-H. 329 D.: Modification of inflammatory —; Yao, C.-H.; Chuang, W.-Y.; Young, Wu, K. K. See Godbey, W., 321 response to implanted biomedical T.-H.: Development of Wu, Y. See Awad, H. A., 233 materials in vivo by surface bound biodegradable polyesterurethane superoxide dismutase mimics, 549 membranes with different surface Ushida, T. See Chen, G., 273 morphologies for the culture of Yahia, L.’H. See Chellat, F., 107 osteoblasts, 761 —; See Lerouge, S., 128 Vallet-Regi, M. Wang, X. See Phelps, J. B., 735 —; See Thierry, B., 685 —,; Arcos, D.; Pérez-Pariente, J.: Webster, T. J. Yamamoto, H. See Maeda, M., 55 Evolution of porosity during in —,; Ergun, C.; Doremus, R. H.; Siegel, Yamamoto, T. See Oonishi, H., 37 vitro hydroxycarbonate apatite R. W.; Bizios, R.: Specific proteins Yamato, M. See Kushida, A., 216 growth in sol-gel glasses, 23 mediate enhanced osteoblast Yao, C.-H. See Wang, J.-H., 761 2—; See Izquierdo-Barba, I., 191 adhesion on nanophase ceramics, Yeni, Y. N. —; See Ragel, C. V., 424 ; 475 —; Norman, T. L.: Calculation of —,; See Rangavittal, N., 660° Wenzel, K.-W. See Geifler, U., 752 porosity and osteonal cement line van Horn, J. R. See Poelstra, K. A., Wertheimer, M. R. See Lerouge, S., effects on the effective fracture 224 128 ! toughness of cortical bone in van der Mei, H. C. See Poelstra, West, J. L. See Sershen, S. R., 293 longitudinal crack growth, 504 K. A., 224 Westcott, S. L. See Sershen, S. R., 293 Yli-Urpo, A. See Peltola, T., 200 —,; See Dijk, F., 408 Westerhof, M. See Dijk, F., 408 Yomtovian, R. A. See Wood, E. M., van Lingen, A. See Blokhuis, T. J., 369 Wetters, J. 147 van Luyn, M. J. A. See Kuijpers, A. J., —; Bengtsson, T.; Tengvall, P.: Young, R. G. See Awad, H. A., 233 136 Complement activation on Young, T.-H. See Wang, J.-H., 761 —; See Dijk, F., 408 immunoglobulin G-coated Yu, X. See Eavarone, D. A., 10 —; See Zeeman, R., 541 hydrophobic surfaces enhances the —-; see Dillon, G. P., 510 van Wachem, P. B. See Kuijpers, A. J., release of oxygen radicals from 136 neutrophils through an actin- —; See Zeeman, R., 541 dependent mechanism, 742 Zaat, S. A. J. See Kuijpers, A. J., 136 Vernon, B. Wilson, J. See Oonishi, H., 37 Zeeman, R. —; Kim, S. W.,; Bae, Y. H.: Wippermann, B. W. See Blokhuis, —,; Dijkstra, P. J.; van Wachem, P. B.; Thermoreversible copolymer gels T. J.,.369 van Luyn, M. J. A.; Hendriks, M.; for extracellular matrix*, 69 Wolf, C. See Geifsler, U., 752 Cahalan, P. T.; Feijen, J.: The Vicentini, B. See Rondelli, G., 47 Wood, E. M. kinetics of 1,4-butanediol Vishnevskii, V. See Horak, D., 184 —; Colton, E.; Yomtovian, R. A.; diglycidyl ether crosslinking of Voskerician, G. Currie, L. M.; Connor, J.; dermal sheep collagen, 541 —,; Anderson, J. M.; Ziats, N. P.: High Anderson, J. M.: Prevention of Ziats, N. P. See Voskerician, G., 1 molecular weight kininogen monocyte adhesion and Zicat, B. See Svehla, M., 15 Journal of Biomedical Materials Research Subject Index—Volume 51 a-tricalcium phosphate