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Journal of Biomedical Materials Research 1996: Vol 31 Index PDF

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Preview Journal of Biomedical Materials Research 1996: Vol 31 Index

Journal of Biomedical Materials Research Author Index—Volume 31 Abe, K. See Hidaka, S., 11 Cabasso, I. See Rawls, H. R., 339 Ciapetti, G. See Cenni, E., 145 Akay, M. Canahua, H. See Escudero, M. L., —; See Granchi, D., 183 —; Aslan, N.: Numerical and 313 Cima, L. G. See Park, A., 117 experimental stress analysis of a Cassinelli, C. See Morra, M., 149 Claes, L. E. See Margevicius, K. J., polymeric composite hip joint Cavedagna, D. See Cenni, E., 145 319 prosthesis, 167 —,; See Granchi, D., 183 Coble, H. D. See Dasarathy, H., 81 Alexander, H. See Choueka, J., 35 Cenni, E. Contreras, L. A. See Bellén, J. M., 1 —; See Toolan, B. C., 273 —,; Ciapetti, G.; Cervellati, M.; Courtney, J. M. See Matata, B. M., Algan, S. A. See Horowitz, S. M., 91 Cavedagna, D.; Falsone, G.; 63 Asakura, T. See Nishiyama, N., 379 Gamberini, S.; Pizzoferrato, A.: Couvreur, P. See Askendal, A. See Tengvall, P., 305 Activation of the plasma Fernandez-Urrusuno, R., 401 Aslan, N. See Akay, M., 167 coagulation system induced by Craig, R. G. See Lee, V. A., 51 Ayoub, N. See Meddahi, A., 293 some biomaterials (Technical Cuckler, J. M. See Bianco, P. D., 227 Note), 145 Cervellati, M. See Cenni, E., 145 Cetinel, B. See Renard, G., 193 Barrick, M. K. See Hilbert, S. L., 503 Chapekar, M. S. Daculsi, G. Barritault, D. See Meddahi, A., 293 —; Zaremba, T. G.; Kuester, R. K.; —,; Legeros, J. P.: 3-Dimensional Batchelder, K. F. See Hilbert, S. L., Hitchins, V. M.: Synergistic defects of biological interest in 503 induction of tumor necrosis factor hydroxyapatite, 495 Baudys, M. See Chytry, V., 265 a by bacterial lipopolysaccharide Dasarathy, H. Bauer, T. W. See Hirakawa, K., 257 and lipoteichoic acid in —; Riley, C.; Coble, H. D.; Lacefield, Bedossa, P. See combination with W. R.; Maybee, G.: Fernandez-Urrusuno, R., 401 polytetrafluoroethylene particles Hydroxyapatite/metal composite Bellon, J. M. in a murine macrophage cell line coatings formed by —; Bujan, J.; Contreras, L. A.; RAW 264.7, 251 electrocodeposition, 81 Hernando, A.; Jurado, F.: Charvet, J. L. See Choueka, J., 35 Degawa, H. See Tsuchiya, T., 299 Similarity in behavior of Chou, L. den Dunnen, W. F. A. polytetrafluoroethylene (ePTFE) —,; Firth, J. D.; Nathanson, D.; Uitto, —,; Stokroos, I.; Blaauw, E. H.; prostheses implanted into V.-J.; Brunette, D. M.: Effects of Holwerda, A.; Pennings, A. J.; different interfaces, 1 titanium on transcriptional and Robinson, P. H.; Schakenraad, Benoit, J. See Meddahi, A., 293 post-transcriptional regulation of J. M.: Light-microscopic and Bhatnagar, R. S. See Qian, J. J., 545 fibronectin in human fibroblasts, electron-microscopic evaluation of Bianco, P. D. 209 short-term nerve regeneration —; Ducheyne, P.; Cuckler, J. M.: Choueka, J. using a biodegradable Local accumulation of titanium —; Charvet, J. L.; Koval, K. J.; poly(pL-lactide-e-caprolacton) released from a titanium implant Alexander, H.; James, K. S.; nerve guide, 105 in the absence of wear, 227 Hooper, K. A.; Kohn, J.: Canine Deutsch, T. F. See Lewandrowski, Blaauw, E. H. See den Dunnen, bone response to tyrosine-derived K.