- 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 46 and 47: Biological Materials 15
- Page 48 and 49: Biological Materials 17 ones. Four
- Page 50 and 51: Biological Materials 19 1.3.3. Drug
- Page 52 and 53: Biological Materials 21
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Biological Materials 23 Campoccia,
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Structure and Properties of Polymer
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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Fundamentals of Polymeric Composite
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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 127
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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 167
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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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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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Bioceramics and Biological Glasses
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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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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in Metallic S
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Degradation Processes in 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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Characterization of Biomaterials 32
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Characterization of Biomaterials 33
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Characterization of Biomaterials 33
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Characterization of Biomaterials 33
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Characterization of Biomaterials 33
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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.
- Page 432 and 433:
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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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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Properties of the Healthy and Degen
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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,
- Page 554 and 555:
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
- Page 588 and 589:
Biomaterial Applications: Elbow Pro
- Page 590 and 591:
Biomaterial Applications: Elbow Pro
- Page 592 and 593:
Biomaterial Applications: Shoulder
- Page 594 and 595:
Biomaterial Applications: Shoulder
- Page 596 and 597:
Biomaterial Applications: Shoulder
- Page 598 and 599:
Biomaterial Applications: Shoulder
- Page 600 and 601:
Acrylic Bone Cements Maria-Pau Gine
- Page 602 and 603:
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
- Page 616 and 617:
Acrylic Bone Cements 585 Charnley,
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Acrylic Bone Cements 587 Nguyen, N.
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Mechanical Properties of Tooth Stru
- Page 622 and 623:
Mechanical Properties of Tooth Stru
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Mechanical Properties of Tooth Stru
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Mechanical Properties of Tooth Stru
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Mechanical Properties of Tooth Stru
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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 617 t
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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 625 2
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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 631 1
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Dental Materials and Implants 633 t
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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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Materials/Biological Environment In
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Materials/Biological Environment In
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Materials/Biological Environment In
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Materials/Biological Environment In
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Materials/Biological Environment In
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Materials/Biological Environment In
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
- Page 706 and 707:
Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Protein Adsorption and Cellular/Tis
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Inflammatory Response to Polymeric
- Page 724 and 725:
Inflammatory Response to Polymeric
- Page 726 and 727:
Inflammatory Response to Polymeric
- Page 728 and 729:
Inflammatory Response to Polymeric
- Page 730 and 731:
Inflammatory Response to Polymeric
- Page 732 and 733:
Inflammatory Response to Polymeric
- Page 734 and 735:
Inflammatory Response to Polymeric
- Page 736 and 737:
Inflammatory Response to Polymeric
- Page 738 and 739:
Inflammatory Response to Polymeric
- Page 740 and 741:
Inflammatory Response to Polymeric
- Page 742 and 743:
Inflammatory Response to Polymeric
- Page 744 and 745:
Inflammatory Response to Polymeric
- Page 746 and 747:
Inflammatory Response to Polymeric
- Page 748 and 749:
Inflammatory Response to Polymeric
- Page 750 and 751:
Inflammatory Response to Polymeric
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Inflammatory Response to Polymeric
- Page 754 and 755:
Inflammatory Response to Polymeric
- Page 756 and 757:
Inflammatory Response to Polymeric
- Page 758 and 759:
Inflammatory Response to Polymeric
- Page 760 and 761:
Inflammatory Response to Polymeric
- Page 762 and 763:
Inflammatory Response to Polymeric
- Page 764 and 765:
Inflammatory Response to Polymeric
- Page 766 and 767:
Inflammatory Response to Metals and
- Page 768 and 769:
Inflammatory Response to Metals and
- Page 770 and 771:
Inflammatory Response to Metals and
- Page 772 and 773:
Inflammatory Response to Metals and
- Page 774 and 775:
Inflammatory Response to Metals and
- Page 776 and 777:
Inflammatory Response to Metals and
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Inflammatory Response to Metals and
- Page 780 and 781:
Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
- Page 798 and 799:
Inflammatory Response to Metals and
- Page 800 and 801:
Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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Inflammatory Response to Metals and
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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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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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Biocompatibility and Biological Tes
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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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Gene Delivery as a New Therapeutic
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Gene Delivery as a New Therapeutic
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Gene Delivery as a New Therapeutic
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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
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Index 1035 tissue engineering, 896-
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Index 1037 Unidirectional lamina el