Table Of ContentJournal of Biomedical Materials Research
Author Index—Volume 60
Aguado, E. See Khairoun, I., 633 Blunn, G. W.; Bell, C. J.; Yahia, Caterson, E. J. See Li, W.-J., 613
Akutsu, T. See Shimizu, T., 110 L’H.; Amstutz, H. C.: Polyethylene Ceballos, D.
Aldred, S. See Barralet, J. E., 360 wear characteristics in vivo and in —; Valero-Cabré, A.; Valderrama, E.;
Alexakis, C. See Meddahi, A., 497 a knee simulator, 411 Schiittler, M.; Stieglitz, T.;
Amis, E. J. See Washburn, N. R., 20 Bell, C. J. See Beaulé, P. E., 411 Navarro, X.: Morphologic and
Amstutz, H. C. See Beaulé, P. E., 411 Bellamkonda, R. V. See Kader, K. N., functional evaluation of peripheral
Anastase-Ravion, S. 405 nerve fibers regenerated through
—; Carreno, M.-P.; Blondin, C.; Berry, L. See Cornelius, R. M., 622 polyimide sieve electrodes over
Ravion, O.; Champion, J.; Chaubet, Beutler, T. See Li, D., 325 long-term implantation, 517
F.; Haeffner-Cavaillon, N.; Bhatia, S. N. See Liu, V. A., 126 Ceballos, L. See Osorio, R., 316
Letourneur, D.: Heparin-like Bigerelle, M. See Anselme, K., 529 Champion, J. See Anastase-Ravion, S.,
polymers modulate Blondin, C. See Anastase-Ravion, S., 375
proinflammatory cytokine aD Chan, A. K. C. See Cornelius, R. M.,
production by lipopolysaccharide- Blunn, G. W. See Beaulé, P. E., 411
622
stimulated human monocytes, 375 Bosetti, M. Chang, C. C. See, Rosenson-Schloss,
Anderson, J. M. See Collier, T. O., 487 —; Hench, L.; Cannas, M.: Interaction RSe6
Anderson, J. M. See Shive, M.S., 148 of bioactive glasses with peritoneal
Chang-Chien, C. See Matsumoto, T.,
Ando, K. See Shinzato, S., 556 macrophages and monocytes in
651
Angello, J. C. See McDevitt, T. C., 472 vitro, 79
Chapman-Sheath, P. J. See Yu, Y., 392
Anselme, K. Bouler, J. M. See Khairoun, I., 633
Chaubet, F. See Anastase-Ravion, S.,
—; Bigerelle, M.; Noél, B.; Iost, A.; Boyan, B. D. See Bannister, S. R., 167
375
Hardouin, P.: Effect of grooved Braham, C. See Millet, P., 679
Chaubet, F. See Letourneur, D., 94
titanium substratum on human Brash, J. L. See Cornelius, R. M., 622
Chehroudi, B. See Wieland, M., 434
osteoblastic cell growth, 529 Brash, J. L. See Jahangir, A. R., 135
Chen, C.-C.
Aparicio, C. See Rodriguez-Lorenzo, Brodbeck, W. G. See Shive, M.S., 148
—~, Chen, R..C.-5,; Huane,.-1.:
L. M., 159 Brown, R. F. See Conzone, S. D., 260
Enzymatic responses of human
Archambault, J. G. See Cornelius, Brunette, D. M. See Wieland, M., 434
deciduous pulpal fibroblasts to
R. M., 622 Buck, D.C. See Frank, E. H., 118
dental restorative materials, 452
Asano, T. See Uchida, M., 277 Buser, D. See Li, D., 325
Chen, R. C.-S. See Chen, C.-C., 452
Busscher, H. J. See de Vos, P., 252
Chluba, J. See Tryoen-T6th, P., 657
Babukutty, Y. See Zhang, Q., 502 Chosa, E. See Matsumoto, M., 101
Baker, A. B. See Sanders, J. E., 36 Cabrerizo-Vilchez, M. A. See Osorio, Cochran, D. L. See Bannister, S. R.,
Bannister, S. R.; R., 316 167
—; Lohmann, C. H.; Liu, Y.; Sylvia, Car kK. Cochran, D. L. See Li, D., 325
V.L.; Cochran, D. L.; Dean, D. D.,; —; Yao, K,; Cui, Y.; Lin, S.; Yang, Z.; Collier, T. O.
Boyan, B. D.; Schwartz, Z.: Shear Li, X.; Me, tine, T.; Luo, J: —; Anderson, J. M.: Protein and
force modulates osteoblast Surface modification of poly surface effects on monocyte and
response to surface roughness, 167 (b,L-lactic acid) with chitosan and macrophage adhesion, maturation,
Barekzi, N. A. See Poelstra, K. A., 206 its effects on the culture of and survival, 487
Barralet, J. E. osteoblasts in vitro, 398 Colton, E. See Shive, M. S., 148
—; Aldred, S.; Wright, A. J.; Coombes, Caiazza, S. See Malchiodi-Albedi, F., Conconi, M. T. See Dettin, M., 466
A.G. A.: In vitro behavior of 548 Constantinides, A. See
albumin-loaded carbonate Campbell, P. A. See Beaulé, P. E., 411 Rosenson-Schloss, R. S., 8
hydroxyapatite gel, 360 Cannas, M. See Bosetti, M., 79 Conzone, S. D.
Barritault, D. See Meddahi, A., 497 Carreno, M.-P. See Anastase-Ravion, —; Brown, R. F.; Day, D. E.; Ehrhardt,
Beaulé, P. E. Dor G. J.: In vitro and in vivo
—; Campbell, P. A.; Walker, P. S.; Caruelle, J.-P. See Meddahi, A., 497 dissolution behavior of a
Schmalzried, T. P.; Dorey, F. J.; Case, E. D. See Hoepfner, T. P.,.643 dysprosium lithium borate glass
Journal of Biomedical Materials Research, Vol. 60, 686-691 (2002)
Journal of Biomedical Materials Research
Author Index—Volume 60
Aguado, E. See Khairoun, I., 633 Blunn, G. W.; Bell, C. J.; Yahia, Caterson, E. J. See Li, W.-J., 613
Akutsu, T. See Shimizu, T., 110 L’H.; Amstutz, H. C.: Polyethylene Ceballos, D.