-U., 365 W. F. A., 105 polycarbonates and poly(L-lactic Doi, K. Bowry, S. K. See Matata, B. M., 63 acid), 35 —; Nakayama, Y.; Matsuda, T.: Brown, P. W. Chytry, V. Novel compliant and —; Fulmer, M.: The effects of —,; Letourneur, D.; Baudys, M.; tissue-permeable microporous electrolytes on the rates of Jozefonvicz, J.: Conjugates of polyurethane vascular prosthesis hydroxyapatite formation at 25 insulin with copolymers of fabricated using an excimer laser and 38°C, 395 N-(2-hydroxypropyl) ablation technique, 27 Brunette, D. M. See Chou, L., 209 methacrylamide: Effects on Doi, Y. Bujan, J. See Bellon, J. M., 1 smooth muscle cell proliferation, —; Horiguchi, T.; Moriwaki, Y.; Bising, M. See Pineda, L. M., 385 265 Kitago, H.; Kajimoto, T.; Journal of Biomedical Materials Research, Vol. 31, 573-577 (1997) Iwayama, Y.: Formation of Gogolewski, S. See Pineda, L. M., —; Bauer, T. W.; Stulberg, B. N.; apatite—collagen complexes, 43 385 Wilde, A. H.: Comparison and Donati, M. E. See Granchi, D., 183 Goldring, S. R. See Harada, Y., 19 quantitation of wear debris of Doppalapudi, V. A. See Harada, Y., Goodman, S. B. failed total hip and total knee 19 —; Knoblich, G.; O’Connor, M.; arthroplasty, 257 Ducheyne, P. See Bianco, P. D., 227 Song, Y.; Huie, P.; Sibley, R.: Hitchins, V. M. See Chapekar, Durand, J. See Renard, G., 193 Heterogeneity in cellular and M..S., 251 Diirselen, L. See Margevicius, K. J., cytokine profiles from multiple Holwerda, A. See den Dunnen, 319 samples of tissue surrounding W. F. A., 105 Dyulgerova, E. See Opalchenova, G., revised hip prostheses, 421 Hooper, K. A. See Choueka, J., 35 219 Granchi, D. Horiguchi, T. See Doi, Y., 43 —,; Ciapetti, G.; Savarino, L.; Horowitz, S. M. Cavedagna, D.; Donati, M. E.; —; Algan, S. A.; Purdon, M. A.: Escudero, M. L. Pizzoferrato, A.: Assessment of Pharmacologic inhibition of —; Lopez, M. F.; Ruiz, J.; metal extract toxicity on human particulate-induced bone Garcia-Alonso, M. C.; Canahua, lymphocytes cultured in vitro, 183 resorption, 91 H.: Comparative study of the Granier, R. J. See Rawls, H. R., 339 Hsiue, G.-H. See Yang, J.-M., 281 corrosion behavior of MA-956 and Gratzer, P. F. Hsu, C.-S. See Sung, H.-W., 511 conventional metallic biomaterials, —,; Pereira, C. A.; Lee, J. M.: Solvent Huang, J. See Katona, T. R., 445 313 environment modulates effects of Huebsch, J. B. glutaraldehyde crosslinking on —; Fields, G. B.; Triebes, T. G.; tissue-derived biomaterials, 533 Mooradian, D. L.: A photoreactive Falsone, G. See Cenni, E., 145 analog of peptide FN-C/H-V from Fattal, E. See Fernandez-Urrusuno, the carboxy-terminal R., 401 Hahn, D. W. heparin-binding domains of Feduik, D. See Ruse, N. D., 457 — > Wolfarth, D. L.; Parks, N.L.: fibronectin supports endothelial Féger, J. See Fernandez-Urrusuno, Characterization of submicron cell adhesion and spreading on R., 401 polyethylene wear debris from biomaterial surfaces, 555 Fernandez-Urrusuno, R. synovial-fluid samples of revised Huie, P. See Goodman, S. B., 421 —,; Fattal, E.; Rodrigues, Jr., J. M.; knee replacements using a Hulshoff, J. E. G. Féger, J.; Bedossa, P.; Couvreur, light-scattering technique, 355 —; van Dijk, K.; van der Waerden, P.: Effect of polymeric Hanselmann, K. See Margevicius, J. P. C. M.; Wolke, J. G. C.; Kalk, nanoparticle administration on the K. J., 319 W.,; Jansen, J. A.: Evaluation of clearance activity of the Harada, Y. plasma-spray and mononuclear phagocyte system in —; Wang, J.