Tissue Engineering And Nanotheranostics

b2815 Tissue Engineering and Nanotheranostics “9.61x6.69”

290 Index

photocurable

bioinks, 55

photodynamic/photothermal

therapy, 102

photodynamic therapy, 251

phototherapy applications, 101

photothermal therapy, 250

physiological, 36

planar illumination, 169

plasmonic–magnetic and plamonic–

plasmonic hybrid nanoparticles,

127

plasmonic–magnetic hybrid

nanoparticles, 125

plasmon mode

longitudinal, 156

transverse, 156

plasmon resonance energy transfer

(PRET), 152

plasmon ruler, 177

plastic deformation, 39

pluripotency, 8

polymer, 233

polymeric, 32

polymeric Micelle, 236

poor drug biodistribution, 231

prenatal, 31

proliferation, 6

PTT, 137

Q

quantum effects, 170

R

radionuclide imaging, 247

Raman fingerprint, 184

rapid clearance, 231

Rayleigh size, 155

reactive oxygen species, 189

real-time imaging, 171

refractive index of the surrounding

medium, 153

refractive index sensitivity, 159

regeneration, 5 , 11

relaxation properties of different

hybrid structures, 131

resorbable, 37

reticuloendothelial system, 187

Riccati–Bessel function, 154

ROS

singlet oxygen, 189

S

satellite cells (SCs), 4 , 10

scaffold-based

tissue engineering, 50

scaffolding materials, 11 , 14

scanning electron microscopy

(SEM), 42

scar tissue, 4

scattering shift, 153

blue-shifted, 158

red-shift, 158

secant modulus, 38

seed-mediated growth mechanism,

122

seed-mediated growth towards

magnetic nanohybrids, 106

self-assembled heterogeneous

nucleation, 107

self-assembly mechanism, 118

self-assembly principle, 117

self-renewal, 7

sensor

beacon, 184

biosensor assay, 174

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