Aldred, S. See Barralet, J. E., 360 wear characteristics in vivo and in —; Valero-Cabré, A.; Valderrama, E.;
Alexakis, C. See Meddahi, A., 497 a knee simulator, 411 Schiittler, M.; Stieglitz, T.;
Amis, E. J. See Washburn, N. R., 20 Bell, C. J. See Beaulé, P. E., 411 Navarro, X.: Morphologic and
Amstutz, H. C. See Beaulé, P. E., 411 Bellamkonda, R. V. See Kader, K. N., functional evaluation of peripheral
Anastase-Ravion, S. 405 nerve fibers regenerated through
—; Carreno, M.-P.; Blondin, C.; Berry, L. See Cornelius, R. M., 622 polyimide sieve electrodes over
Ravion, O.; Champion, J.; Chaubet, Beutler, T. See Li, D., 325 long-term implantation, 517
F.; Haeffner-Cavaillon, N.; Bhatia, S. N. See Liu, V. A., 126 Ceballos, L. See Osorio, R., 316
Letourneur, D.: Heparin-like Bigerelle, M. See Anselme, K., 529 Champion, J. See Anastase-Ravion, S.,
polymers modulate Blondin, C. See Anastase-Ravion, S., 375
proinflammatory cytokine aD Chan, A. K. C. See Cornelius, R. M.,
production by lipopolysaccharide- Blunn, G. W. See Beaulé, P. E., 411
622
stimulated human monocytes, 375 Bosetti, M. Chang, C. C. See, Rosenson-Schloss,
Anderson, J. M. See Collier, T. O., 487 —; Hench, L.; Cannas, M.: Interaction RSe6
Anderson, J. M. See Shive, M.S., 148 of bioactive glasses with peritoneal
Chang-Chien, C. See Matsumoto, T.,
Ando, K. See Shinzato, S., 556 macrophages and monocytes in
651
Angello, J. C. See McDevitt, T. C., 472 vitro, 79
Chapman-Sheath, P. J. See Yu, Y., 392
Anselme, K. Bouler, J. M. See Khairoun, I., 633
Chaubet, F. See Anastase-Ravion, S.,
—; Bigerelle, M.; Noél, B.; Iost, A.; Boyan, B. D. See Bannister, S. R., 167
375
Hardouin, P.: Effect of grooved Braham, C. See Millet, P., 679
Chaubet, F. See Letourneur, D., 94
titanium substratum on human Brash, J. L. See Cornelius, R. M., 622
Chehroudi, B. See Wieland, M., 434
osteoblastic cell growth, 529 Brash, J. L. See Jahangir, A. R., 135
Chen, C.-C.
Aparicio, C. See Rodriguez-Lorenzo, Brodbeck, W. G. See Shive, M.S., 148
—~, Chen, R..C.-5,; Huane,.-1.:
L. M., 159 Brown, R. F. See Conzone, S. D., 260
Enzymatic responses of human
Archambault, J. G. See Cornelius, Brunette, D. M. See Wieland, M., 434
deciduous pulpal fibroblasts to
R. M., 622 Buck, D.C. See Frank, E. H., 118
dental restorative materials, 452
Asano, T. See Uchida, M., 277 Buser, D. See Li, D., 325
Chen, R. C.-S. See Chen, C.-C., 452
Busscher, H. J. See de Vos, P., 252
Chluba, J. See Tryoen-T6th, P., 657
Babukutty, Y. See Zhang, Q., 502 Chosa, E. See Matsumoto, M., 101
Baker, A. B. See Sanders, J. E., 36 Cabrerizo-Vilchez, M. A. See Osorio, Cochran, D. L. See Bannister, S. R.,
Bannister, S. R.; R., 316 167
—; Lohmann, C. H.; Liu, Y.; Sylvia, Car kK. Cochran, D. L. See Li, D., 325
V.L.; Cochran, D. L.; Dean, D. D.,; —; Yao, K,; Cui, Y.; Lin, S.; Yang, Z.; Collier, T. O.
Boyan, B. D.; Schwartz, Z.: Shear Li, X.; Me, tine, T.; Luo, J: —; Anderson, J. M.: Protein and
force modulates osteoblast Surface modification of poly surface effects on monocyte and
response to surface roughness, 167 (b,L-lactic acid) with chitosan and macrophage adhesion, maturation,
Barekzi, N. A. See Poelstra, K. A., 206 its effects on the culture of and survival, 487
Barralet, J. E. osteoblasts in vitro, 398 Colton, E. See Shive, M. S., 148
—; Aldred, S.; Wright, A. J.; Coombes, Caiazza, S. See Malchiodi-Albedi, F., Conconi, M. T. See Dettin, M., 466
A.G. A.: In vitro behavior of 548 Constantinides, A. See
albumin-loaded carbonate Campbell, P. A. See Beaulé, P. E., 411 Rosenson-Schloss, R. S., 8
hydroxyapatite gel, 360 Cannas, M. See Bosetti, M., 79 Conzone, S. D.
Barritault, D. See Meddahi, A., 497 Carreno, M.-P. See Anastase-Ravion, —; Brown, R. F.; Day, D. E.; Ehrhardt,
Beaulé, P. E. Dor G. J.: In vitro and in vivo
—; Campbell, P. A.; Walker, P. S.; Caruelle, J.-P. See Meddahi, A., 497 dissolution behavior of a
Schmalzried, T. P.; Dorey, F. J.; Case, E. D. See Hoepfner, T. P.,.643 dysprosium lithium borate glass
Journal of Biomedical Materials Research, Vol. 60, 686-691 (2002)
AUTHOR INDEX
designed for the radiation Ferreira, J. M. F. See Rodriguez- Hardouin, P. See Anselme, K., 529
synovectomy treatment of Lorenzo, L. M., 232 Hauschka, S. D. See McDevitt, T. C.,
rheumatoid arthritis, 260 Fisher, J. P. See Vehof, J. W. M., 241 472
Coombes, A. G. A. See Barralet, J. E., Fleer, A. See Oosterbos, C. J. M., 339 Hayashi, S. See Siriphannon, P., 175
360 Folin, M. See Dettin, M., 466 Helman, J. I. See Kohn, D. H., 292
Cornelius, R. M. See Jahangir, A. R., Formisano, G. See Malchiodi-Albedi, Hench, L. See Bosetti, M., 79
135 P., 548 Hirt, H. P. See Li, D., 325
Cornelius, R. M. Frank, E. H. Hoepfner, T. P.
