|
animals |
24 |
|
strontium |
22 |
|
biomechanics |
20 |
|
osteoporosis |
20 |
|
humans |
18 |
|
materials testing |
18 |
|
bone remodeling |
14 |
|
hydroxyapatite |
14 |
|
bioactive bone cement |
13 |
|
collagen fibril |
13 |
|
osteogenesis |
13 |
|
mice |
12 |
|
bioactivity |
11 |
|
biocompatibility |
11 |
|
biocompatible materials |
11 |
|
cell proliferation |
11 |
|
nanoindentation |
11 |
|
osteoarthritis |
11 |
|
rabbits |
11 |
|
strontium-containing hydroxyapatite |
11 |
|
tissue engineering |
11 |
|
adult |
10 |
|
articular cartilage |
10 |
|
atomic force microscopy |
10 |
|
compressive strength |
10 |
|
intervertebral disc |
10 |
|
mechanical properties |
10 |
|
rats |
10 |
|
stress, mechanical |
10 |
|
trabecular bone |
10 |
|
bone |
9 |
|
female |
9 |
|
implant stability |
9 |
|
medical sciences |
9 |
|
microscopy, electron, scanning |
9 |
|
osseointegration |
9 |
|
prostheses and implants |
9 |
|
aged |
8 |
|
bone and bones - physiology |
8 |
|
bone tissue engineering |
8 |
|
durapatite |
8 |
|
regeneration |
8 |
|
scaffold |
8 |
|
strontium - chemistry |
8 |
|
tissue engineering - methods |
8 |
|
adolescent |
7 |
|
alkaline phosphatase - metabolism |
7 |
|
allograft |
7 |
|
biodegradation, environmental |
7 |
|
biomaterials |
7 |
|
bone cements |
7 |
|
bone cements - chemistry |
7 |
|
bone regeneration |
7 |
|
bone remodeling - drug effects |
7 |
|
cell line |
7 |
|
disc degeneration |
7 |
|
durapatite - chemistry |
7 |
|
durapatite - metabolism |
7 |
|
middle aged |
7 |
|
plasma immersion ion implantation |
7 |
|
runx2 |
7 |
|
strontium - pharmacology |
7 |
|
weight-bearing |
7 |
|
adeno-associated virus |
6 |
|
adenovirus |
6 |
|
alkaline phosphatase - biosynthesis |
6 |
|
atomic force microscope |
6 |
|
biocompatible materials - chemistry |
6 |
|
body fluids |
6 |
|
bone cements - metabolism |
6 |
|
bone formation |
6 |
|
bone morphogenetic protein-2 |
6 |
|
calcium - chemistry |
6 |
|
calcium phosphate cement |
6 |
|
cartilage, articular - ultrasonography |
6 |
|
corrosion resistance |
6 |
|
cytotoxicity |
6 |
|
degeneration |
6 |
|
degradation |
6 |
|
disease models, animal |
6 |
|
endplate |
6 |
|
equipment design |
6 |
|
fibrillar collagens - chemistry - ultrastructure |
6 |
|
fibrillar collagens - ultrastructure |
6 |
|
fibrosis |
6 |
|
fracture mechanics |
6 |
|
gene therapy |
6 |
|
human intervertebral disc |
6 |
|
interface |
6 |
|
intervertebral disk - chemistry |
6 |
|
knee joint |
6 |
|
male |
6 |
|
materials testing - methods |
6 |
|
matrix metalloproteinase 12 |
6 |
|
mesenchymal stem cells/multipotent stromal cells |
6 |
|
microscopy, atomic force - methods |
6 |
|
microstructure |
6 |
|
models, biological |
6 |
|
nanofibers - chemistry - ultrastructure |
6 |
|
nanostructure |
6 |
|
nickel titanium |
6 |
|
niti |
6 |
|
nucleus pulposus |
6 |
|
osseointegration - drug effects |
6 |
|
osteoarthritis, knee - pathology |
6 |
|
osteoblasts |
6 |
|
osteoblasts - cytology - drug effects |
6 |
|
osteogenesis - drug effects |
6 |
|
ovariectomy |
6 |
|
postmenopause |
6 |
|
spine |
6 |
|
total hip arthroplasty |
6 |
|
vertebroplasty |
6 |
|
adult progenitor cells |
5 |
|
algorithms |
5 |
|
amino acid |
5 |
|
animal model |
5 |
|
biglycan |
5 |
|
biocompatible materials - chemistry - toxicity |
5 |
|
bisphosphonate-related osteonecrosis of the jaws |
5 |
|
bone and bones - cytology - drug effects - physiology |
5 |
|
bone biomechanics |
5 |
|
bone cements - chemical synthesis - therapeutic use |
5 |
|
bone cements - chemistry - pharmacology - standards |
5 |
|
bone cements - chemistry - therapeutic use - toxicity |
5 |
|
bone cements - chemistry - toxicity |
5 |
|
bone density |
5 |
|
bone resorption |
5 |
|
cell adhesion - drug effects |
5 |
|
cell proliferation - drug effects |
5 |
|
cell viability |
5 |
|
cells, cultured |
5 |
|
chromium alloys |
5 |
|
coated materials, biocompatible - chemistry |
5 |
|
collagen |
5 |
|
corrosion |
5 |
|
decorin |
5 |
|
durapatite - chemistry - therapeutic use |
5 |
|
durapatite - therapeutic use |
5 |
|
electromyography |
5 |
|
engineering |
5 |
|
finger joint - surgery |
5 |
|
fracture risk |
5 |
|
fractures, spontaneous - etiology - therapy |
5 |
|
goat |
5 |
|
green fluorescent proteins - metabolism |
5 |
|
hip - physiology |
5 |
|
hip injuries - drug therapy |
5 |
|
hip prosthesis |
5 |
|
hydrogel |
5 |
|
hydroxyapatites |
5 |
|
hypoxia-inducible factor |
5 |
|
ilium |
5 |
|
intraoperative spinal cord monitoring |
5 |
|
ketones - chemistry |
5 |
|
kyphoplasty |
5 |
|
low back pain |
5 |
|
lumbar |
5 |
|
mechanical |
5 |
|
mechanical property |
5 |
|
mesenchymal stem cells - cytology - drug effects |
5 |
|
mitogen-activated protein kinase (mapk) pathway |
5 |
|
mri |
5 |
|
mscs |
5 |
|
nanostructures - chemistry - ultrastructure |
5 |
|
neovascularization, physiologic - drug effects |
5 |
|
nickel |
5 |
|
nickel - analysis - chemistry |
5 |
|
nickel - chemistry |
5 |
|
nickel titanium shape memory alloys |
5 |
|
nickel-titanium alloy |
5 |
|
nitinol |
5 |
|
osteoblast |
5 |
|
osteoblasts - drug effects - metabolism - ultrastructure |
5 |
|
osteoconductive |
5 |
|
osteoconductivity |
5 |
|
osteoporosis - complications |
5 |
|
osteoporotic spine fracture |
5 |
|
osteoprotegerin |
5 |
|
periodontitis |
5 |
|