-T.; Doppalapudi, V. A.; magnetron-sputter Ca-P—coated mice, 401 Willis, A. A.; Jasty, M.; Harris, implants: An in vivo experiment Ferrans, V. J. See Hilbert, S. L., 503 W. H.; Nagase, M.; Goldring, using rabbits, 329 Fields, G. B. See Huebsch, J. B., 555 S. R.: Differential effects of Hunt, J. A. Filisko, F. E. See Lee, V. A., 51 different forms of hydroxyapatite —,; Flanagan, B. F.; McLaughlin, Firth, J. D. See Chou, L., 209 and hydroxyapatite/tricalcium P. J.; Strickland, I.; Williams, Flanagan, B. F. See Hunt, J. A., 139 phosphate particulates on human D. F.: Effect of biomaterial surface Frautschi, J. R. See Joshi, R. R., 201 monocyte/macrophages in vitro, 19 charge on the inflammatory Frenkel, S. R. See Toolan, B. C., 273 Harris, W. H. See Harada, Y., 19 response: Evaluation of cellular Fritsch, E. W. Harten, R. D. See Walenciak, M. T., infiltration and TNFa production, —,; Static and fatigue properties of 465 139 two new low-viscosity PMMA Herbst, K. See Sdderling, E., 525 bone cements improved by Hernando, A. See Bellon, J. M., 1 vacuum mixing, 451 Hidaka, S. Ikada, Y. See Otani, Y., 157 Frondoza, C. G. See Nicholson III, —; Okamoto, Y.; Abe, K.; Miyazaki, Iwaki, M. See Kaibara, M., 429 J. J., 345 K.: Effects of indium and iron Iwata, H. See Kaibara, M., 429 Fulmer, M. See Brown, P. W., 395 ions on in vitro calcium phosphate Iwayama, Y. See Doi, Y., 43 precipitation and crystallinity, 11 Hilbert, S. L. Gamberini, S. See Cenni, E., 145 —; Sword, L. C.; Batchelder, K. F.; James, K. S. See Choueka, J., 35 Garcia-Alonso, M. C. See Escudero, Barrick, M. K.; Ferrans, V. J.: Jansen, J. A. See Hulshoff, J. E. G., M. L., 313 Simultaneous assessment of 329 Gatti, A. M. bioprosthetic heart valve Jasty, M. See Harada, Y., 19 —; Valdre, G.; Tombesi, A.: biomechanical properties and Jha, L. J. Importance of microanalysis in collagen crimp length, 503 —,; Santos, J. D.; Knowles, J. C.: understanding mechanism of Hill, S. L. See Nicholson III, J. J., Characterization of apatite layer transformation in active glassy 345 formation on P,O,-CaO, biomaterials, 475 Hirakawa, K. P,O0,;-CaO-Na,O, and P,0;-CaO-Na,O-Al,O; glass Legeros, J. P. See Daculsi, G., 495 Miyazaki, K. See Hidaka, S., 11 hydroxyapatite composites, 481 Letourneur, D. See Chytry, V., 265 Molino, L. N. Joshi, R. R. Levy, R. J. See Joshi, R. R., 201 —; Topoleski, L. D. T.: Effect of —; Underwood, T.; Frautschi, J. R.; Lewandrowski, K.-U. BaSO, on the fatigue crack Phillips, Jr, R. E.; Schoen, F. J.; —; Venugopalan, V.; Tomford, propagation rate of PMMA bone Levy, R. J.: Calcification of W. W.; Schomacker, K. T.; cement, 131 polyurethanes implanted Mankin, H. J.; Deutsch, T. F.: Mooradian, D. L. See Huebsch, J. B., subdermally in rats is enhanced Kinetics of cortical bone 555 by calciphylaxis, 201 demineralization: Controlled Moriwaki, Y. See Doi, Y., 43 Jozefonvicz, J. See Chytry, V., 265 demineralization—a new method Morra, M. Jurado, F. See Bellon, J. M., 1 for modifying cortical bone —; Cassinelli, C.: Staphylococcus allografts, 365 epidermidis adhesion to films Lin, D.