—; Archambault, J. G.; Berry, L.; —; Gong, X.; Sipe, I. V.; Buck, D-C:; —; Case, E. D.: The porosity
Chan, A. K. C.; Brash, J. L.: Hollinger, J. O.: Transverse process dependence of the dielectric
Adsorption of proteins from infant fusion with bovine anorganic constant for sintered
and adult plasma to biomaterial bone, 118 hydroxyapatite, 643
surfaces, 622 Fu, T. See Han, Y., 511 Hollinger, J. O. See Frank, E. H., 118
Cui, Y. See Cai, K., 398 Hoogmoed, C. G. See de Vos, P., 252
Horbett, T. A. See Tsai, W.-B., 348
Gambaretto, R. See Dettin, M., 466 Horiuchi, K. See Ikeuchi, M., 61
D’Angelo, G. See Letourneur, D., 94 Gauthier, O. See Khairoun, I., 633 Huang, H.-H.
Ginebra, M. P. See Rodriguez- —; Effect of chemical composition on
Daculsi, G. See Khairoun, I., 633
Dalton, B. A. See Walboomers, X. F., Lorenzo, L. M., 159 the corrosion behavior of
445 Girardin, E. See Millet, P., 679 Ni-Cr-Mo dental casting alloys,
458
Day, D. E. See Conzone, S. D., 260 Glant, T. T. See Hallab, N. J., 420
de Andrade, M. C. See Sena, L. A. Gogolewski, S. See Gorna, K., 592 Huang, S.-T. See Chen, C.-C., 452
de Vos, P. Golledge, S. L. See Sanders, J. E., 36 Hyon, S.-H. See Matsumura, K., 309
Gong, X. See Frank, E. H., 118
—; Hoogmoed, C. G.; Busscher, H. J.:
Chemistry and biocompatibility of Gorna, K.
alginate-PLL capsules for —; Gogolewski, S.: Biodegradable Ikeuchi, M.
immunoprotection of mammalian polyurethanes for implants. —; Dohi, Y.; Horiuchi, K.; Ohgushi,
Il. In vitro degradation and H.; Noshi, T.; Yoshikawa, T.;
cells, 252
calcification of materials from Yamamoto, K.; Sugimura, M.:
Dean, D. See Vehof, J. W. M., 241
Dean, D. D. See Bannister, S. R., 167 poly(e-caprolactone)—poly(ethylene Recombinant human bone
Debari, K. See Shimizu-Ishiura, M., oxide) diols and various chain morphogenetic protein-2 promotes
extenders, 592 osteogenesis within atelopeptide
269
Grainger, D. W. See Poelstra, K. A., type I collagen solution by
Dettin, M.
—; Conconi, M. T.; Gambaretto, R.; 206 combination with rat cultured
Pasquato, A.; Folin, M.; Di Bello, Grassl, E. D. marrow cells, 61
C.; Parnigotto, P. P.: Novel —; Oegema, T. R.; Tranquillo, R. T.: Inoue, M. See Matsumoto, T., 651
osteoblast-adhesive peptides for Fibrin as an alternative biopolymer Iost, A. See Anselme, K., 529
dental/orthopedic biomaterials, to type-I collagen for the Isoi, Y. See Shimizu, T., 110
fabrication of a media equivalent, Ito, A.
466
Dhert, W. J. A. See Oosterbos, 607 —; Kawamura, H.; Miyakawa, S.;
C.J. M., 339 Grunkemeier, J. M. See Tsai, W.-B., Layrolle, P.; Kanzaki, N.; Treboux,
Di Bello, C. See Dettin, M., 466 348 G.; Onuma, K.; Tsutsumi, S.:
Dohi, Y. See Ikeuchi, M., 61 Resorbability and solubility of
zinc-containing tricalcium
Dorey, F. J. See Beaulé, P. E., 411
Dunn, M. G. See Ohan, M. P., 384 Haeffner-Cavaillon, N. See phosphate, 224
Anastase-Ravion, S., 375 Iwata, H. See Matsumura, K., 309
Haikel, Y. See Tryoen-Toth, P., 657
Hallab, N. J.
Ehrhardt, G. J. See Conzone, S. D., —; Vermes, C.; Messina, C.; Roebuck, Jacobs, J. J. See Hallab, N. J., 420
260 K. A.; Glant, T. T.; Jacobs, J. J.: Jahangir, A. R.
Elamanchili, P. See Newman, K. D., Concentration- and —; McClung, W. G.; Cornelius, R. M.;
480 composition-dependent effects of McCloskey, C. B.; Brash, J. L.;
Elgendy, H. M. See Washburn, N. R.,
metal ions on human MG-63 Santerre, J. P.: Fluorinated
20 osteoblasts, 420 surface-modifying
Evans, M. D. See Walboomers, X. F., Hamada, Y. See Matsumoto, T., 651 macromolecules: modulating
445 Han, Y. adhesive protein and platelet
—; Xu, K.; Montay, G.; Fu, T.; Lu, J.: interactions on a polyether-
Evaluation of nanostructured urethane, 135
Felts, A. G. See Poelstra, K. A., 206 carbonated hydroxyapatite Jansen, J. A. See ter Brugge, P. J., 70
Ferguson, S.J. See Li, D., 3 325 coatings formed by a hybrid Jansen, J. A. See Vehof, J. W. M., 241
Ferreira, J. M. F. See Rodriguez- process of plasma spraying and Jansen, J. A. See Walboomers, X. F., 445
Lorenzo, L. M., 159 hydrothermal synthesis, 511 Jastromb, W. E. See Liu, V. A., 126
AUTHOR INDEX
Kader, K. N. Layrolle, P. See Ito, A., 224 reattachment surgery in rat retinal
—; Sweany, J. M.; Bellamkonda, R. V.: Lee, C. H. See Singla, A., 368 cultures, 548
Cationic lipid-mediated Lee, J. H. Mann, B. K.
transfection of bovine aortic —; Oh, S. H.: MMA/MPEOMA/VSA —; West, J. L.: Cell adhesion peptides
endothelial cells inhibits their copolymer as a novel blood- alter smooth muscle cell adhesion,
attachment, 405 compatible material: Effect of PEO proliferation, migration, and
Kameshima, Y. See Siriphannon, P., and negatively charged side chains matrix protein synthesis on
175 on protein adsorption and platelet modified surfaces and in polymer
Kanno, M. adhesion, 44 scaffolds, 86
—; Kawakami, H.; Nagaoka, S.; Lee, W. K. See Park, H. D., 186 Marcon-Bachari, E. See Letourneur,
Kubota, S.: Biocompatibility of Lee, W.-S. See Shimizu-Ishiura, M., D., 94
fluorinated polyimide, 53 269 Matsuda, T. See Sonoda, H., 191
Kanzaki, N. See Ito, A., 224 Letourneur, D. See Anastase-Ravion, Matsumoto, M.