pilot projects |
5 |
|
polyetheretherketone |
5 |
|
polyethylene glycols - chemistry |
5 |
|
polymethyl methacrylate |
5 |
|
polymethyl methacrylate - toxicity |
5 |
|
ras |
5 |
|
ras proteins - genetics - metabolism |
5 |
|
rat |
5 |
|
reconstruction |
5 |
|
signal processing, computer-assisted |
5 |
|
signal transduction - drug effects |
5 |
|
somatosensory evoked potential |
5 |
|
spinal fractures - radiography - surgery |
5 |
|
spinal fractures - therapy |
5 |
|
spinal fusion |
5 |
|
spinal surgery |
5 |
|
spine - surgery |
5 |
|
stainless steel |
5 |
|
stiffness |
5 |
|
strontium - therapeutic use |
5 |
|
strontium hydroxyapatite nanorod |
5 |
|
structure |
5 |
|
subchondral trabecular bone |
5 |
|
surface modification |
5 |
|
surface roughness |
5 |
|
surface treatment |
5 |
|
swine |
5 |
|
tensile strength |
5 |
|
tissue scaffolds |
5 |
|
tissue scaffolds - chemistry |
5 |
|
titanium |
5 |
|
titanium - chemistry |
5 |
|
trabecular bone trauma implant simulation |
5 |
|
treatment outcome |
5 |
|
zoledronic acid |
5 |
|
β-catenin |
5 |
|
μfea |
5 |
|
a. powders: chemical preparation |
4 |
|
adaptive noise canceller (anc) |
4 |
|
adaptive signal enhancer |
4 |
|
adaptive signal enhancer (ase) |
4 |
|
adipocytes - cytology - transplantation |
4 |
|
adipose-tissue stromal cells |
4 |
|
adjacent segments |
4 |
|
alginate microbeads |
4 |
|
alginates - chemistry |
4 |
|
alloys |
4 |
|
alloys - chemistry - metabolism |
4 |
|
anabolic agents - pharmacology |
4 |
|
analysis of variance |
4 |
|
animal experiment |
4 |
|
anterior cruciate ligament (acl) |
4 |
|
anterior cruciate ligament - injuries - physiopathology - radiography - surgery |
4 |
|
anterior cruciate ligament reconstruction |
4 |
|
apatite |
4 |
|
artificial joints -- design and construction. |
4 |
|
behavior, animal |
4 |
|
biocompatible materials - chemistry - metabolism |
4 |
|
biomechanics (生物力學) |
4 |
|
biomimetic |
4 |
|
biomimetic materials - chemistry |
4 |
|
blood supply |
4 |
|
blood vessels |
4 |
|
body weight |
4 |
|
bone cement |
4 |
|
bone cements - adverse effects - chemistry |
4 |
|
bone crystal |
4 |
|
bone density conservation agents - pharmacology - therapeutic use |
4 |
|
bone marrow cells - cytology |
4 |
|
bone mineral density |
4 |
|
bone remodeling - drug effects - physiology |
4 |
|
bone substitutes - administration & dosage - chemistry |
4 |
|
bone substitutes - chemistry |
4 |
|
bone transplantation - methods |
4 |
|
bonemorphogenetic protein-4 |
4 |
|
bony callus - pathology - physiology - radiography |
4 |
|
bony healing |
4 |
|
brain mapping - methods |
4 |
|
ca-alginate |
4 |
|
cadaver |
4 |
|
calcium |
4 |
|
calcium - blood - pharmacology |
4 |
|
calcium phosphates - chemistry |
4 |
|
carbon - analysis - chemistry |
4 |
|
cartilage |
4 |
|
cartilage, articular - cytology - physiology |
4 |
|
cell culture techniques - methods |
4 |
|
cell differentiation |
4 |
|
cell encapsulation |
4 |
|
cell survival |
4 |
|
cell survival - physiology |
4 |
|
cell transplantation |
4 |
|
cell transplantation - methods |
4 |
|
cement augmentation |
4 |
|
ceramics - chemistry |
4 |
|
chemical modification |
4 |
|
chemical processes |
4 |
|
chemical treatment |
4 |
|
chitosan |
4 |
|
chondrocytes |
4 |
|
chondrogenesis - physiology |
4 |
|
chondrogenic extracellular matrix |
4 |
|
coated materials, biocompatible - chemistry - metabolism |
4 |
|
coculture techniques |
4 |
|
col9a2 |
4 |
|
collagen type i - chemistry - metabolism - ultrastructure |
4 |
|
collagen type ix - analysis - genetics |
4 |
|
computer simulation |
4 |
|
creep expansion |
4 |
|
cross-linking reagents - chemistry |
4 |
|
culture media, serum-free - chemistry |
4 |
|
d. apatite |
4 |
|
decellularization |
4 |
|
diagnosis, computer-assisted - methods |
4 |
|
durapatite - pharmacology |
4 |
|
e. biomedical applications |
4 |
|
electrochemical impedance spectroscopy |
4 |
|
electrochemistry - methods |
4 |
|
electroencephalography - methods |
4 |
|
electromyography - methods |
4 |
|
emg |
4 |
|
endocrinology |
4 |
|
ensemble averaging |
4 |
|
evoked potentials, somatosensory |
4 |
|
evoked potentials, somatosensory - physiology |
4 |
|
exosomes |
4 |
|
external fixation |
4 |
|
external fixators |
4 |
|
extracellular matrix |
4 |
|
femoral fractures - physiopathology - radiography - surgery |
4 |
|
femur |
4 |
|
fibrin - chemistry - metabolism - ultrastructure |
4 |
|
finger joint -- data processing. |
4 |
|
finite element analysis |
4 |
|
fracture |
4 |
|
fracture fixation |
4 |
|
frequency |
4 |
|
genetic predisposition to disease |
4 |
|
glucuronic acid - chemistry |
4 |
|
hardness |
4 |
|
heat treatment |
4 |
|
hexuronic acids - chemistry |
4 |
|
hot isostatic pressing |
4 |
|
hydroxyapatites - chemistry |
4 |
|
idiopathic scoliosis |
4 |
|
immunoenzyme techniques |
4 |
|
immunohistochemistry |
4 |
|
implant locking mechanism |
4 |
|
injections - methods |
4 |
|
intervertebral disc - chemistry - physiopathology |
4 |
|
intervertebral disc cells |
4 |
|
ion implantation |
4 |
|
ions - chemistry |
4 |
|
ligation |
4 |
|
low back pain - genetics - metabolism - physiopathology |
4 |
|
lumbosacral region |
4 |
|
magnetic resonance imaging - methods |
4 |
|
mechanical characterization |
4 |
|
median frequency |
4 |
|