-S. See Sung, H.-W., 511 deposited from Kaibara, M. Lopez, M. F. See Escudero, M. L., hydroxyethylmethacrylate plasma, —; Iwata, H.; Wada, H.; Kawamoto, 313 149 Y.; Iwaki, M.; Suzuki, Y.: Lowe, G. D. O. See Matata, B. M., Promotion and control of selective 63 adhesion and proliferation of Lundstrém, I. See Tengvall, P., 305 Nagano, M. endothelial cells on polymer —; Kitsugi, T.; Nakamura, T.; surface by carbon deposition, 429 Kokubo, T.; Tanahashi, M.: Bone Kajimoto, T. See Doi, Y., 43 MacEntee, M. I. See Ruse, N. D., bonding ability of an Kalk, W. See Hulshoff, J. E. G., 329 457 apatite-coated polymer produced Katona, T. R. Mankin, H. J. See Lewandrowski, using a biomimetic method: A —; Winkler, M. M.; Huang, J.: Stress K.-U., 365 mechanical and histological study analysis of a bulk-filled Class-V Margevicius, K. J. in vivo, 487 chemical-cured dental composite —,; Claes, L. E.; Diirselen, L.; Nagase, M. See Harada, Y., 19 restoration, 445 Hanselmann, K.: Identification Nakai, H. See Nishiyama, N., 379 Kawamoto, Y. See Kaibara, M., 429 and distribution of synthetic Nakamura, A. See Tsuchiya, T., 299 Keyak, J. H. ligament wear particles in sheep, Nakamura, T. See Nagano, M., 487 —-; Lee, I. Y¥.; Nath, D. S.; Skinner, 319 Nakaoka, R. See Tsuchiya, T., 299 H. B.: Postfailure compressive Matata, B. M. Nakayama, Y. See Doi, K., 27 behavior of tibial trabecular bone —; Courtney, J. M.; Sundaram, S.; —; See Matsuda, T., 235 in three anatomic directions, 373 Wark, S.; Bowry, S. K.; Vienken, Nath, D. S. See Keyak, J. H., 373 Kitago, H. See Doi, Y., 43 J.; Lowe, G. D. O.: Determination Nathanson, D. See Chou, L., 209 Kitsugi, T. See Nagano, M., 487 of contact phase activation by the Nemoto, K. See Nishiyama, N., 379 Knoblich, G. See Goodman, S. B., measurement of the activity of Nicholson III, J. J. 421 supernatant and membrane —-; Hill, S. L.; Frondoza, C. G.; Rose, Knowles, J. C. See Jha, L. J., 481 surface-adsorbed factor XII (FXII): N. R.: Silicone gel and Kohda, A. See Yamauchi, K., 439 Its relevance as a useful parameter octamethylcyclotetrasiloxane (D4) Kohn, J. See Choueka, J., 35 for the in vitro assessment of enhances antibody production to Kokubo, T. See Tanahashi, M., 243 haemodialysis membranes, 63 bovine serum albumin in mice, —; See Nagano, M., 487 Matsuda, T. See Doi, K., 27 345 Konishi, Y. See Yamauchi, K., 439 —; Nakayama, Y.: Surface Nilsson, J.-O. See Ornhagen, C., 97 Koval, K. J. See Choueka, J., 35 microarchitectural design in Nishiyama, N. Kuester, R. K. See Chapekar, M. S., biomedical applications: In vitro —; Suzuki, K.; Asakura, T.; Nakai, 251 transmural endothelialization on H.; Yasuda, S.; Nemoto, K.: The Kusunoki, T. See Yamauchi, K., 439 microporous segmented effects of pH of N-methacryloyl polyurethane films fabricated glycine primer on bond strength using an excimer laser, 235 to acid-etched dentin, 379 