hydrolysis, Biocompatibility, 47, 107, 209 Ceramics, 316, 475 726 Biocompatibility tests, 535 Chemical grafting of PEG, 343 a2B1 integrin receptor, 612 Biocompatible coating, 343 Chemoembolization, 184 A-W glass-ceramics, 37 Biocompatible surface, 343 Chitosan, 500, 510, 586 AFM, 307 Biodegradable polymer, 273, 717, 726 Chitosan-xanthan hydrogel, 107 Absorbable, 642 Biodegradable scleral implant, 635 Chondroitin sulfate, 510 Acrylic acid, 69 Biodegradation, 117, 136, 761 Chrondrocytes, 586 Actin cytoskeleton, 742 Biofilm formation, 408 ‘ Coating, 316 Adhesion, 172, 475, 694,752 4585 Bioglass®, 37 Colitis, 329 Adsorption of plasma proteins, 249 Biohybrid artificial pancreas, 69 Collagen, 273, 541, 703 Agarose, 510 Biomaterials, 1 Collagen biomaterial, 442 Age, 735 Bioresorbable polymers, 625 Collagen crosslinks (pyridinoline), 703 Aging of sol, 200 Biphasic calcium phosphate, 157 Collagen gel, 233 Albumin-heparin multilayer coatings, Biphasic calcium phosphates, 680 Collagen mimetics, 612 249 Blood compatibility, 413 Collagen type I-coating, 752 Alkanethiol self-assembled Blood mononuclear cells, 88 Colon-specific drug delivery, 329 monolayers, 209 Bone, 15, 376, 735 Complement, 742 Alpha-tricalcium phosphate Bone composite, 726 Composite, 453, 461 hydrolysis, 717 Bone defects, 369 Compression, 453 Amalgam, 123 Bone formation, 491 Contact guidance, 529 Amiloride, 147 Bone fracture, 299 Continuous in vitro studies, 191 Animal, 500 Bone growth, 37 Contractile force, 216 Anodic titanium oxide, 398 Bone marrow, 369 Contraction kinetics, 233 Antibodies, 224 Bone marrow cell responses, 398 Controlled release, 293, 391 Antimicrobial, 484 Bone substitutes, 117 Coral, 117, - Antioxidant N-acetylcysteine, 469 Bone transplantation, a7 Corneal epithelial cells, 612 Apatite, 23 Corrosion behavior, 685 Apatite- and wollastonite-containing C6 glioma, 10 Cortical bone,.504 glass-ceramic (AW-GC), 258 CD34, 55 Covalent surface modification, 209 Apatite-like layer, 424 CaO-SiO, system, 191 Crack propagation, 735 Artificial heart valve, 61 Calcium carbonate, 117 Crosslinked gelatin, 96 Astroglial cells, 430 Calcium phosphate layer, 80 Crosslinking, 136, 541 Autoimmunity, 29 Calcium phosphates, 369 Cytokine/chemokine, 360 Autologous bone grafting, 369 Calcium-deficient apatite, 680 Cytokines, -107,.147 Calcium-deficient hydroxyapatite, B-TCP, 660 AL, 720 Decomposition, 660 BMP, 491 Cancellous bone, 605 Dental amalgam, 88 Bacterial adhesion, 224 Carbodiimide, 136 Dental biomaterials, 469 Bacteriostatic, 484 Cartilage, 164 Dental materials, 316, 561 Barrett’s esophagus, 329 Cell adhesion, 1 Dental pulp, 241 Betamethasone phosphate, 635 Cell attachment, 398, 529 Dentin adhesion, 569 Biaxial fatigue, 461 Cell binding peptides, 612 Device-related infection, 96 Bioactive, 258 Cell differentiation, 491 Diabetic rats, 299 Bioactive glass, 80, 424, 484, 596 Cell migration, 1 Digital photoelasticity, 650 Bioactive glasses, 23 Cell morphology, 398 ° Dip