mesenchymal stem cell transplantation |
4 |
|
mesenchymal stem cells - drug effects - physiology |
4 |
|
mice, transgenic |
4 |
|
microcapsules |
4 |
|
microscopy, electron |
4 |
|
mobility |
4 |
|
models, neurological |
4 |
|
models, statistical |
4 |
|
modic |
4 |
|
mouse model |
4 |
|
msc (mesenchymal stem cell) |
4 |
|
muscle atrophy |
4 |
|
muscle, skeletal - pathology - physiology - physiopathology |
4 |
|
muscular atrophy - complications - diagnosis - physiopathology |
4 |
|
nanocomposite scaffold |
4 |
|
new bone formation |
4 |
|
ni leaching |
4 |
|
nickel - chemistry - metabolism |
4 |
|
nickel release |
4 |
|
nickel titanium shape memory alloy |
4 |
|
nickel-titanium (niti) shape memory alloys |
4 |
|
nickel-titanium shape memory alloy |
4 |
|
niti shape memory alloy |
4 |
|
niti shape memory alloys |
4 |
|
niti shape-memory alloy |
4 |
|
orthopedic fixation devices |
4 |
|
orthopedic implants |
4 |
|
orthopedics and traumatology |
4 |
|
orthopedics and traumatology medical sciences |
4 |
|
osteoblasts - cytology |
4 |
|
osteoblasts - cytology - physiology |
4 |
|
osteoporosis - drug therapy - physiopathology - prevention and control |
4 |
|
oxidation |
4 |
|
oxygen |
4 |
|
paraspinal muscles |
4 |
|
paraspinal muscular activity |
4 |
|
photochemistry - methods |
4 |
|
plasma immersion ion implantation and deposition |
4 |
|
plastics |
4 |
|
platelet adhesiveness |
4 |
|
polyglycolic acid |
4 |
|
polyglycolic acid - pharmacology |
4 |
|
polylysine - chemistry |
4 |
|
polymorphism |
4 |
|
polymorphism, genetic |
4 |
|
porosity |
4 |
|
porous nickel titanium alloy |
4 |
|
porous nickel-titanium |
4 |
|
porous niti |
4 |
|
porous niti shape memory alloy |
4 |
|
posture |
4 |
|
pressure |
4 |
|
prospective studies |
4 |
|
proximal humerus |
4 |
|
pulsing frequency |
4 |
|
radiography |
4 |
|
rat model |
4 |
|
reference values |
4 |
|
remodelling |
4 |
|
reproducibility of results |
4 |
|
revascularisation |
4 |
|
reverse engineering. |
4 |
|
risk factors |
4 |
|
root mean square |
4 |
|
root mean square value |
4 |
|
rose bengal - chemistry |
4 |
|
scoliosis |
4 |
|
scoliosis - complications - physiopathology - surgery |
4 |
|
scoliosis - genetics - metabolism - physiopathology |
4 |
|
segmental artery |
4 |
|
sensitivity and specificity |
4 |
|
setting time |
4 |
|
shape memory alloy |
4 |
|
shape memory alloys |
4 |
|
shape recovery |
4 |
|
signal-to-noise ratio (snr) |
4 |
|
signaling pathway |
4 |
|
simulated body fluid |
4 |
|
sintering |
4 |
|
solid titration |
4 |
|
solubility |
4 |
|
solutions |
4 |
|
somatosensory evoked potential (sep) |
4 |
|
spectrophotometry |
4 |
|
spinal cord |
4 |
|
spinal cord compression - diagnosis - physiopathology |
4 |
|
spinal cord injury |
4 |
|
spinal diseases - complications - genetics - metabolism - physiopathology |
4 |
|
spinal fusion - instrumentation - methods |
4 |
|
spinal implant |
4 |
|
streaming topography |
4 |
|
stress, physiological |
4 |
|
stromal cells - cytology - transplantation |
4 |
|
strontium - blood - pharmacology |
4 |
|
strontium-containing hydroxyapatite (sr-ha) bone cement |
4 |
|
strontium-substituted apatite |
4 |
|
superelasticity |
4 |
|
surface barrier layer |
4 |
|
surface electromyography |
4 |
|
surface free energy |
4 |
|
surface morphology and roughness |
4 |
|
thoracic vertebrae - surgery |
4 |
|
tibia - physiopathology - radiography |
4 |
|
titanium - analysis - chemistry |
4 |
|
titanium - chemistry - metabolism |
4 |
|
titrimetry - methods |
4 |
|
transformation temperature |
4 |
|
transplantation |
4 |
|
trp2 |
4 |
|
voltage |
4 |
|
water plasma immersion ion implantation |
4 |
|
wear |
4 |
|
xps |
4 |
|
3d bioprinting |
3 |
|
3d printing |
3 |
|
a1. crystal morphology |
3 |
|
a2. hydrothermal crystal growth |
3 |
|
acl reconstruction |
3 |
|
acrylates - chemistry |
3 |
|
acrylolpamidronate |
3 |
|
adaptive spectrogram (ads) |
3 |
|
adipogenesis |
3 |
|
adolescent idiopathic scoliosis |
3 |
|
aged, 80 and over |
3 |
|
akap11 |
3 |
|
amplitude |
3 |
|
anterior cruciate ligament |
3 |
|
anterior cruciate ligament (前交叉韌帶) |
3 |
|
anterior release |
3 |
|
anti-bacterial agents - administration and dosage - pharmacology |
3 |
|
antimicrobial |
3 |
|
apatite formation |
3 |
|
apoptosis |
3 |
|
arthroplasty |
3 |
|
arthroplasty, replacement, hip - instrumentation |
3 |
|
artificial material |
3 |
|
autograft |
3 |
|
b1. nanomaterials |
3 |
|
b1. phosphates |
3 |
|
b2. phosphors |
3 |
|
barb thread |
3 |
|
basic fibroblast growth factor |
3 |
|
bioactive material |
3 |
|
biocompatible materials - administration & dosage - chemistry |
3 |
|
biocompatible materials - pharmacology |
3 |
|
biomaterial |
3 |
|
biomechanical properties |
3 |
|
biomechanical study |
3 |
|
biomechanics - methods |
3 |
|
bone and bones - chemistry - ultrastructure |
3 |
|
bone cements - therapeutic use |
3 |
|
bone defect |
3 |
|
bone marrow cells - cytology - drug effects |
3 |
|
bone marrow stromal cells |
3 |
|
bone morphogenetic protein |
3 |
|
bone quality |
3 |
|
bone strength |
3 |
|
bone structure |
3 |
|
bone targeting |
3 |
|
bone-bonding behaviors |
3 |
|
bone-bonding strength |
3 |
|
borosilicate |
3 |
|
buttress thread |
3 |
|
calcification, physiologic |
3 |
|
calcium compounds - pharmacology |
3 |
|