Lacefield, W. R. See Dasarathy, H., —,; See Tanahashi, M., 243 81 Maybee, G. See Dasarathy, H., 81 Larmas, E. See Séderling, E., 525 McLaughlin, P. J. See Hunt, J. A., O’Connor, M. See Goodman, S. B., Lee, I. Y. See Keyak, J. H., 373 139 421 Lee, J. M. See Gratzer, P. F., 533 Meddahi, A. Okamoto, Y. See Hidaka, S., 11 Lee, V. A. —; Benoit, J.; Ayoub, N.; Sézeur, A.; Opalchenova, G. —; Craig, R. G.; Filisko, F. E.; Zand, Barritault, D.: Heparin-like —; Dyulgerova, E.; Petrov, O. E.: A R.: Preparation and polymers derived from dextran study of the influence of biphase characterization of enhance colonic anastomosis calcium phosphate ceramics on high-surface-area polymer resistance to leakage, 293 bacterial strains: In vitro approach, substrates for microcalorimetry, 51 Meinig, R. P. See Pineda, L. M., 385 219 Lee, Y.-S. See Sung, H.-W., 511 Merritt, K. See Yang, J., 71 Ornhagen, C. Legeais, J.-M. See Renard, G., 193 Messner, K. See Rasanen, T., 519 —-; Nilsson, J.-O.; Vannevik, H.: Characterization of a nitrogen-rich fluorocarbon polymer implanted Effects of pH, temperature, and austenitic stainless steel used for at the posterior surface of the fixative concentration, 511 osteosynthesis devices, 97 rabbit cornea, 193 Suzuki, K. See Nishiyama, N., 379 Otani, Y. Ricci, J. L. See Walenciak, M. T., 465 Suzuki, Y. See Kaibara, M., 429 —; Tabata, Y.; Ikada, Y.: A new Riley, C. See Dasarathy, H., 81 Sword, L. C. See Hilbert, S. L., 503 biological glue from gelatin and Robinson, P. H. See den Dunnen, poly(L-glutamic acid), 157 W. F. A., 105 Rodrigues, Jr., J. M. See Fernandez-Urrusuno, R., 401 Tabata, Y. See Otani, Y., 157 Pachence, J. M. See Toolan, B. C., Rodriguez-Galicia, J. L. See Tanahashi, M. —; Kokubo, T.; Matsuda, T.: 273 Salinas-Rodriguez, A., 409 Quantitative assessment of apatite Park, A. Rose, N. R. See Nicholson III, J. J., formation via a biomimetic —; Cima, L. G.: In vitro cell response 345 to differences in poly-t-lactide Ruiz, J. See Escudero, M. L., 313 method using quartz crystal crystallinity, 117 Ruse, N. D. microbalance, 243 Parks, N. L. See Hahn, D. W., 355 —,; Troczynski, T.; MacEntee, M. I.; —; See Nagano, M., 487 Tengvall, P. Pennings, A. J. See den Dunnen, Feduik, D.: A novel fracture W. F. A., 105 toughness test using a notchless —,; Askendal, A.; Lundstrém, I.: Pereira, C. A. See Gratzer, P. F., 533 triangular prism (NTP) specimen, Complement activation by IgG immobilized on methylated Petrov, O. E. See Opalchenova, G., 457 219 silicon, 305 Phillips, Jr, R. E. See Joshi, R. R., Tombesi, A. See Gatti, A. M., 475 201 Salinas-Rodriguez, A. Tomford, W. W. See Lewandrowski, K.-U., 365 Pineda, L. M. —; Rodriguez-Galicia, J. L.: —,; Biising, M.; Meinig, R. P.; Deformation behavior of Toolan, B. C. Gogolewski, S.: Bone regeneration low-carbon Co-Cr-Mo alloys for —; Frenkel, S. R.; Pachence, J. M.; with resorbable polymeric low-friction implant applications, Yalowitz, L.; Alexander, H.: Effects of growth-factor-enhanced membranes. III. Effect of 409 poly(L-lactide) membrane pore Santos, J. D. See Jha, L. J., 481 culture on a chondrocyte-collagen size on the bone healing process Savarino, L. See Granchi, D., 183 implant for cartilage repair, 273 in large defects, 385 Savoldelli, M. See Renard, G., 193 Topoleski, L. D. T. See Molino, LON, 131 Pizzoferrato, A. See Cenni, E., 145 Schakenraad, J. M. See den Dunnen, —; See Granchi, D., 183 W. F. A., 105 Triebes, T. G. See Huebsch, J. B., 555 Pouliquen, Y. See Renard, G., 193 Schoen, F. J. See Joshi, R. R., 201 Purdon, M. A. See Horowitz, S. M., Schomacker, K. T. See Troczynski, T. See Ruse, N. D., 457 Tsuchiya, T. 91 Lewandrowski, K.