coating, 200 Bioactive sol-gel glass, 191 Cell proliferation, 1, 561 Dorsal root ganglia, 625 Bioactivity, 80, 605 Cellular adaptability, 391 Doxorubicin, 10 Bioceramic, 157 Cement line, 504 Drug delivery, 383 Journal of Biomedical Materials Research, Vol. 51, 778-780 (2000) SUBJECT INDEX NIS ]\ o e-CL and LLA-crystals, 575 Immunoglobulin, 224 Neuro-filament protein, 241 Effective surface, 575 Implants, 280 Neutrophil, 694 Elastic modulus, 711 In-phase, 461 Neutrophil respiratory burst, 742 Electrochemical test, 47 Indentation testing, 711 Ni-Ti, 47 Electropolishing, 685 Infection, 224 NiTi alloy, 685 Eluate, 123 Inflammatory response, 549 Nucleus pulposus, 596 Embalmed glenoid labrum, 711 Ingrowth/ongrowth, 15 Endothelial cells, 1 Inorganic—organic hybrid, 605 O./CEF,, 128 Endothelial cells, 535 in situ testing, 711 OHAP, 660 Enzyme histochemistry and Integrin B1, 752 Opsonization, 224 ' immunohistology, 280 Interaction with platelets, 249 Orthopedic, 369 Epoxy compounds, 541 Interleukin-1, 88 Orthopedic/ dental, 475 Etching, 128 Intervertebral disc, 596 Osteoblast, 752 Excimer laser, 520 Intraocular drug delivery, 635 Osteoblasts, 475, 586, 761 Extracellular matrix, 586 in vitro, 529 Osteoconductivity, 258 in vitro bioactivity, 424 Osteon, 504 Factorial design method, 680 in vivo and in vitro degradation, 575 Out-of-phase, 461 Fatigue, 61, 172, 453 in vivo durability, 249 Fibrinogen, 307, 669 Ion release, 685 PEG liposome, 10 Fibroblast, 360 PLGA, 635 Fibroblasts, 469 Kinetics, 541 PLLA filaments, 625 Flk-1, 55 PNS regeneration, 625 Flow chamber, 224 LRM55 cells, 430 PTFE, 55 Fracture, 316 Laminin, 625 pl?’/ so /15' /p)LA/e-CL], 575 Fracture toughness, 504, 735 ‘Ligands, 29 Pacemaker, 209 Functional gradients, 650 Liposomes, 96 Palladium/tin salt, 408 Longitudinal crack growth, 504 Particle, 360 G protein, 360 Low-pressure plasma, 128 Passive film, 47 Gelatin, 136 Lupus, 29 Pendant groups, 541 Gene delivery, 321 Peptoids, 612 Gentamicin release, 424 MDCK cells, 216 Periodontium, 500 Geometry, 491 4-META/MMA-TBB adhesive resin, Phagocytosis, histological studies, 107 Glass—polymer composites, 424 241 Photografting, 352 Glial scar, 510 : mRNA, 88 Photopolymerization, 164, 352 Glucan, 123 Magnetron sputtering, 316 Physical pattern, 694 Glucosyltransferase, 123 Martensite, 47 Pillars, 430 Glutathione, 469 Mechanical property, 605 Plasma polymers, 669 Glycosaminoglycan accumulation, 561 Mechanism of spore destruction, 128 Plasma treatments, 535 Graft healing, 55 Medical lasers, 293 Platelet adhesion, 413, 669 Guided tissue regeneration, 391 Mesenchymal stem cells, 233 Platelet storage, 147 Metal cations, 88 Poly(2-hydroxyethyl methacrylate), HCA formation, 200 Metal ions, 561 184 HPMA copolymer-lectin—drug Metastases, 184 Poly(p,L-lactide-co-glycolide), 635 conjugates, 329 Microcapsules, 299 Poly(pt-lactide-co-glycolide), 383 HREM, 660 Microfabrication, 694 Poly(DL-lactic-co-glycolic acid), 273 High-molecular-weight kininogen, 1 