Integrated Biomaterials Science

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Integrated Biomaterials Science Edited by ROLANDO BARBUCCI Interuniversity Research Center for Advanced Medical Systems (C.R.I.S.M.A.) and Department of Chemical and Biosystem Sciences and Technologies University of Siena Siena, Italy KLUWER ACADEMIC PUBLISHERS NEW YORK, BOSTON, DORDRECHT, LONDON, MOSCOW
eBook ISBN: 0-306-47583-9 Print ISBN: 0-306-46678-3 ©2002 Kluwer Academic Publishers New York, Boston, Dordrecht, London, Moscow Print ©2002 Kluwer Academic/Plenum Publishers New York All rights reserved No part of this eBook may be reproduced or transmitted in any form or by any means, electronic, mechanical, recording, or otherwise, without written consent from the Publisher Created in the United States of America Visit Kluwer Online at: http://kluweronline.com and Kluwer's eBookstore at: http://ebooks.kluweronline.com
Page 2 and 3: Integrated Biomaterials Science
Page 6 and 7: To my wife, Gloria Rolando Barbucci
Page 8 and 9: Contributors Giovanni Abatangelo In
Page 10 and 11: Contributors ix Yoshito Ikada Resea
Page 12 and 13: Preface Progress in medical science
Page 14 and 15: Contents 1. Biological Materials Yo
Page 16 and 17: Contents xv 4.6.2. 4.6.3. 4.6.4. 4.
Page 18 and 19: Contents xvii 7.3. Metallic Corrosi
Page 20 and 21: Contents xix 13.2.2. Annulus Fibros
Page 22 and 23: Contents xxi 17.5. 17.6. 17.7. 17.8
Page 24 and 25: Contents xxiii 22.8.4. Numerical Fo
Page 26 and 27: Contents xxv 27.3.3. 27.3.4. 27.3.5
Page 28 and 29: Contents xxvii 31.3. Artificial Ski
Page 30 and 31: Integrated Biomaterials Science
Page 32 and 33: Biological Materials Yoshito Ikada
Page 34 and 35: Biological Materials 3 keeping trip
Page 36 and 37: Biological Materials 5 Gelatin is a
Page 38 and 39: Biological Materials 7 1.2.2.2. Sta
Page 40 and 41: Biological Materials 9 Therefore, t
Page 42 and 43: Biological Materials 11 chitin and
Page 44 and 45: Biological Materials 13
Page 48 and 49: Biological Materials 17 ones. Four
Page 50 and 51: Biological Materials 19 1.3.3. Drug
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Biological Materials 23 Campoccia,
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Structure and Properties of Polymer
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Fundamentals of Polymeric Composite
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Biodegradable Polymers Luca Fambri,
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Biodegradable Polymers 121 literatu
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Biodegradable Polymers 123 reaction
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Biodegradable Polymers 125
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Biodegradable Polymers 129 for late
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Biodegradable Polymers 131 breaking
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Biodegradable Polymers 133 The usef
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Biodegradable Polymers 135 The most
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Biodegradable Polymers 137 establis
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Biodegradable Polymers 139 assemble
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Biodegradable Polymers 141 surgery.
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Biodegradable Polymers 143 Becker a
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Biodegradable Polymers 145 Polyhydr
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Biodegradable Polymers 147 excess o
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Biodegradable Polymers 149 approxim
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Biodegradable Polymers 151 properti
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Biodegradable Polymers 153 electron
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Biodegradable Polymers 155 exhibit
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Biodegradable Polymers 157 stabilit
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Biodegradable Polymers 159 degrade
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Biodegradable Polymers 161 arterial
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Biodegradable Polymers 163 4.6.10.
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Biodegradable Polymers 165 In fact,
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Biodegradable Polymers 169 higher t
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Biodegradable Polymers 171 Auger, F
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Biodegradable Polymers 173 Choi, N.