-U., 365 —; Nakaoka, R.; Degawa, H.; Sézeur, A. See Meddahi, A., 293 Nakamura, A.: Studies on the Sibley, R. See Goodman, S. B., 421 mechanisms of tumorigenesis Qian, J. J. Skinner, H. B. See Keyak, J. H., 373 induced by polyetherurethanes in —-; Bhatnagar, R. S.: Enhanced cell Smid, J. See Rawls, H. R., 339 rats: Leachable and biodegradable attachment to anorganic bone Séderling, E. oligomers involving the diphenyl mineral in the presence of a —; Herbst, K.; Larmas, E.; Yli-Urpo, synthetic peptide related to A.: Protein adsorption to a carbamate structure acted as an collagen, 545 bioactive glass with special initiator on the transformation of Balb 3T3 cells, 299 reference to precorrosion, 525 Song, Y. See Goodman, S. B., 421 Rasanen, T. Stamer, D. T. See Walenciak, M. T., —; Messner, K.: Regional variations 465 Uitto, V.-J. See Chou, L., 209 of indentation stiffness and Stangel, I. Underwood, T. See Joshi, R. R., 201 thickness of normal rabbit knee —,; Valdes, E.; Xu, J.: Absorption of articular cartilage, 519 iron by dentin: Its role in Rawls, H. R. discoloration, 287 —,; Granier, R. J.; Smid, J.; Cabasso, Stokroos, I. See den Dunnen, Valdes, E. See Stangel, I., 287 I.: Thermomechanical W. F. A., 105 Valdre, G. See Gatti, A. M., 475 investigation of Strickland, I. See Hunt, J. A., 139 van der Waerden, J. P. C. M. See poly(methylmethacrylate) Stulberg, B. N. See Hirakawa, K., Hulshoff, J. E. G., 329 containing an organobismuth 257 van Dijk, K. See Hulshoff, J. E. G., radiopacifying additive, 339 Sundaram, S. See Matata, B. M., 63 329 Renard, G. Sung, H.-W. Vannevik, H. See Ornhagen, C., 97 —; Cetinel, B.; Legeais, J.-M.; —,; Hsu, C.-S.; Lee, Y.-S.; Lin, D.-S.: Venugopalan, V. See Lewandrowski, Savoldelli, M.; Durand, J.; Crosslinking characteristics of an K.-U., 365 Pouliquen, Y.: Incorporation of a epoxy-fixed porcine tendon: Vienken, J. See Matata, B. M., 63 Wada, H. See Kaibara, M., 429 Wolke, J. G. C. See Hulshoff, Yang, J. Walenciak, M. T. J. E.G. 3 —; Merritt, K.: Production of —; Zimmerman, M. C.; Harten, monoclonal antibodies to study R. D.; Ricci, J. L.; Stamer, D. T.: corrosion products of CO-CR A biomechanical and histological Xu, J. See Stangel, I., 287 biomaterials, 71 analysis of an HA coated, arc Yang, J.-M. deposited CPTi canine hip —; Hsiue, G.-H.: Radiation-induced prosthesis, 465 Yalowitz, L. See Toolan, B. C., 273 graft copolymer SBS-g-VP for Wang, J.