Karim, A. See Washburn, N. R., 20 S$: 800 —; Chosa, E.; Nabeshima, K.;
Kawakami, H. See Kanno, M., 53 Letourneur, D. Shikinami, Y.; Tajima, N.:
Kawamura, H. See Ito, A., 224 —; Machy, D.,; Pellé, A.; Influence of bioresorbable,
Khairoun, I. Marcon-Bachari, E.; D’Angelo, G.; unsintered hydroxyapatite/
—; Magne, D.; Gauthier, O.; Bouler, Vogel, M.; Chaubet, F.; Michel, poly-L-lactide composite films on
J. M.; Aguado, E.; Daculsi, G.; J.-B.: Heparin and non-heparin-like spinal cord, nerve roots, and
Weiss, P.: In vitro characterization epidural space, 101
dextrans differentially modulate
and in vivo properties of a endothelial cell proliferation: In Matsumoto, T.
carbonated apatite bone cement, vitro evaluation with soluble and —; Okazaki, M.; Inoue, M.; Ode, S.;
633 Chang-Chien, C.; Nakao, H.;
crosslinked polysaccharide
Kikuchi, A. See Shimizu, T., 110 Hamada, Y.; Takahashi, J.:
matrices, 94
Kim, H.-M. See Uchida, M., 277 Biodegradation of carbonate
D.
Kim, K. See Zhu, X., 333 apatite/collagen composite
; Ferguson, S. J.; Beutler, T.;
Kim, S. See Zhu, X., 333 membrane and its controlled
Cochran, D. L.; Sittig, C.; Hirt,
Kim, Y. H. See Park, H. D., 186 release of carbonate apatite, 651
H. P.; Buser, D.: Biomechanical
Kitamura, Y. See Shinzato, S Matsumura, K.
comparison of the sandblasted and
Kitamura, Y. See Shinzato, S., 585 —; Hyon, S.-H.; Nakajima, N.; Peng,
acid-etched and the machined and
Ko, F. K. See Li, W.-J., 613 C.; Iwata, H.; Tsutsumi, S.:
acid-etched titanium surface for
Kodama, M. See Zhang, Q., 5 Adhesion between
dental implants, 325
Kogoma, M. See Zhang, Q., 5 poly(ethylene-co-vinyl alcohol)
W.-J.
Kohn, D. H. (EVA) and titanium, 309
—; Sarmadi, M.; Helman, J. 1; ; Laurencin, C. T.; Caterson, E. J.; McCloskey, C. B. See Jahangir, A. R.,
Krebsbach, P. H.: Effects of pH on Tuan, R. S.; Ko, F. K.: Electrospun 13S
human bone marrow stromal cells nanofibrous structure: A novel McClung, W. G. See Jahangir, A. R.,
in vitro: Implications for tissue scaffold for tissue engineering, 613 155
engineering of bone, 292 Li, X. See Cai, K., 398 McDevitt, T. C.
Kokubo, T. See Shinzato, S., 556 Lin, S. See Cai, K., 398 —; Angello, J. C.; Whitney, M. L.;
Kokubo, T. See Shinzato, S., 585 Liu, V. A. Reinecke, H.; Hauschka, S. D.;
Kokubo, T. See Uchida, M., 277 —; Jastromb, W. E.; Bhatia, S. N.: Murry, C. E.; Stayton, P.S.: In vitro
Krebsbach, P. H. See Kohn, D. H., Engineering protein and cell generation of differentiated cardiac
292 adhesivity using PEO-terminated myofibers on micropatterned
Kubota, S. See Kanno, M., 53 triblock polymers, 126 laminin surfaces, 472
Kwon, G. S. See Newman, K. D., Liu, Y. See Bannister, S. R., 167 McFarland, C. D. See Tsai, W.-B., 348
480 Lodini, A. See Millet, P., 679 Meddahi, A.
Lohmann, C. H. See Bannister, S. R., —; Alexakis, C.; Papy, D.; Caruelle,
167 J.-P.; Barritault, D.: Heparin-like
Lapp, C. A. Lu, J. See Han, Y., 511 polymer improved healing of
—; Schuster, G. S.: Effects of Luo, J. See Cai, K., 398 gastric and colic ulceration, 497
DMAEMA and 4-methoxyphenol Messina, C. See Hallab, N. J., 420
on gingival fibroblast growth, Michel, J.-B. See Letourneur, D., 94
metabolism, and response to Machy, D. See Letourneur, D., 94 Mikos, A. G. See Vehof, J. W. M., 241
interleukin-1, 30 Magne, D. See Khairoun, I., 633 Millet, P.
Latour, R. A., Jr. Malchiodi-Albedi, F. —; Girardin, E.; Braham, C.; Lodini,
—; Rini, C. J.: Theoretical analysis of —; Morgillo, A.; Formisano, G.,; A.: Stress influence on interface in
adsorption thermodynamics for Paradisi, S.; Perilli, R.; Scalzo, plasma-sprayed hydroxyapatite
hydrophobic peptide residues on GiC., Scorcia; G.::Caiazza’. S.: coatings on titanium alloy, 679
SAM surfaces of varying Biocompatibility assessment of Miyakawa, S. See Ito, A., 224
functionality, 564 silicone oil and perfluorocarbon Moghe, P. V. See Rosenson-Schloss,
Laurencin, C. T. See Li, W.-J., 613 liquids used in retinal R58
AUTHOR INDEX
Montay, G. See Han, Y., 511 Osorio, R. Reinecke, H. See McDevitt, T. C., 472
Mooney, D. J. See Peters, M. C., 668 —; Ceballos, L.; Tay, F.; Rini, C.J . See Latour, R. A., Jr., 564
Mooney, D. J. See Rowley, J. A., 217 Cabrerizo-Vilchez, M. A.; Rodriguez-Lorenzo, L. M.