calcium phosphate cement (cpc) |
3 |
|
calcium silicate |
3 |
|
cell and molecular imaging |
3 |
|
cement leakage |
3 |
|
cervical spine |
3 |
|
chemical composition |
3 |
|
chemonucleolysis |
3 |
|
child |
3 |
|
choi-williams distribution (cwd) |
3 |
|
chymopapain |
3 |
|
classification |
3 |
|
compressive fracture |
3 |
|
cone shaped distribution (csd) |
3 |
|
correlation coefficient |
3 |
|
current density distribution |
3 |
|
deformation volume |
3 |
|
diaphyseal fractures |
3 |
|
differentiation |
3 |
|
diffusion barrier |
3 |
|
diphosphonates - chemistry |
3 |
|
distal radius fracture (橈骨遠端骨折) |
3 |
|
dunkin-hartley guinea pig |
3 |
|
durapatite - chemistry - pharmacology |
3 |
|
early stage osteoarthritis |
3 |
|
elasticity |
3 |
|
electrical engineering |
3 |
|
electromyography (emg) |
3 |
|
electrospinning |
3 |
|
engineering mechanics and materials medical sciences |
3 |
|
epidural stimulation |
3 |
|
evoked potential |
3 |
|
evoked-potentials,-somatosensory-physiology |
3 |
|
fracture fixation, internal - instrumentation |
3 |
|
fractures, bone - surgery |
3 |
|
fractures, compression - radiography - surgery |
3 |
|
gene delivery |
3 |
|
gentamicins - administration and dosage - pharmacology |
3 |
|
goats |
3 |
|
graft |
3 |
|
graft (移植物) |
3 |
|
growth factor |
3 |
|
guinea pig |
3 |
|
healing |
3 |
|
healing (愈合) |
3 |
|
hip joint - radiography - surgery |
3 |
|
hrtem |
3 |
|
hyaluronic acid gel |
3 |
|
hydroxyapatite coating |
3 |
|
hydroxyapatites - administration & dosage - chemistry |
3 |
|
hypertension |
3 |
|
in vivo |
3 |
|
incidence |
3 |
|
individual trabecula segmentation |
3 |
|
inflammation |
3 |
|
injections |
3 |
|
isometric and isokinetic |
3 |
|
joint diseases - radiography - surgery |
3 |
|
lasers |
3 |
|
latency |
3 |
|
lifting strength |
3 |
|
linoleic acid |
3 |
|
long-bone segmental defect reconstruction |
3 |
|
lordosis |
3 |
|
lumbar spine |
3 |
|
lumbar vertebrae - radiography - surgery |
3 |
|
magnoflorine |
3 |
|
mc3t3-e1 |
3 |
|
mechanism |
3 |
|
mesenchymal stem cell |
3 |
|
methacrylates |
3 |
|
methyl methacrylate (mma) |
3 |
|
methylmethacrylate - chemistry |
3 |
|
mice, inbred c57bl |
3 |
|
mice, inbred icr |
3 |
|
micro-ct |
3 |
|
micro-indentation |
3 |
|
microenvironment |
3 |
|
microhardness |
3 |
|
mineralization |
3 |
|
mir-494 |
3 |
|
mmp-9 |
3 |
|
molecular structure |
3 |
|
monitoring, intraoperative - methods |
3 |
|
monitoring, intraoperative - methods - standards |
3 |
|
monitoring,-intraoperative-methods |
3 |
|
muscle |
3 |
|
muscle fiber size |
3 |
|
muscle fibre size |
3 |
|
nanocomposite |
3 |
|
nanocomposites - chemistry - ultrastructure |
3 |
|
nanocrystallite |
3 |
|
nanomedicine |
3 |
|
nanoparticle |
3 |
|
nanoparticles - chemistry |
3 |
|
nanotechnology - methods |
3 |
|
nickel alloys |
3 |
|
octaarginine |
3 |
|
orthopedic equipment |
3 |
|
osteoblastogenesis |
3 |
|
osteoblasts - drug effects - metabolism - pathology |
3 |
|
osteoblasts - metabolism - ultrastructure |
3 |
|
osteoclasts |
3 |
|
osteoclasts - drug effects - metabolism - pathology |
3 |
|
osteopontin - biosynthesis |
3 |
|
osteoporosis - drug therapy - pathology |
3 |
|
osteoprotegerin - genetics - metabolism |
3 |
|
osteosarcoma |
3 |
|
ovariectomized goats |
3 |
|
pain |
3 |
|
pedicle screw |
3 |
|
phosphates - pharmacology - therapeutic use |
3 |
|
physical demand |
3 |
|
plasma deposition |
3 |
|
plasma spraying |
3 |
|
poly(d,l-lactic acid) |
3 |
|
polymethyl methacrylate - chemistry |
3 |
|
polymethyl methacrylate bone cement (pmma) |
3 |
|
polymethylmethacrylate |
3 |
|
posterior tibial nerve |
3 |
|
potential field distribution |
3 |
|
prosthesis failure |
3 |
|
psychiatry and neurology medical sciences |
3 |
|
pullout strength |
3 |
|
radial stress |
3 |
|
radiostereometric analysis (rsa) |
3 |
|
range of motion, articular |
3 |
|
rankl |
3 |
|
rats, sprague-dawley |
3 |
|
reaction time |
3 |
|
recovery of function |
3 |
|
reverse buttress thread |
3 |
|
reverse martensitic transformation temperatures |
3 |
|
revision hip arthroplasty |
3 |
|
scoliosis - surgery |
3 |
|
screw loosening |
3 |
|
selective laser sintering |
3 |
|
short time fourier transform (stft) |
3 |
|
signal-processing,-computer-assisted |
3 |
|
silybin |
3 |
|
skin flaps |
3 |
|
somatosensory evoked potentials |
3 |
|
spectrophotometry, atomic |
3 |
|
spectroscopy, fourier transform infrared |
3 |
|
spectrum analysis |
3 |
|
spinal cord - physiopathology |
3 |
|
spinal cord compression - diagnosis - prevention & control |
3 |
|
spinal cord evoked potential |
3 |
|
spinal flexibility |
3 |
|
spinal fracture |
3 |
|
spinal fusion - methods |
3 |
|
spinal somatosensory evoked potential (ssep) |
3 |
|
spinal-cord-physiology |
3 |
|
spine - radiography - surgery |
3 |
|
spine biomechanics |
3 |
|
spontaneous osteoarthritis |
3 |
|
stem cells - metabolism - ultrastructure |
3 |
|
stimulation rate |
3 |
|
stimulus pulse duration |
3 |
|
stress redistribution |
3 |
|
stress shielding |
3 |
|
strontium - administration & dosage - chemistry |
3 |
|
strontium - analysis - pharmacology - therapeutic use |
3 |
|
strontium - pharmacology - therapeutic use |
3 |
|
strontium containing hydroxyapatite bone cement (sr - ha) |
3 |
|
strontium-containing hydroxyapatite bone cement |
3 |
|