-T. See Harada, Y., 19 Yamauchi, A. See Yamauchi, K., 439 biomaterial usage, 281 Wark, S. See Matata, B. M., 63 Yamauchi, K. Yasuda, S. See Nishiyama, N., 379 Wilde, A. H. See Hirakawa, K., 257 —; Yamauchi, A.; Kusunoki, T.; Yli-Urpo, A. See Séderling, E., 525 Williams, D. F. See Hunt, J. A., 139 Kohda, A.; Konishi, Y.: Willis, A. A. See Harada, Y., 19 Preparation of stable aqueous Zand, R. See Lee, V. A., 51 Winkler, M. M. See Katona, T. R., solution of keratins, and Zaremba, T. G. See Chapekar, M. S., 445 physiochemical and 251 Wolfarth, D. L. See Hahn, D. W., biodegradational properties of Zimmerman, M. C. See Walenciak, 355 films, 439 M. T., 465 Journal of Biomedical Materials Research Subject Index—Volume 31 Acid-etched dentin, 379 Cartilage repair, 273 Glutaraldehyde/solvent solutions, 533 Adhesion, 81, 149 Cartilage stiffness, 519 Growth factors, 273 Adhesive interfaces, 457 Cartilage thickness, 519 Adhesive primer, 379 Cell adhesion, 429, 555 HA/stricalcium phosphates (HA/TCP) Anorganic bone mineral, 545 Cell spreading, 555 coatings, 19 Anterior cruciate ligament (ACL), 511 Cellular infiltration, 139 Heat-treated plasma-spray Ca-P Antibody production, 345 Chondrocyte-seeded collagen coating, 329 Apatite formation, 243 implant, 273 Hemodialysis membrane Apatite-coated polymer, 487 Circulatory interface, 1 biocompatibility, 63 Apatite—collagen complex, 43 Collagen, 533 High-surface-area polymeric Arc deposited (AD) commercially Collagen crimp length, 503 substrates, 51 pure titanium implant surface, Colonic anastomosis repair, 293 Human dermal fibroblasts, 545 465 Complement activation, 305 Human gingival fibroblasts, 209 Articular cartilage, 519 Compression, 373 Human monocyte/macrophages, 19 Computer-aided excimer laser (KrF) Hydrogels, 157 Bacterial lipopolysaccharide (LPS), ablation technique, 27 Hydroxyapatite (HA) ceramics, 495 251 Contact phase activation, 63 Hydroxyapatite (HA) coating, 465 Bacterial strains, 219 Corneal stroma, 193 Hydroxyapatite (HA) coatings, 19 Balb 3T3 cells, 299 Corrosion, 71, 97, 313 Hydroxyapatite (HAp) formation, 395 Bioactive glass, 525 Cortical bone allografts, 365 Hydroxyapatite/metal composite Bioactive glassy materials, 475 Cortical bone demineralization, 365 coatings, 81 Biodegradable Crosslinking, 511 poly(pL-lactide-e-caprolacton) Crystallites, 481 Immobilized IgG, 305 nerve guide, 105 Cultured lymphocytes, 183 In vitro, 11, 19, 63, 117, 145, 183, 219, Biological glue, 157 235, 299, 439, 481, 495, 555 Biomimetic method, 487 In vivo, 27, 329, 439, 475, 487, 495, Bioprosthetic heart valves, 503 Degradable polymers, 35 533 Biphase Calcium Phosphate Ceramics Demineralization, 365 In vivo degradation kinetics, 35 Dental acrylic resins, 339 (BCPCs), 219 Indium, 11 Bone bonding, 487 Dental composite restorations, 445 Inflammatory response, 139 Bone cement, 131 Dentin, 293 Injection molding, 167 Bone cement particles, 91 Insulin, 265 Bone cements, 451 Electrocodeposition, 81 Interfacial shear strength, 465 Bone defects, 475 Electrolytes, 395 Iron ions, 11 Bone healing, 385 Iron-containing mordants, 293 Endothelial cells, 429 Bone resorption, 91 Energy dispersive x-ray spectrometry Bone substitutes, 43 (EDS), 287 Keratins, 439 Bone tissue response, 465 Epoxy-fixed porcine tendons, 511 Knee implants, 355 Bone-implant interface, 19, 421 Excimer laser, 235 Bovine serum albumin (BSA), 345 Light-scattering technique, 355 Bulk properties, 117 Lipoteichoic acid (LTA), 251 Factor XII (FXII), 63 Low-carbon Co-Cr-Mo