Mooradian, D. L. See Weisenberg, Toledano, M.: Effect of sodium —,; Vallet-Regi, M.; Ferreira, J. M. F.:
B. A., 283 hypochlorite on dentin bonding Fabrication of porous
Morgillo, A. See Malchiodi-Albedi, F., with a polyalkenoic hydroxyapatite bodies by a new
548 acid-containing adhesive system, direct consolidation method: starch
Murry, C. E. See McDevitt, T. C., 472 316 consolidation, 232
Rodriguez-Lorenzo, L. M.
—,; Vallet-Regi, M.; Ferreira, J. M. F.;
Papy, D. See Meddahi, A., 497 Ginebra, M. P.; Aparicio, C.;
Nabeshima, K. See Matsumoto, M.,
Paradisi, S. See Malchiodi-Albedi, F., Planell, J. A.: Hydroxyapatite
101 548
Nagaoka, S. See Kanno, M., 53 ceramic bodies with tailored
Park, H. D. mechanical properties for different
Nakajima, N. See Matsumura, K., 309
—; Lee, W. K.; Ooya, T.; Park, K. D.;
Nakamura, S. See Ueshima, M., 578 applications, 159
Kim, Y. H.; Yui, N.: Anticoagulant
Nakamura, T. See Shinzato, S., 556 Roebuck, K. A. See Hallab, N. J., 420
activity of sulfonated
Nakamura, T. See Shinzato, S., 585 Rosenson-Schloss, R. S.
polyrotaxanes as blood-compatible
Nakamura, T. See Uchida, M., 277 —; Chang, C. C.; Constantinides, A.;
materials, 186
Nakao, H. See Matsumoto, T., 651 Moghe, P. V.: Alteration of
Park, J. U.
Nakayama, Y. See Sonoda, H., 191 leukocyte motility on
—; Tsuchiya, T.: Increase in
Navarro, X. See Ceballos, D., 517 plasma-conditioned prosthetic
gap-junctional intercellular
Nawa, M. See Uchida, M., 277 biomaterial, ePTFE, via a
communications (GJIC) of normal
Newman, K. D. flow-responsive cell adhesion
human dermal fibroblasts (NHDF)
—; Elamanchili, P.; Kwon, G. S.; molecule, CD43, 8
on surfaces coated with
Samuel, J.: Uptake of Rossi, A. M. See Sena, L. A.
high-molecular-weight hyaluronic
poly(D,L-lactic-co-glycolic acid) Rowley, J. A.
acid (HMW HA), 541
microspheres by antigen- —; Mooney, D. J.: Alginate type and
Park, K. D. See Park, H. D., 186
presenting cells in vivo, 480 RGD density control myoblast
Parnigotto, P. P. See Dettin, M., 466
Nijhof, M. W. See Oosterbos, C. J. M., Pasquato, A. See Dettin, M., 466 phenotype, 217
339
Pellé, A. See Letourneur, D., 94
Noél, B. See Anselme, K., 529
Peng, C. See Matsumura, K., 309
Noshi, T. See [keuchi, M., 61 Samuel, J. See Newman, K. D., 480
Perilli, R. See Malchiodi-Albedi, F.,
548 Sanders, J. E.
—,; Baker, A. B.; Golledge, S. L.:
Peters, M. C.
Ode, S. See Matsumoto, T., 651 —; Polverini, P. J.; Mooney, D. J.: Control of in vivo microvessel
ingrowth by modulation of
Oegema, T. R. See Grassl, E. D., 607 Engineering vascular networks in
Ogier, J. See Tryoen-Toth, P., 657 porous polymer matrices, 668 biomaterial local architecture and
Oh, S. H. See Lee, J. H., 44 Planell, J. A. See Rodriguez-Lorenzo, chemistry , 36
Ohan, M. P. L. M., 159 Santerre, J. P. See Jahangir, A. R., 13 5
—; Weadock, K. S.; Dunn, M. G.: Poelstra, K. A. Sarmadi, M. See Kohn, D. H., 292
Synergistic effects of glucose and —; Barekzi, N. A.; Rediske, A. M.; Sasaki, T. See Shimizu-Ishiura, M.,
ultraviolet irradiation on the Felts, A. G.; Slunt, J. B.; Grainger, 269
physical properties of collagen, 384 D. W.: Prophylactic treatment of Scalzo, G. C. See Malchiodi-Albedi,
Ohgushi, H. See Ikeuchi, M., 61 gram-positive and gram-negative F., 548
Ohyama, T. See Zhang, Q., 502 abdominal implant infections Schaaf, P. See Tryoen-T6éth, P., 657
Okada, K. See Siriphannon, P., 175 using locally delivered polyclonal Schmalzried, T. P. See Beaulé, P. E.,
Okano, T. See Shimizu, T., 110 antibodies, 206 411
Okazaki, M. See Matsumoto, T., 651 Polverini, P. J. See Peters, M. C., 668 Schuster, G. S. See Lapp, C. A., 30
Ong, J. L. See Zhu, X., 333 Schiittler, M. See Ceballos, D., 517
Onuma, K. See Ito, A., 224 Schwartz, Z. See Bannister, S. R., 167
Oosterbos, C. J. M. Qing, T. See Cai, K., 398 Scorcia, G. See Malchiodi-Albedi, F.,
—; Vogely, H. Ch.; Nijhof, M. W.; 548
Fleer, A.; Verbout, A. J.; Tonino, Sena, L. A.
A. J.; Dhert, W. J. A.: Ramamurthi, A. —; de Andrade, M. C., Rossi, A. M.,
Osseointegration of —; Vesely, I.: Smooth muscle cell Soares, G. A.: Hydroxyapatite
hydroxyapatite-coated and adhesion on crosslinked deposition by electrophoresis on
noncoated Ti6Al4V implants in the hyaluronan gels, 196 titanium sheets with different
presence of local infection: A Ravion, O. See Anastase-Ravion, S., surface finishing, 1
comparative histomorphometrical 375 Shibata, T. See Shimizu, T., 110
study in rabbits, 339 Rediske, A. M. See Poelstra, K. A., Shikinami, Y. See Matsumoto, M.,
Ooya, T. See Park, H. D., 186 206 101
AUTHOR INDEX
Shimizu, T. Spauwen, P. H. M. See Vehof, Ueshima, M.