strontium-substituted |
3 |
|
strontium-substituted hydroxyapatite (sr-ha) |
3 |
|
subchondral bone |
3 |
|
subchondral bone cyst |
3 |
|
subchondral plate |
3 |
|
surface chemistry |
3 |
|
surface morphology |
3 |
|
surgery |
3 |
|
temperature |
3 |
|
tendon |
3 |
|
tendon (肌腱) |
3 |
|
tendon-bone healing |
3 |
|
thoracic vertebrae - radiography - surgery |
3 |
|
thoracolumbar spine |
3 |
|
tibial cortex transverse transport |
3 |
|
tibial plateau |
3 |
|
time frequency analysis |
3 |
|
time-frequency analysis |
3 |
|
time-frequency analysis (tfa) |
3 |
|
titanium nitride |
3 |
|
total hip replacement |
3 |
|
total hip replacement surgery (thr) |
3 |
|
transforming growth factor-β |
3 |
|
transmission electron microscope |
3 |
|
treatment (治療) |
3 |
|
trunk muscles |
3 |
|
tunnel |
3 |
|
tunnel (隧道) |
3 |
|
tunnel creation |
3 |
|
type 2 diabetes mellitus |
3 |
|
ultrastructure |
3 |
|
vessel-x system |
3 |
|
wigner-ville distribution (wvd) |
3 |
|
前交叉韌帶(anterior cruciate ligament) |
3 |
|
腱-骨愈合 |
3 |
|
重建 |
3 |
|
3-d motion |
2 |
|
3d-printing |
2 |
|
abaloparatide |
2 |
|
actinomyces naeslundii |
2 |
|
adhesion |
2 |
|
adhesion and apoptosis |
2 |
|
adults aged 45 and older |
2 |
|
age groups |
2 |
|
aged rats |
2 |
|
aging |
2 |
|
american |
2 |
|
ampk |
2 |
|
angiogenesis |
2 |
|
animal tissue |
2 |
|
ankle foot orthosis |
2 |
|
ankle joint - physiopathology |
2 |
|
anoikis |
2 |
|
antibacterial activity |
2 |
|
apatite-forming ability |
2 |
|
arthroplasty, replacement, hip - rehabilitation |
2 |
|
artificial intelligence |
2 |
|
back |
2 |
|
bicomponent scaffold |
2 |
|
bicortical sacral screw fixation |
2 |
|
bioceramics |
2 |
|
biomechanics - physiology |
2 |
|
biomedical materials. |
2 |
|
biphasic calcium phosphate |
2 |
|
bisphosphonates-related osteonecrosis of the jaws |
2 |
|
bmp2 |
2 |
|
body fluids - metabolism |
2 |
|
bone and bones - cytology - metabolism |
2 |
|
bone cements - chemistry - pharmacology |
2 |
|
bone screws |
2 |
|
bone substitutes - chemical synthesis - chemistry |
2 |
|
bone transport |
2 |
|
borate glass |
2 |
|
borosilicate bioglass (硼硅酸鹽生物活性玻璃) |
2 |
|
borosilicate glass |
2 |
|
ca-p nanoparticle |
2 |
|
calcification |
2 |
|
calcium phosphate |
2 |
|
carbonated hydroxyapatite |
2 |
|
carbonated hydroxyapatite (cha) |
2 |
|
carbonates - chemistry |
2 |
|
cell behaviour |
2 |
|
cell culture |
2 |
|
cell growth |
2 |
|
cell morphology |
2 |
|
cerebral palsy |
2 |
|
cerebral palsy - physiopathology - rehabilitation |
2 |
|
cervical vertebrae - metabolism - pathology - physiopathology |
2 |
|
chest cage |
2 |
|
child, preschool |
2 |
|
china - epidemiology |
2 |
|
chitosan - analysis - chemistry |
2 |
|
coated materials, biocompatible - analysis - chemistry |
2 |
|
coated materials, biocompatible - chemistry - pharmacology |
2 |
|
coated materials, biocompatible - pharmacology |
2 |
|
coating |
2 |
|
coating by plasma spray |
2 |
|
collagen - pharmacology |
2 |
|
collagenases - metabolism |
2 |
|
composite |
2 |
|
composite coating |
2 |
|
composite fibre |
2 |
|
controlled release |
2 |
|
cornea |
2 |
|
corneal regeneration and replacement |
2 |
|
cross-aligned fibers |
2 |
|
crystallization |
2 |
|
cyclic loading |
2 |
|
cytocompatibility |
2 |
|
cytokines - metabolism |
2 |
|
deconvolution |
2 |
|
diabetic foot |
2 |
|
diabetic foot ulcer |
2 |
|
digital light processing-bioprinting |
2 |
|
disc |
2 |
|
diskectomy |
2 |
|
distraction injury |
2 |
|
distraction osteogenesis |
2 |
|
disulfide |
2 |
|
dna |
2 |
|
dna - analysis - chemistry - ultrastructure |
2 |
|
drug delivery system |
2 |
|
drug delivery systems - methods |
2 |
|
drug release |
2 |
|
drug release kinetics |
2 |
|
dual-source dual-power electrospinning |
2 |
|
electrolytes - chemistry |
2 |
|
electrophoresis |
2 |
|
electrophoretic deposition |
2 |
|
emulsion electrospinning |
2 |
|
endothelial cells |
2 |
|
endothelial progenitor cells |
2 |
|
energy absorption |
2 |
|
enzyme-linked immunosorbent assay |
2 |
|
estrogen deficiency |
2 |
|
exercise therapy - methods |
2 |
|
facet |
2 |
|
fatigue loading |
2 |
|
fenestration |
2 |
|
fiber |
2 |
|
fibronectin |
2 |
|
fibronectins - pharmacology |
2 |
|
finite element model |
2 |
|
flexion |
2 |
|
foot |
2 |
|
fracture, compression |
2 |
|
fractures, compression - surgery |
2 |
|
freeze‐drying |
2 |
|
gait |
2 |
|
gap healing |
2 |
|
genders |
2 |
|
gene transfer techniques |
2 |
|
geriatric nutritional risk index |
2 |
|
glass - chemistry |
2 |
|
gradient porosity |
2 |
|
granulocyte-colony stimulating factor |
2 |
|
grayscale intensity threshold |
2 |
|
hif-1α |
2 |
|
hip - physiopathology |
2 |
|
hip joint - physiopathology |
2 |
|
human metacarpal bone |
2 |
|
hydroxyapatite forming ability |
2 |
|
hydroxyapatite whiskers |
2 |
|
iliac screw |
2 |
|
ilium - physiopathology - radiography - surgery |
2 |
|
imaging |
2 |
|
immune cell |
2 |
|
implant |
2 |
|
in situ hybridization |
2 |
|
in situ nick-end labeling |
2 |
|
in vitro biocompatibility |
2 |
|
in vitro study |
2 |
|
inflammation mediators - metabolism |
2 |
|
infrared rays - diagnostic use |
2 |
|
internal fixators |
2 |
|
intervertebral disc - metabolism - pathology - physiopathology |
2 |
|
intervertebral motion |
2 |
|
inverse kinematics |
2 |
|