alloys, 409 Calcification, 201 Fatigue crack growth rate, 131 Low-friction implant applications, 409 Calciphylaxis, 201 Fatigue strength, 451 Low-viscosity bone cement, 451 Calcium phosphate (Ca-P)-coated Fibroblasts, 209 Lymphocytes, 183 implants, 329 Fibronectin, 209, 555 Calcium phosphate precipitates, 11 Finite element (FE) analysis, 167 MA-956 superalloy, 313 Carbon deposition, 429 Fluorocarbon polymer, 193 Magnetron-sputter coating, 329 Cardiovascular implants, 201 Fracture toughness, 457 Metal extract toxicity, 183 Journal of Biomedical Materials Research, Vol. 31, 579-580 (1997) Metal sensitivity, 71 Poly-t-lactide (PLLA) crystallinity, polyethylene (UHMWPE) wear Metallic alloys, 313 117 debris, 355 Metallic implant materials, 227 Polymeric composite hip joint Synovial fluid, 355 Methylated silicon, 305 replacement, stress analysis, 167 Synthetic ligament wear particles, 319 Microcalorimetry, 51 Polymeric nanoparticle Synthetic 15-residue peptide, 545 Micropores, 235 administration, 401 Microporous polyurethane vascular Polymerization shrinkage, 445 Thin film X-ray diffractometry prosthesis, 27 Polytetrafluoroethylene (ePTFE), 1 (TF-XRD), 481 Monoclonal antibodies, 71 Polytetrafluoroethylene (PTFE) Thrombin formation, 145 Mononuclear phagocyte system, 401 particles, 251 Tibial trabecular bone, 373 Morphometry, 503 Pore sizes, 385 Tissue interface, 1 Porous expanded Tissue-derived biomaterials, 533 Net surface charge, 139 polytetrafluoroethylene (PTFE), Titanium (Ti), 209, 227 Nitrogen-rich austenitic stainless 193 TNFa production, 139 steel, 97 Precorrosion, 525 Total hip arthroplasty, 257 Notchless triangular prism (NTP), Protein adsorption, 51, 525 Total joint replacements, 71 457 Total knee arthroplasty, 257 Transient restorative—tooth interface Quartz crystal microbalance (QCM) Octamethylcyclotetrasiloxane (D4), stresses, 445 technique, 243 345 Transmission electron microscopy Optical polarizing microscopy, 281 (TEM), 495 Organobismuth radiopacifying Radiation-induced graft Transmural endothelialization, 235 additive, 339 copolymerization, 281 Tumor necrosis factor a (TNF-a), 251 Revised hip prostheses, 421 Tumorigenesis, 299 Particle migration, 319 RGTAI11, 293 Tyrosine-derived polycarbonates, 35 Peptide sequences, 555 pH, 379 S. epidermidis adhesion, 149 Uniaxial tension testing, 409 Plasma coagulation system, 145 Scanning electron microscopy (SEM), Vacuum mixing, 451 Plasma-deposited surfaces, 149 287, 481 Vascular prosthesis, 27 Plasma-spray Ca-P coating, 329 Short-term peripheral nerve Vascular replacement, 1 Plasma-treated surfaces, 149 regeneration, 105 Plastic flow behavior, 409 Silicone gel, 345 Water-soluble carbodiimides (WSC), P,O,-based glass hydroxyapatite (HA) Sintering temperatures, 495 157 composites, 481 Smooth muscle cells (GMC), 265 Wear debris, 257 Polarized light microscopy, 503 Solution cast film, 439 Wound-healing complications, 293 Poly(L-glutamic acid) (PLGA), 157 Stainless steels, 97 Poly(t-lactide) membranes, 385 Submicron-sized X-ray photoelectron spectroscopy Polyetherurethanes (PEUs), 299 ultra-high-molecular-weight (XPS), 287, 481

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