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Biodegradable Polymers 175 Friess,
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Biodegradable Polymers 177 Hudson,
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Biodegradable Polymers 179 Leenslag
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Biodegradable Polymers 181 Okada, T
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Biodegradable Polymers 183 Sandler,
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Biodegradable Polymers 185 Tormala,
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Biodegradable Polymers 187 Zhang, Y
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Bioceramics and Biological Glasses
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Metallic Materials Alberto Cigada,
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Metallic Materials 257 6.2.1. Point
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Metallic Materials 259 a. Work Hard
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Metallic Materials 261 At room (or
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Metallic Materials 263 Although the
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Metallic Materials 265 circle will
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Metallic Materials 267 In the same
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Metallic Materials 269 structure (c
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Metallic Materials 271 from (with a
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Metallic Materials 273
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Metallic Materials 275 results in c
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Metallic Materials 277 6.5.2. Norma
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Metallic Materials 279 6.6.4. Stren
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Metallic Materials 281 that one wis
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Metallic Materials 283
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Metallic Materials 285 In the case
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Metallic Materials 287 metals that
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Metallic Materials 289 6.7.6. Surfa
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Metallic Materials 291 (13-15%), mo
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Metallic Materials 293 by titanium
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Metallic Materials 295 known as fol
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Degradation Processes on Metallic S
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Degradation Processes in Metallic S
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Characterization of Biomaterials Do
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Characterization of Biomaterials 32
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Tissues Luigi Ambrosio, Paolo A. Ne
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Tissues 341 structure is adapted to
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Tissues 343 As a consequence of its
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Tissues 345 References Brooks, M. 1
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Soft Tissue Luigi Ambrosio, Paolo A
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Soft Tissue 349 10.1.2. Mechanical
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Soft Tissue 351 produce instantaneo
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Soft Tissue 353 nent is the free in
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Soft Tissue 355
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Soft Tissue 357 The loading produce
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Soft Tissue 359 stiffness in the fi
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Soft Tissue 361 and tendons may var
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Soft Tissue 363 response of the tis
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Soft Tissue 365 Montagna, W., Carli
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The Eye Domenico Lepore, Luigi Ambr
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The Eye 369
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The Eye 371 glycan complexes: GAG-a
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The Eye 373 11.3. The Sclera Togeth
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The Eye 375 and to explain, at leas
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The Eye 377 (diameter about 10 nm)
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The Eye 379 Moreover, the relations
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Articular Cartilage Paolo A. Netti
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Articular Cartilage 383 small perce
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Articular Cartilage 385 fibers (Sch
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Articular Cartilage 387 The exponen
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Articular Cartilage 389 ameters, th
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Articular Cartilage 391 where is th
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Articular Cartilage 393 al., 1986;
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Articular Cartilage 395
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Articular Cartilage 397 mechanical
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Articular Cartilage 399 Fung, Y.C.
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Articular Cartilage 401 Parkkinen,
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The Material and Mechanical Propert
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Properties of the Healthy and Degen
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Soft Tissue Replacement Matteo Sant
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Soft Tissue Replacement 427 valves
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Soft Tissue Replacement 429 minimiz
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Soft Tissue Replacement 431 14.2.1.
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Soft Tissue Replacement 433 materia
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Soft Tissue Replacement 435 complem
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Soft Tissue Replacement 437 tion by
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Soft Tissue Replacement 439 an asso
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Soft Tissue Replacement 441 by low
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Soft Tissue Replacement 443 may pre
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Soft Tissue Replacement 445 14.4.2.
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Soft Tissue Replacement 447 frictio
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Soft Tissue Replacement 449 14.5. C
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Soft Tissue Replacement 451 Anderso
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Soft Tissue Replacement 453 F.J., D
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Soft Tissue Replacement 455 Larsson
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Soft Tissue Replacement 457 Salib R
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Mechanics of Hard Tissues Arturo N.
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Mechanics of Hard Tissues 461 of bo
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Mechanics of Hard Tissues 463 repor
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Mechanics of Hard Tissues 465 water
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Mechanics of Hard Tissues 467 15.2.
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Mechanics of Hard Tissues 469 15.3.