—; Yamato, M.; Akutsu, T.; Shibata, J. W. M., 241 —; Tanaka, S.; Nakamura, S.;
T.; Isoi, Y.; Kikuchi, A.; Umezu, Spencer, P. See Wang, Y., 300 Yamashita, K.: Manipulation of
M.; Okano, T.: Electrically Stayton, P. S. See McDevitt, T. C., 472 bacterial adhesion and
communicating three-dimensional Steele, J. G. See Walboomers, X. F., proliferation by surface charges of
cardiac tissue mimic fabricated by 445 electrically polarized
layered cultured cardiomyocyte Stieglitz, T. See Ceballos, D., 517 hydroxyapatite, 578
Sugimura, M. See Ikeuchi, M., 61 Umezu, M. See Shimizu, T., 110
sheets, 110
Sweany, J. M. See Kader, K. N., 405 Urayama, S.-I. See Sonoda, H., 191
Shimizu-Ishiura, M.
Sylvia, V. L. See Bannister, S. R., 167 Uyama, C. See Sonoda, H., 191
—; Tanaka, S.; Lee, W.-S.; Debari, K.;
Sasaki, T.: Effects of enamel matrix
derivative to titanium implantation
Tajima, N. See Matsumoto, M., 101 Valderrama, E. See Ceballos, D., 517
in rat femurs, 269
Takahashi, J. See Matsumoto, T., 651 Valero-Cabré, A. See Ceballos, D.,
Shinzato, S.
Takamizawa, K. See Sonoda, H., 191 517
—; Nakamura, T.; Ando, K.; Kokubo,
Tanaka, K. See Uchida, M., 277 Vallet-Regi, M. See Rodriguez-
T.; Kitamura, Y.: Mechanical
Tanaka, S. See Shimizu-Ishiura, M., Lorenzo, L. M., 159
properties and osteoconductivity 269 Vallet-Regi, M. See Rodriguez-
of new bioactive composites Tanaka, S. See Ueshima, M., 578 Lorenzo, L. M., 232
consisting of partially crystallized Tay, F. See Osorio, R., 316 van der Waerden, J.-P. C. M. See
glass beads and poly(methyl ter Brugge, P. J. Vehof, J. W. M., 241
methacrylate), 556 —; Wolke, J. G. C.; Jansen, J. A.: Effect Vautier, D. See Tryoen-Toth, P., 657
Shinzato, S. of calcium phosphate coating Vehof, J. W. M.
—; Nakamura, T.; Kokubo, T.; crystallinity and implant surface —-; Fisher, J. P.; Dean, D.; van der
Kitamura, Y.: Composites roughness on differentiation of rat Waerden, J.-P. C. M.; Spauwen,
consisting of poly(methyl bone marrow cells, 70 P. H. M.; Mikos, A. G.; Jansen,
methacrylate) and alumina Textor, M. See Wieland, M., 434 J. A.: Bone formation in
powder: An evaluation of their Toledano, M. See Osorio, R., 316 transforming growth factor
mechanical and biological Tona, A. See Washburn, N. R., 20 B-1-coated porous poly(propylene
properties, 585 Tonino, A. J. See Oosterbos, C. J. M., fumarate) scaffolds, 241
Shive, M. S. 339 Verbout, A. J. See Oosterbos, C. J. M.,
Tranquillo, R. T. See Grassl, E. D., 339
—; Brodbeck, W. G.; Colton, E.;
Anderson, J. M.: Shear stress and 607 Vermes, C. See Hallab, N. J., 420
Treboux, G. See Ito, A., 224 Vesely, I. See Ramamurthi, A., 196
material surface effects on
Tryoen-Toth, P. Voegel, J.-C. See Tryoen-T6th, P., 657
adherent human monocyte
—; Vautier, D.; Haikel, Y.; Voegel, Vogel, M. See Letourneur, D., 94
apoptosis, 148
J.-C.; Schaaf, P.; Chluba, J.; Ogier, Vogely, H. Ch. See Oosterbos,
Simon, C. G. Jr. See Washburn, N. R.,
J.: Viability, adhesion, and bone C. J. M., 339
20
phenotype of osteoblast-like cells
Singla, A.
on polyelectrolyte multilayer films,
—; Lee, C. H.: Effect of elastin on the 657
Walboomers, X. F.
calcification rate of collagen-elastin
Tsai, W.-B. —; Dalton, B. A.; Evans, M. D.; Steele,
matrix systems, 368
—; Grunkemeier, J. M.; McFarland, J. G.; Jansen, J. A.: Transforming
Sipe, R. V. See Frank, E. H., 118 C. D.; Horbett, T. A.: Platelet growth factor-B 1, 2, and 3 can
Siriphannon, P.
adhesion to polystyrene-based inhibit epithelial tissue outgrowth
—; Kameshima, Y.; Yasumori, A.; surfaces preadsorbed with plasmas on smooth and microgrooved
Okada, K.; Hayashi, S.: selectively depleted in fibrinogen, substrates, 445
Comparative study of the fibronectin, vitronectin, or von Walker, P. S. See Beaulé, P. E., 411
formation of hydroxyapatite in Willebrand’s factor, 348 Walsh, W. R. See Yu, Y., 392
simulated body fluid under static Tsuchiya, T. See Park, J. U., 541 Wang, C. See Zhang, Q., 502
and flowing systems, 175 Tsutsumi, S. See Ito, A., 224 Wang, Y.
Sittig, C. See Li, D., 325 Tsutsumi, S. See Matsumura, K., 309 —; Spencer, P.: Analysis of
Slunt, J. B. See Poelstra, K. A., 206 Tuan, R. S. See Li, W.-J., 613 acid-treated dentin smear debris
Soares, G. A. See Sena, L. A. and smear layers using confocal
Sonoda, H. Raman microspectroscopy, 300
—; Urayama, S.-I.; Takamizawa, K.; Uchida, M. Washburn, N. R.