joints - physiology |
2 |
|
keratoprosthesis |
2 |
|
kinematics |
2 |
|
knee joint - physiopathology |
2 |
|
laminin |
2 |
|
laminin - pharmacology |
2 |
|
low back pain - physiopathology - rehabilitation |
2 |
|
lrp5 |
2 |
|
lumbar vertebrae |
2 |
|
lumbar vertebrae - physiology - radiography |
2 |
|
lumbar vertebrae - physiology - radiography - surgery |
2 |
|
lumbar vertebrae - physiopathology - radiography - surgery |
2 |
|
lumbar vertebrae - surgery |
2 |
|
lumbosacral region - physiology |
2 |
|
machine learning algorithms |
2 |
|
magnetic stimulation |
2 |
|
mammals |
2 |
|
mathematics |
2 |
|
matrix |
2 |
|
mesenchymal stem cells - drug effects |
2 |
|
methacrylated gelatin |
2 |
|
micro-computed tomography |
2 |
|
micro-computed tomography (micro-ct) |
2 |
|
microfracture |
2 |
|
microinjury |
2 |
|
microrna or mirna |
2 |
|
microscopic architecture |
2 |
|
mir-181 |
2 |
|
mir-26a |
2 |
|
molecular weight |
2 |
|
motion |
2 |
|
movement - physiology |
2 |
|
muscle fatigue |
2 |
|
muscle spasticity |
2 |
|
muscle, skeletal - metabolism - pathology - physiopathology |
2 |
|
nanocoating |
2 |
|
nanocomposites - chemistry |
2 |
|
nanosilver |
2 |
|
nanotopography |
2 |
|
nanotubes - analysis - chemistry - ultrastructure |
2 |
|
negative voltage |
2 |
|
nerve guide |
2 |
|
nerve regeneration |
2 |
|
nhanes |
2 |
|
non-viral vector |
2 |
|
optimisation |
2 |
|
orthopedic implants. |
2 |
|
orthotic devices |
2 |
|
osteoclast |
2 |
|
osteomyelitis |
2 |
|
parallel-aligned fibers |
2 |
|
paraspinal muscle activity |
2 |
|
paraspinal stiffness |
2 |
|
parathyroid hormone |
2 |
|
particle size |
2 |
|
peking union medical college |
2 |
|
pelvis |
2 |
|
periodontal diseases |
2 |
|
peripheral nerve |
2 |
|
permeability |
2 |
|
phenotypes |
2 |
|
physical entrapment |
2 |
|
plasma immersion ion implantation and deposition (piiid) |
2 |
|
platelet-rich plasma |
2 |
|
poly(hydroxybutyrate-co-hydroxyvalerate) (phbv) |
2 |
|
polyelectrolyte complexes |
2 |
|
polyethylenimine |
2 |
|
polymers |
2 |
|
postoperative care - instrumentation - methods |
2 |
|
posture - physiology |
2 |
|
potential rhythm of cerebral cortex |
2 |
|
predictive value of tests |
2 |
|
pull-out strength |
2 |
|
pulmonary function |
2 |
|
pulsed magnetic field |
2 |
|
range of motion, articular - physiology |
2 |
|
ras/raf/ mek/erk signaling pathway |
2 |
|
refractive errors correction |
2 |
|
replication technique (有機泡沫浸漬法) |
2 |
|
residual charge |
2 |
|
resin composite |
2 |
|
respiration |
2 |
|
respiratory function tests |
2 |
|
reverse transcriptase polymerase chain reaction |
2 |
|
review |
2 |
|
rhbmp-2 |
2 |
|
rib cage |
2 |
|
robotics |
2 |
|
rotation |
2 |
|
rotator cuff repair |
2 |
|
sacral total resection |
2 |
|
sacral tumor |
2 |
|
sacrectomy |
2 |
|
sacrum - physiology |
2 |
|
sarcopenia |
2 |
|
scaffolds (多孔支架) |
2 |
|
sciatic nerve |
2 |
|
sciatic nerve - injuries - pathology - physiopathology - ultrastructure |
2 |
|
scoliosis - classification - epidemiology - radiography |
2 |
|
scoliosis - physiopathology |
2 |
|
silicates - chemical synthesis - chemistry |
2 |
|
silicates - chemistry |
2 |
|
silver - pharmacology |
2 |
|
slurry (漿料) |
2 |
|
spasticity |
2 |
|
spinal fractures - surgery |
2 |
|
spinal fusion - classification - methods |
2 |
|
spinal osteophytosis - etiology - metabolism - pathology - physiopathology |
2 |
|
spinal stenosis - surgery |
2 |
|
spine - radiography |
2 |
|
spine kinematics |
2 |
|
spinopelvic reconstruction |
2 |
|
stability |
2 |
|
staining and labeling |
2 |
|
stenosis |
2 |
|
stress relaxation |
2 |
|
strontium chondroitin sulfate |
2 |
|
surface properties |
2 |
|
surface-porous fibre |
2 |
|
target |
2 |
|
tendon healing |
2 |
|
thoracic vertebrae - physiology |
2 |
|
thorax - physiology |
2 |
|
tissue expansion devices |
2 |
|
tissue inhibitor of metalloproteinases - metabolism |
2 |
|
tissue-engineering scaffold |
2 |
|
tolonium chloride - metabolism |
2 |
|
total disc replacement |
2 |
|
transfection - methods |
2 |
|
ttf staining |
2 |
|
uds |
2 |
|
ultra-short |
2 |
|
ute |
2 |
|
vascular endothelial growth factor |
2 |
|
vertebral endplate |
2 |
|
video recording |
2 |
|
viscoelasticity |
2 |
|
visual acuity |
2 |
|
vitamin e |
2 |
|
voxel-based |
2 |
|
walking |
2 |
|
wound healing - drug effects |
2 |
|
x-ray |
2 |
|
x-ray diffraction |
2 |
|
zinc finger protein 652 |
2 |
|
再生 |
2 |
|
手(hand) |
2 |
|
椎間盤 |
2 |
|
病人(patients) |
2 |
|
肉(meat) |
2 |
|
肌(muscles) |
2 |
|
肌电描记术(electromyography) |
2 |
|
肌萎缩(muscular atrophy) |
2 |
|
背(back) |
2 |
|
脊柱侧凸(scoliosis) |
2 |
|
臨床研究 |
2 |
|
退變 |
2 |
|
間充質干細胞 |
2 |
|
3d-bioprinting |
1 |
|
abnormal |
1 |
|
acrylic resins - chemistry |
1 |
|
afm |
1 |
|
ai |
1 |
|
alendronate |
1 |
|
alendronate - pharmacology |
1 |
|
alendronate - pharmacology - therapeutic use |
1 |
|
alveolar bone augmentation |
1 |
|
amino acid polymer |
1 |
|
anatomic (解剖學) |
1 |
|
angiography |
1 |
|
antarctic krill |
1 |
|
anthraquinones - pharmacology |
1 |
|
antibodies, monoclonal - metabolism - physiology |
1 |
|
antibody affinity |
1 |
|
antigens, cd95 - immunology - metabolism |
1 |
|
apoptosis - drug effects - physiology |
1 |
|
artificial skin substitute |
1 |
|
asymmetric cell division |
1 |
|
atlanto-axial joint - injuries - physiopathology - surgery |