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Mechanics of Hard Tissues 471 damag
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Mechanics of Hard Tissues 473 some
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Mechanics of Hard Tissues 475 emati
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Mechanics of Hard Tissues 477 of bo
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Mechanics of Hard Tissues 479 a. Fr
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Mechanics of Hard Tissues 481 Then
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Mechanics of Hard Tissues 483 the f
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Mechanics of Hard Tissues 485 et al
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Mechanics of Hard Tissues 487 Cowin
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Mechanics of Hard Tissues 489 Natal
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Hip Joint Prosthesis Giuseppe Guida
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Hip Joint Prosthesis 493 point of v
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Hip Joint Prosthesis 495 resulting
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Hip Joint Prosthesis 497 cavity in
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Hip Joint Prosthesis 499 extremity
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Hip Joint Prosthesis 501 The second
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Hip Joint Prosthesis 503 distributi
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Hip Joint Prosthesis 505 with metal
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Hip Joint Prosthesis 507 The femora
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Hip Joint Prosthesis 509 f. Materia
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Hip Joint Prosthesis 511 al., 1976;
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Hip Joint Prosthesis 513 The princi
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Hip Joint Prosthesis 515 polyethyle
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Hip Joint Prosthesis 517 1. Good pr
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Hip Joint Prosthesis 519 Certainly
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Hip Joint Prosthesis 521 Ambrosio,
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Hip Joint Prosthesis 523 Huiskes, R
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Hip Joint Prosthesis 525 Schmalzrie
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Knee Joint Replacements Dante Ronca
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Knee Joint Replacements 529 17.2. H
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Knee Joint Replacements 531 anatomi
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Knee Joint Replacements 533 arc and
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Knee Joint Replacements 535 In 1972
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Knee Joint Replacements 537 to the
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Knee Joint Replacements 539 et al.,
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Knee Joint Replacements 541 conform
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Knee Joint Replacements 543 strated
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Knee Joint Replacements 545 overall
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Knee Joint Replacements 547 are cen
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Knee Joint Replacements 549 condyle
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Knee Joint Replacements 551 Andriac
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Knee Joint Replacements 553 Ranawat
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Biomaterial Applications: Elbow Pro
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Biomaterial Applications: Shoulder
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Acrylic Bone Cements Maria-Pau Gine
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Acrylic Bone Cements 571 20.2.2. Ch
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Acrylic Bone Cements 573 the BP int
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Acrylic Bone Cements 575 behavior d
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Acrylic Bone Cements 577 Taking fat
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Acrylic Bone Cements 579 thickness
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581
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Acrylic Bone Cements 583 20.5. Some
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Acrylic Bone Cements 585 Charnley,
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Acrylic Bone Cements 587 Nguyen, N.
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Mechanical Properties of Tooth Stru
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Dental Materials and Implants 22 Ma
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Dental Materials and Implants 603 E
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Dental Materials and Implants 605 t
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Dental Materials and Implants 607 H
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Dental Materials and Implants 609 o
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Dental Materials and Implants 611 l
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Dental Materials and Implants 613 e
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Dental Materials and Implants 615 S
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Dental Materials and Implants 619 4
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Dental Materials and Implants 621 d
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Dental Materials and Implants 623 M
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Dental Materials and Implants 627 n
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Dental Materials and Implants 629 o
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Dental Materials and Implants 635 i
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Dental Materials and Implants 637 s
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Dental Materials and Implants 639 d
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Dental Materials and Implants 641 p
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Dental Materials and Implants 643 c
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Dental Materials and Implants 645
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Dental Materials and Implants 647 A
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Dental Materials and Implants 649 B
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Dental Materials and Implants 651 a
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Dental Materials and Implants 653 P
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Materials/Biological Environment In
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Protein Adsorption and Cellular/Tis
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Inflammatory Response to Polymeric
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Inflammatory Response to Metals and
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27 Biocompatibility and Biological
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Biocompatibility and Biological Tes
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Infection and Sterilization Roberto
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Infection and Sterilization 817 dev
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Infection and Sterilization 819 sum
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Infection and Sterilization 821 ste
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Infection and Sterilization 823
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Infection and Sterilization 825 fea
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Infection and Sterilization 827 The
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Infection and Sterilization 829 eff
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Infection and Sterilization 831 Gia
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Drug Delivery Systems Francesco M.