Nakayama, Y.; Uyama, C.; Yasui, —; Kim, H.-M.; Kokubo, T.; Nawa, —; Simon, C. G. Jr.; Tona, A.;
H.; Matsuda, T.: Compliant design M.; Asano, T.; Tanaka, K.; Elgendy, H. M.; Karim, A.; Amis,
of artificial graft: compliance Nakamura, T.: Apatite-forming E. J.: Co-extrusion of biocompatible
determination by new digital ability of a zirconia/alumina polymers for scaffolds with
X-ray imaging system-based nano-composite induced by co-continuous morphology, 20
method, 191 chemical treatment, 277 Weadock, K. S. See Ohan, M. P., 384
AUTHOR INDEX
Weisenberg, B. A. Xie, H. See Cai, K., 398 mediators, Smads, in rat fracture
—; Mooradian, D. L.: Xu, K. See Han, Y., 511 healing, 392
Hemocompatibility of materials Yui, N. See Park, H. D., 186
used in microelectromechanical
systems: Platelet adhesion and Yahia, L. See Beaulé, P. E., 411
morphology in vitro, 283 Yamamoto, K. See Ikeuchi, M., 61 Zhang, Q.
Weiss, P. See Khairoun, I., 633 Yamashita, K. See Ueshima, M., 578 —; Wang, C.; Babukutty, Y.; Ohyama,
West, J. L. See Mann, B. K., 86 Yamato, M. See Shimizu, T., 110 T.; Kogoma, M.; Kodama, M.:
Whitney, M. L. See McDevitt, T. C., 472 Yang, J.-L. See Yu, Y., 392 Biocompatibility evaluation of
Wieland, M. Yang, Z. See Cai, K., 398 ePTFE membrane modified with
—; Chehroudi, B.; Textor, M.; Yao, K. See Cai, K., 398 PEG in atmospheric pressure glow
Brunette, D. M.: Use of Ti-coated Yasui, H. See Sonoda, H., 191 discharge, 502
replicas to investigate the effects Yasumori, A. See Siriphannon, P., 175 Zhu, X.
on fibroblast shape of surfaces Yoshikawa, T. See Ikeuchi, M., 61 —; Ong, J. L.; Kim, S.; Kim, K.:
with varying roughness and ¥a;¥. Surface characteristics and
constant chemical composition, 434 —; Yang, J.-L.; Chapman-Sheath, structure of anodic oxide films
Wolke, J. G. C. See ter Brugge, P. J., 70 P. J.; Walsh, W. R.: TGF-8, BMPs, containing Ca and P on a titanium
Wright, A. J. See Barralet, J. E., 360 and their signal transducing implant material, 333
Journal of Biomedical Materials Research
Subject Index—Volume 60
Abdominal surgery, 206 Bond strength, 511 Crystal phase, 585
Acid-etched surface, 325 Bone histomorphometry, 339 Crystallinity, 70, 333
Acid etching, 316 Bone marrow stromal cells, 292 Crystallized glass, 556
Additives, 135 Bone morphogenetic protein, 61 Curing, 53
Adhesion, 316, 578 Bone phenotype, 657 Cytokines, 375, 657
Adhesion peptide, 86 Bone regeneration, 241, 633 Cytotoxicity, 452
Adhesion proteins, 348 Bone replacement materials, 20
Adhesive proteins, 135 Borate glass, 260 Deciduous pulpal fibroblast, 452
Alginates, 217, 252 Bovine bone, 118 Delivery system, 360
Alkaline phosphatase, 167, 452 Dendritic cells, 480
Alumina, 585 Calcification, 368 Dental implants, 1
Amphiphilic surface-modifying Calcium acetate, 333 Dental restorative materials, 452
polymer, 186 Calcium binding, 592 Dentin, 300, 316
Angiogenesis, 36, 668 Calcium phosphate, 70 Dextran, 94
Angiography technique, 191 Dielectric constant, 643
Calcium phosphate cement, 633
Animal model, 339 Digital X-ray imaging system, 191
Carbonate apatite, 360, 651
Anodic oxide, 333 Dissolution, 511
Carbonated apatite, 633
Anorganic, 118 Carbonated hydroxyapatite, 511 Divinyl sulfone, 196
Antibody, 206 Cardiac tissue engineering, 110 DMAEMA, 30
Anticoagulant activity, 186 Drug delivery, 668
Cardiomyocyte, 110, 472
Antigen delivery system, 480
CaSiO, ceramics, 175
Antigen-presenting cells, 480
CD43, 8 Elastin, 368
Apatite, 277
Cell adhesion, 126, 405, 529, 657 Electric communication, 110
Apatite- and wollastonite-containing
Cell arrays, 472 Electrical polarization, 578
glass ceramic (AW-GC), 556
Cell attachment and growth, 196 Electrophoresis, 1
Apoptosis, 148, 487 Cell engineering, 126 Electrospinning, 613
Applications, 159
Cell migration, 8 Enamel matrix derivative, 269
Atelopeptide collagen, 61
Atomic force microscopy, 541 Cell seeding, 405 Encapsulation, 252
Cell shape, 434 Endothelial cell proliferation, 94
B-glycerophosphate sodium, 333 Cell sheet, 110 Endothelial cells, 668
Enthalpy, 564
Backscattered electron imaging, 269 Cellular uptake, 480
Bacteria, 578 Ceramics processing, 232 Entropy, 564
Enzyme resistance, 384
Beta radiation delivery system, 260 Characterization, 1
Epithelial tissue outgrowth, 445
Bioactive, 643 Chemical treatment, 277
EPTFE, 8
Bioactive composite, 556 Chemiluminescence, 79
Bioactive glass, 79 Chitosan, 398 Ethanol, 368
Expanded polytetrafluoroethylene
Bioactive materials, 175 Coating, 1, 339
(ePTFE), 502
Bioactivity, 101, 277 Colitis, 497
Extracellular matrix, 86
Biocompatibility, 20, 420, 548, 651 Collagen, 292, 316, 384
Biodegradable glass, 260 Collagen-elastin matrix, 368
Biodegradable polyurethanes, 592 Collagen synthesis, 607 Fibrin gel, 607
Biodegradation, 651 Colloidal processing, 232 Fibrinogen, 348
Biomaterial design, 217 Complement activation, 53 Fibrinolysis, 607
Biomaterials, 206, 348, 466, 548 Compliance, 191 Fibroblasts, 30, 434
Blood-compatible coating material, 44 Composites, 101, 585 Fibronectin, 487