1 |
|
atom transfer radical polymerization (atrp) |
1 |
|
autophagic flux |
1 |
|
bacteriostasis |
1 |
|
bi-layer scaffold |
1 |
|
bioactive |
1 |
|
bioactive borosilicate glass |
1 |
|
bioactive glass/ceramic |
1 |
|
biocompatible materials - isolation & purification |
1 |
|
biodegradable material |
1 |
|
biodegradable materials |
1 |
|
bioerosion |
1 |
|
bioinspired scaffold |
1 |
|
biomimetic mineralization |
1 |
|
black phosphorus nanosheets |
1 |
|
blocking properties |
1 |
|
bonding strength |
1 |
|
bone biology |
1 |
|
bone cyst |
1 |
|
bone density - drug effects |
1 |
|
bone destruction |
1 |
|
bone marrow - pathology - radiation effects |
1 |
|
bone marrow cells - metabolism - pathology - radiation effects |
1 |
|
bone repair |
1 |
|
bone screws (骨螺絲) |
1 |
|
bone substitutes |
1 |
|
bone void |
1 |
|
bone-implant interaction |
1 |
|
bone-periosteum |
1 |
|
bone-tissue engineering |
1 |
|
bone‐tissue engineering |
1 |
|
bonks |
1 |
|
boprntng |
1 |
|
brace |
1 |
|
cage subsidence |
1 |
|
calcitonin |
1 |
|
calcitonin - pharmacology - therapeutic use |
1 |
|
calcium sulfate/phosphate cement |
1 |
|
calcium sulphate |
1 |
|
cartilage degeneration |
1 |
|
cartilage organoids |
1 |
|
cell adhesion |
1 |
|
cell lineage |
1 |
|
cervical kyphosis |
1 |
|
cervical vertebrae - injuries - surgery |
1 |
|
cervical vertebrae - radiography - surgery |
1 |
|
cfu-fibroblast |
1 |
|
chemistry, physical |
1 |
|
chemodynamic therapy |
1 |
|
chiari osteotomy |
1 |
|
chitin - analogs & derivatives - isolation & purification |
1 |
|
chitosan - chemistry - pharmacology |
1 |
|
chitosan-based hydrogels |
1 |
|
chondrocyte |
1 |
|
chondrocytes - cytology - drug effects - metabolism |
1 |
|
circular dichroism |
1 |
|
collagen-based bioink |
1 |
|
compressive loading |
1 |
|
computed tomography |
1 |
|
content ratio |
1 |
|
continuous manufacturing |
1 |
|
coral health |
1 |
|
core binding factor alpha 1 subunit - biosynthesis |
1 |
|
corneal regeneration |
1 |
|
curve classification |
1 |
|
custom template |
1 |
|
ddr2 |
1 |
|
deep learning |
1 |
|
deferoxamine |
1 |
|
degenerative disc disease |
1 |
|
depression |
1 |
|
disease model |
1 |
|
docking |
1 |
|
drug evaluation, preclinical - methods |
1 |
|
dual-bionic scaffolds |
1 |
|
durapatite - isolation & purification |
1 |
|
ecm microenvironment |
1 |
|
elastomeric coatings |
1 |
|
electrically controlled drug delivery |
1 |
|
elongation at break |
1 |
|
end groups |
1 |
|
endplate damage |
1 |
|
erralpha |
1 |
|
estrogen-related receptor alpha |
1 |
|
extreme lateral interbody fusion |
1 |
|
fak |
1 |
|
fas antibody |
1 |
|
fas ligand protein |
1 |
|
fat infiltration |
1 |
|
femur - metabolism - pathology - radiation effects |
1 |
|
fibroblasts - pathology |
1 |
|
force spectroscopy |
1 |
|
fracture fixation, internal |
1 |
|
fracture fixation, internal - instrumentation - methods |
1 |
|
fractures, stress - complications - radiography - surgery |
1 |
|
fresh fracture |
1 |
|
functionally gradient coating |
1 |
|
gadolinium |
1 |
|
gelatin |
1 |
|
gelatin - isolation & purification |
1 |
|
gene expression |
1 |
|
glucan |
1 |
|
glucosamine - chemical synthesis - pharmacology |
1 |
|
glutaminase |
1 |
|
handheld boprnter |
1 |
|
handheld printers |
1 |
|
hela cells |
1 |
|
hemostatic agent |
1 |
|
high latitude reef |
1 |
|
high strength |
1 |
|
highly stretchable electronics |
1 |
|
high‐strength nanoengineered hydrogels |
1 |
|
hip dysplasia |
1 |
|
hip fracture |
1 |
|
hot temperature |
1 |
|
human mesenchymal stem cells |
1 |
|
humeral proximal |
1 |
|
hyaluronic acid |
1 |
|
hydrogel constructs |
1 |
|
hydrogels - chemical synthesis - pharmacology |
1 |
|
hydrogels - chemistry |
1 |
|
hydrogen bonding reconstruction |
1 |
|
igf-1 |
1 |
|
ilium - chemistry |
1 |
|
ilium - surgery |
1 |
|
imaging, three-dimensional - instrumentation - methods |
1 |
|
immunotherapy |
1 |
|
implant failure |
1 |
|
improving mechanical property |
1 |
|
in situ bioprinting |
1 |
|
in situ boprntng |
1 |
|
in vivo microenvironment ph |
1 |
|
indicators and reagents |
1 |
|
injectable biomaterials |
1 |
|
injectable bone cement |
1 |
|
injury prevention |
1 |
|
insertion accuracy |
1 |
|
instability |
1 |
|
insulin-like growth factor i - pharmacology |
1 |
|
integrin alpha1 - biosynthesis |
1 |
|
integrin-ā1 |
1 |
|
interbody fusion |
1 |
|
interfacial ph |
1 |
|
intermediate filament |
1 |
|
internal fixators (內固定器) |
1 |
|
ions |
1 |
|
joint instability - etiology - radiography - surgery |
1 |
|
joint prosthesis |
1 |
|
landing |
1 |
|
large segment bone restoration |
1 |
|
lateral bending |
1 |
|
lenke |
1 |
|
ligament |
1 |
|
limb salvage |
1 |
|
lingzhi and san-miao-san |
1 |
|
liquid metal |
1 |
|
lrp1 |
1 |
|
lumbar vertebrae (腰椎) |
1 |
|
lumbar vertebrae - injuries - radiography - surgery |
1 |
|
lumbar vertebrae/surgery |
1 |
|
lumbo-iliac fixation |
1 |
|
lumbo-iliac stabilization |
1 |
|
lumbo-pelvic stabilization |
1 |
|
lumbosacral fixation |
1 |
|
lumbosacral fusion |
1 |
|
macromolecular substances |
1 |
|
magnesium |
1 |
|
magnetic resonance image |
1 |
|
malalignment |
1 |
|
male bones |
1 |
|
mechanotransduction |
1 |
|
membrane glycoproteins - metabolism |
1 |
|
membrane proteins |
1 |
|
membrane proteins - metabolism |