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Drug Delivery Systems 835 Controlle
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Drug Delivery Systems 837 exploitat
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Drug Delivery Systems 839 Further p
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Drug Delivery Systems 841 biomateri
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Drug Delivery Systems 843 Polymeriz
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Drug Delivery Systems 845 Polymer d
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Drug Delivery Systems 847 absorptio
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Drug Delivery Systems 849 Jaluronic
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Drug Delivery Systems 851 29.5.2. M
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Drug Delivery Systems 853 cal prope
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Drug Delivery Systems 855 It was fo
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Drug Delivery Systems 857 surface e
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Drug Delivery Systems 859 tris(3-is
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Drug Delivery Systems 861 The maint
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Drug Delivery Systems 863 chemical
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Drug Delivery Systems 865 rate-dete
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Drug Delivery Systems 867 Equation
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Drug Delivery Systems 869 Assuming
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Drug Delivery Systems 871 lines, an
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Drug Delivery Systems 873 Gurny, R.
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Gene Delivery as a New Therapeutic
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Tissue Engineering Giovanni Abatang
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Tissue Engineering 887 fundamental
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Tissue Engineering 889 unknown unti
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Tissue Engineering 891 Adhesive Gly
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Tissue Engineering 893 toward ident
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Tissue Engineering 895 31.2.4. Test
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Tissue Engineering 897 and Mikos, 1
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Tissue Engineering 899 systemic cir
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Tissue Engineering 901 Considering
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Tissue Engineering 903 their extrac
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Tissue Engineering 905
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Tissue Engineering 907 31.3.3. Conc
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Tissue Engineering 909 Cartilage is
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Tissue Engineering 911 arthroscopic
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Tissue Engineering 913 known to hav
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Tissue Engineering 915 powerful too
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Tissue Engineering 917 1996; Mankin
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Tissue Engineering 919 autografting
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Tissue Engineering 921 natural repa
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Tissue Engineering 923 31.5.4. Tiss
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Tissue Engineering 925 Finally, dif
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Tissue Engineering 927 31.6.4. Pare
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Tissue Engineering 929 devices have
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Tissue Engineering 931 after 2 year
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Tissue Engineering 933 contacts of
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Tissue Engineering 935 coculture of
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Tissue Engineering 937 Adams, J.C.,
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Tissue Engineering 939 Clement, B.,
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Tissue Engineering 941 Guillouzo, A
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Tissue Engineering 943 Martin, P. 1
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Tissue Engineering 945 Schwarz, R.P
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Assist Devices Gerardo Catapano 32.
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Assist Devices 949 All body fluids
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Assist Devices 951 fluid (e.g., a b
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Assist Devices 953 The quantity is
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Assist Devices 955 In blood process
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Assist Devices 957 but also electro
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Assist Devices 959 disorder and pat
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Assist Devices 961 the form of cann
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Assist Devices 963 preparation: The
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Assist Devices 965 complex. Extrusi
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Assist Devices 967 b. Synthetic Pol
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Assist Devices 969 was done before,
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Assist Devices 971 inflicted upon b
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Assist Devices 973 The most relevan
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Assist Devices 975 reduction is tra
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Assist Devices 977 supporting nearl
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Assist Devices 979
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Assist Devices 981 Thus, in additio
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Assist Devices 983 PS, polyvinyl co
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Standards on Biomaterials Maria Vit
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Standards on Biomaterials 987 the E
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Standards on Biomaterials 989 the E
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Standards on Biomaterials 991 Moreo
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Standards on Biomaterials 993 make
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Standards on Biomaterials 995 Plant
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Standards on Biomaterials 997 Invas
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Standards on Biomaterials 999 which
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Standards on Biomaterials 1001 Part
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Biomaterials and Patents Maria Vitt
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Biomaterials and Patents 1005 Howev
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Biomaterials and Patents 1007 “Th
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Biomaterials and Patents 1009 34.1.
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Biomaterials and Patents 1011 Howev
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Biomaterials and Patents 1013 Nonet
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Index A Acellular approaches, artif
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Index 1017 Bacterial degradation, b
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Index 1019 Bioresorbable polymers,
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Index 1021 D Deacetylation, chitin
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Index 1023 Eye, 367-379 cornea, 368
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Index 1025 inorganic materials, 12
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Index 1027 L Lactic/glycolic acid p
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Index 1029 Microdebonding test, fib
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Index 1031 carbon (graphite) fibers
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Index 1033 Reverse transcription po
Page 1066 and 1067:
Index 1035 tissue engineering, 896-
Page 1068:
Index 1037 Unidirectional lamina el
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