Blood-compatible materials, 186 Composition, 458 Flowing system, 175
Blood filter, 502 Corrosion, 458 Fluorinated polyimide, 53
BMPs, 392 Crosslinking, 384 Fluoropolymer, 405
Journal of Biomedical Materials Research, Vol. 60, 692-694 (2002)
SUBJECT INDEX
Fluro-polymer, 135 Mesenchymal stem cell, 613 Polyethylene oxide (PEO), 44
Foreign-body giant cell, 487 Metal ion, 420 Polyimide, 517
4-Methoxyphenol, 30 Metal toxicity, 420 Polymer processing, 20
Fracture healing, 392 MG-63 osteoblasts, 420 Polymers, 292
Microfluidics, 126 Polymers scaffolds, 20
Gap junctional intercellular Microgrooved substrates, 445 Polyrotaxane, 186
communication, 541 Micropatterning, 126, 472 Polyurethane, 148
Gastric ulceration, 497 Microspectroscopy, 300 Porosity, 643
Genetic engineering, 405 Migration, 86 Porous bioceramics, 232
Gibbs free energy, 564 Molecular modeling, 564 Porous poly(propylene fumarate),
Glass microspheres, 260 Monetite, 633 241
Glucose, 384 Monocytes, 79, 148, 375 Proliferation, 578
Gram-positive, 206 Prosthetic biomaterial, 8
Grooved surface, 529 Nanocrystalline, 511 Protein adsorption, 44, 53, 348, 502,
Growth factor-B, 445 Negatively charged group, 44 564, 622
GTR membrane, 651 Nerve regeneration, 517 Protein release, 360
Neural prosthesis, 517
Hemocompatibility, 283 Neutron diffraction, 679 Rabbit model, 118
Heparin, 94 Neutrophil adhesion, 53 Radiation synovectomy, 260
Heparin-like, 375 Ni-Cr-Mo alloy, 458 Raman, 300
Heparin-like molecule, 497 Noncemented implants, 339 Rat femur, 269
Human macrophage, 487 Normal human dermal fibroblast, 541 Rat osteoblasts, 70
Human osteoblasts, 529 Recombinant proteins, 241
Hyaluronan, 196 Osteoblast adhesion, 466 Regenerative electrode, 517
Hyaluronic acid, 541 Osteoblast-like cells, 657 Removal torque values, 325
Hydrogels, 196
Osteoblasts, 167, 398 Residual stress, 511
Hydroxyapatite, 1, 101, 175, 232, 339, Osteocalcin, 167 Resorption, 224
360, 578, 643 Osteoconductivity, 556, 585 Retinal cultures, 548
Hydroxyapatite ceramic bodies, 159 Osteogenesis, 61 RGD, 217, 487
Hydroxyapatite coatings, 679 Osteoinduction, 241 RGD sequences,
Hylan, 196 Osteolysis, 420 RGTA, 497
Rheumatoid arthritis, 260
Immunoblots, 622 Roughness, 333
Passive film, 458
Immunoglobulin G, 487
Perfluorocarbon liquids,
Immunohistochemistry, 269, 392
Peripheral nerve, 517 Sandblasted and acid-etched surface,
Immunoisolation, 252
Permeation, 368 325
Implant, 206, 679
In vitro degradation, 592 PGE,, 167 Scaffolds, 241, 613
PH, 292 Scrape loading and dye transfer, 541
Infant, 622
Physiologic shear, 8 SDS-PAGE, 622
Infection, 206, 339
Pitting, 458 Secreted protein acidic and rich in
Inflammation, 30
Injectable bone substitute, 61 Plasma, 622 cysteine (SPARC), 36
Plasma treatment, 502 Self-assembled monolayers, 564
Intercalated disks, 472
Platelet adhesion, 44, 283, 348, 502 Shear force, 167
Interfacial shear strength, 325
Platelet morphology, 283 Shear stress, 148
Interfacial stiffness, 325
Platelets, 135 Sieve, 517
Interleukin, 375
PLGA, 613 Silicone oil, 548
Interleukin-6, 30
PLGA microspheres, 480 Simulated body fluid (SBF), 175, 277
Poly (D,L-lactic acid), 398 Sintered, 643
Knee simulator, 411
Poly(e-caprolactone), 592 Skeletal muscle, 217
Poly(ethylene-co-vinyl alcohol) (EVA), Smads, 392
Lap shear adhesive strength, 309 309 Smear, 300
Laser machining, 36 Poly(ethylene glycol), 126 Smooth muscle cell, 607
Leukocytes, 8 Poly(ethylene oxide), 126, 592 Sodium hypochlorite treatment, 316
Lipopolysaccharide, 375 Poly(methyl methacrylate) (PMMA), Sol-gel, 360
Local delivery, 206 556, 585 Solubility product, 224
Lumbar spine fusion, 118 Poly-t-lactide, 101 Spinal cord, 101
Poly-t-lysine, 252 Starch consolidation, 232
Macrophages, 79 Polyelectrolyte multilayer films, 657 Stress, 679
Marrow mesenchymal stem cells, 61 Polyether-urethane, 135 Succinate dehydrogenase, 452
Mechanical properties, 159 Polyethylene, 411 Sulfonated polyrotaxane, 186
MEMS, 283 Polyethylene glycol, 86 Surface charges, 578
SUBJECT INDEX
Surface grafting, 36 Thrombospondin, 36 Ultraviolet irradiation, 384
Surface modification, 135, 398 Ti-coated epoxy-resin replicas, 434
Surface roughness, 70, 167 Tissue engineering, 20, 86, 217, 292, Vascular grafts, 405
Surface topography, 529 472, 607, 613, 668 Vascular prostheses, 94
Synthetic peptides, 466 Tissue equivalent, 607 VEGF, 668
Synthetic polymer, 497 Titanium, 70, 167, 309, 333, 529 Vitronectin, 466, 487
Synthetic polysaccharides, 94 Titanium implantation, 269
Titanium implants, 325 Wear particle morphology, 411
T-peel strength, 309 TNFa, 79 Wound healing, 497
Temperature-responsive culture Topography, 434
surface, 110 Total knee replacement, 411 X-ray diffraction, 679
TGF-B, 392 Total knee retrieval, 411
TGF-B1, 167 Transforming growth factor-B, 241 Zinc, 224
Three-dimensional reconstruction, 434 Tricalcium phosphate, 224 Zinc-containing tricalcium phosphate,
Thromboembolism, 622 Tumor necrosis factor-alpha, 148 224
Thrombogenesis, 135 Type I collagen, 651 Zirconia/alumina nano-composite, 277