1 |
|
mesenchymal stem cells |
1 |
|
mesenchymal stem cells - metabolism - pathology - radiation effects |
1 |
|
mesoscopic |
1 |
|
methylcellulose |
1 |
|
methylcellulose - chemistry |
1 |
|
methylmethacrylates (甲基丙烯酸甲酯類) |
1 |
|
mice, inbred balb c |
1 |
|
microenvironment boundary |
1 |
|
microenvironment ph |
1 |
|
microscopy, electron, transmission |
1 |
|
minimal invasive |
1 |
|
mir-204 |
1 |
|
models (模型) |
1 |
|
models, anatomic |
1 |
|
molecular conformation |
1 |
|
molecular mechanism |
1 |
|
msab |
1 |
|
multicentre |
1 |
|
multichannel |
1 |
|
musculoskeletal system |
1 |
|
nancomposite hydrogel scaffold |
1 |
|
nano coatings |
1 |
|
nanocomposite hydrogels |
1 |
|
nanofibers |
1 |
|
nanomechanics |
1 |
|
nanoparticles |
1 |
|
nanotechnology |
1 |
|
navigation |
1 |
|
nerve guidance conduit |
1 |
|
neuro-cartilage interaction |
1 |
|
neuroscience |
1 |
|
non-alcoholic fatty liver |
1 |
|
non-alcoholic steatohepatitis |
1 |
|
oa pain |
1 |
|
oncotherapy |
1 |
|
one-step surgery |
1 |
|
organoids |
1 |
|
orthopaedic biomaterials |
1 |
|
orthopedic procedures - instrumentation - methods |
1 |
|
orthopedic surgery |
1 |
|
osteoblast-laden constructs |
1 |
|
osteoblastic androgen receptor |
1 |
|
osteoblasts - cytology - drug effects - metabolism |
1 |
|
osteoblasts - cytology - metabolism |
1 |
|
osteogenesis capability |
1 |
|
osteogenic activity |
1 |
|
osteogenic differentiation |
1 |
|
osteonecrosis |
1 |
|
osteoporosis - complications - radiography |
1 |
|
osteoporosis - physiopathology - surgery |
1 |
|
osteoporosis therapy |
1 |
|
osteoporosis, postmenopausal - drug therapy - physiopathology |
1 |
|
osteoporotic bone defect |
1 |
|
osteoporotic bone fracture/defect |
1 |
|
osteoporotic fracture |
1 |
|
ovcf |
1 |
|
paraffin embedding |
1 |
|
parathyroid |
1 |
|
parathyroid hormone - antagonists and inhibitors |
1 |
|
patient-specific customization implant |
1 |
|
patterned nanofibrous film |
1 |
|
pedicle |
1 |
|
pelvic bones - pathology |
1 |
|
pelvis - pathology |
1 |
|
percutaneous |
1 |
|
peripheral nerve regeneration |
1 |
|
phantom-less qct |
1 |
|
phantom-less quantitative computed tomography |
1 |
|
phase behavior |
1 |
|
phase separation |
1 |
|
phase transition |
1 |
|
phenylalanine - chemistry |
1 |
|
photothermal therapy |
1 |
|
physicochemical phenomena |
1 |
|
physicochemical properties |
1 |
|
piperazine-based polyurethane-urea |
1 |
|
pmma augmentation. |
1 |
|
poly(lactic acid) |
1 |
|
poly(methylmethacrylate) cement |
1 |
|
poly(n-isopropylacrylamide) |
1 |
|
polymethyl methacrylate/*therapeutic use |
1 |
|
porites |
1 |
|
porogen leaching |
1 |
|
porous cage design |
1 |
|
porous scaffold |
1 |
|
pre-tapped-hole scaffolds |
1 |
|
precipitation |
1 |
|
preoperative traction |
1 |
|
programmable |
1 |
|
protein crosslinker |
1 |
|
protein engineering |
1 |
|
pullout force |
1 |
|
pumc |
1 |
|
quantitative computed tomography |
1 |
|
rabbit |
1 |
|
rapid prototyping |
1 |
|
reef budget |
1 |
|
regeneration and repair |
1 |
|
regulating cell behavior |
1 |
|
reoperation |
1 |
|
repopulation |
1 |
|
revision |
1 |
|
robust hydrogels |
1 |
|
sacral pedicle screw fixation |
1 |
|
sacral pediclescrew |
1 |
|
sacral screw fixation |
1 |
|
sacrum |
1 |
|
sacrum - chemistry - surgery |
1 |
|
sacrum - physiopathology - surgery |
1 |
|
sacrum bone (骶骨) |
1 |
|
scaffolds |
1 |
|
screws (骨螺絲) |
1 |
|
sdf-1 |
1 |
|
sea urchin |
1 |
|
section |
1 |
|
self-renewal |
1 |
|
sex disparity |
1 |
|
shape memory |
1 |
|
shelf augumentation |
1 |
|
skin - injuries |
1 |
|
skin regeneration |
1 |
|
smart delivery system |
1 |
|
smart wound dressing |
1 |
|
spectrometry, fluorescence |
1 |
|
spider silk inspired hierarchical structure |
1 |
|
spinal fractures (脊柱骨折) |
1 |
|
spinal fractures - complications - radiography - surgery |
1 |
|
spinal fusion - instrumentation |
1 |
|
spinal injuries - radiography - surgery |
1 |
|
starvation therapy |
1 |
|
stem cell |
1 |
|
stem cell homing |
1 |
|
stem cell tissue engineering |
1 |
|
stem cells |
1 |
|
stem cells - drug effects - physiology |
1 |
|
steroid |
1 |
|
strontium-containing borate bioactive glass |
1 |
|
structural characteristic |
1 |
|
subchondral bone microstructure |
1 |
|
subfornical organ |
1 |
|
surgery, computer-assisted - instrumentation - methods |
1 |
|
surgical planning |
1 |
|
suspensory traction |
1 |
|
synergistic effect of bioactive ions |
1 |
|
synthetic biodegradable polymeric scaffold |
1 |
|
temperature responsive |
1 |
|
tenascin-c |
1 |
|
therapeutic effect |
1 |
|
thermoresponsive |
1 |
|
thoracic vertebral degeneration |
1 |
|
time factors |
1 |
|
top-down multidimensional engineering |
1 |
|
torque |
1 |
|
total endplate scores |
1 |
|
transgenic |
1 |
|
transition temperature |
1 |
|
traumatic injury |
1 |
|
treatment |
1 |
|
triblock copolymer |
1 |
|
tssue regeneraton |
1 |
|
tumor |
1 |
|
tumor necrosis factors - metabolism |
1 |
|
tumour |
1 |
|
type ii collagen |
1 |
|
vertebra |
1 |
|
vertebra detection |
1 |
|
very low-density lipoprotein |
1 |
|
vimentin |
1 |
|
viscosity |
1 |
|
volumetric bone mineral density |
1 |
|
wound infection monitoring |
1 |
|
wounds and injuries - drug therapy - pathology |
1 |
|
中国 |
1 |
|
椎体后凸成形术 |
1 |
|
椎体骨折 |
1 |
|
骨质疏松 |
1 |