Microgrooves, 529 Poly(L-lactide) membranes, 391 Histones, 29 Microhardness, 735 Poly(lactide-co-glycolide), 376, 717, Human gingival fibroblasts, 561 Microindentation, 650 726 Hybrid layer, 569 Micropore, 520 Poly-L-lysine, 321 Hybrid sponge, 273 Microspheres, 383 Poly(N-isopropylacrylamide), 216 Hydrogel, 164, 293 Mineralization, 650 Polyanhydride, 352 Hydrogel particles, 184 Monocyte adhesion, 147 Polyesterurethane membranes, 761 Hydrogel-coated catheter Morphometry, 233 Polyethylene, 453, 461 ciprofloxacin, 96 Motility, 694 Polyethylene glycol, 343 Hydrothermal treatment, 398 Polyethyleneterephthalate, 535 Hydroxyapatite, 15, 37, 157, 453, 461, N-acryloyl aspartic acid, 569 Polyethylenimine, 321 491 N-isopropylacrylamide, 69 Polyglycolide, 642 Hydroxyapatite (HA), 258 NIPAAm, 293 Polylactic acid, 717 Nanophase, 475 Polymer biomaterials, 307 IgG, 742 Nanotechnology, 293 Polymer degradation, 383 Image processor, 37 Nerve guide, nerve regeneration, 575 Polymethyl methacrylate (PMMA), Immunoadsorption, 29 Nerve regeneration, 510 258 SUBJECT INDEX Polymethylmethacrylate, 172 Silver, 484 Threé-dimensional osteoblast culture, Polyurethane, 549 Soft-tissue repair, 442 703 Porcine submucosa, 442 Sol-gel, 484 ThromboSol™, 147 Porosity, 23, 391 Sol-gel method, 23 Tissue engineering, 164, 216, 233, 273, Porous, 157 Sol-gel process, 605 376, 520, 596, 642 Porous natural bone mineral Static in vitro studies, 191 Tissue ingrowth, 520 (Bio-Oss®), 703 Stents, 685 Tissue reaction, 136 Porous surface, 15 Sterilization, 128 . Titania films, 200 Procoagulant activity, 669 Sterilization techniques, 685 Titanium alloy, 752 Progenitor endothelial cells, 55 Structural stiffness, 711 Torsion, 453 Proliferating cell nuclear antigen, 241 Subcritical debonding, 172 Total joint arthroplasty, 360 Proliferation, 642 Sulfonic acid, 413 Total joint replacements, 172 Protein adsorption, 307 Superoxide dismutase mimics, 549 Transfection, 321 Pseudomonas, 224 Surface area, 23 Transferrin receptor, 10 Pulpotomy, 241 Surface characterization, 413 Tumors, 184 Push-out, 15 Surface charge, 80 Ultrahigh molecular weight Pyrolytic carbon, 61 Surface erosion, 352 _ polyethylene, 549 Surface properties, 761 Quantification, 280 Surface topography, 200 Uveitis, 635 Sustained-release, 299 VEGF, 383 Resin component, 123 Synthesis process, 680 vWE, 669 Resin composite, 123 Vascular graft, 55 Rietveld profile, 660 TAK-778, 299 Vascular grafts, 1, 535 TF antigen, 329 Voice prosthesis, 408 Scaffold design, 520 Targeted drug delivery, 10 Scaffolds, 376 Taurine, 500 Weibull statistics, 61 Seeding, 642 Temperature-responsive culture Wells, 430 Self-assembled monolayer, 413 surfaces, 216 Wettability, 742 Self-etching primer, 569 Tensile bond strength, 569 Wound healing, 500 Silica, silicon oxide, 343 Tension, 453 X-ray imaging, 650 Silicon, 430 Tetracycline, 391 Silicone rubber, 408 Thermal reversibility, 69 Zeta potential, 80

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