INIS
brucella
100%
gold
58%
protons
58%
nanoparticles
56%
mice
47%
macrophages
33%
antibodies
33%
tumors
31%
cell cycle
27%
in vitro
27%
proteins
26%
bacteria
26%
phenotype
25%
pathogens
25%
irradiation
23%
inflammation
23%
control
22%
films
22%
electron emission
21%
in vivo
20%
growth
20%
cancer
20%
mitochondria
18%
polymers
18%
humans
17%
simulation
17%
therapy
17%
radiotherapy
16%
fluorescence
15%
doses
14%
host
14%
uptake
13%
microscopy
13%
electrons
13%
radiosensitizers
13%
particles
13%
carbon
13%
populations
13%
MeV range
12%
histidine
10%
kinases
10%
zirconium 89
10%
fragmentation
10%
production
10%
receptors
10%
energy spectra
10%
energy
10%
genes
9%
spleen
9%
growth factors
9%
newborns
9%
antioxidants
9%
graphene
9%
oligonucleotides
9%
ruthenium
9%
detergents
9%
oxidation
9%
quenching
9%
dendrites
9%
hypoxia
9%
particle beams
9%
endoplasmic reticulum
9%
luminescence
9%
immunity
9%
chemical vapor deposition
9%
fibroblasts
9%
substrates
9%
erythrocytes
9%
lactones
9%
linear energy transfer
9%
shells
9%
iodine 124
9%
rhenium 188
9%
lutetium 177
9%
yttrium 90
9%
iodine 131
9%
plasma
9%
metals
9%
coatings
9%
approximations
9%
spect
9%
radiolysis
9%
deiodination
9%
comparative evaluations
8%
deposition
7%
data
7%
cells (bacterial)
7%
levels
6%
proton beams
6%
monoclonal antibodies
6%
proliferation
6%
monte carlo method
6%
surfaces
6%
dna replication
6%
vapors
6%
cadmium 105
5%
tissues
5%
vaccines
5%
x radiation
5%
compartments
5%
chromosomes
5%
spectra
5%
lungs
5%
blood
5%
Keyphrases
Innate Immune Recognition
9%
Transient Stress
9%
Low-toxic
9%
Intranasal Infection
9%
B Cell Response
9%
Th17 Response
9%
CD4+ T
9%
Quorum Quenching
9%
Th2 Response
9%
Secondary Infection
9%
Protective Immune Response
9%
CD4+ Th1 Cells
9%
Nanozeolite
9%
Cancer Cell Dissemination
9%
Monitoring Applications
9%
Cell Preparation
9%
Targeted Cells
9%
Mitochondrial Fragmentation
9%
In Situ Characterization
9%
M2a Macrophage
9%
Co-culture System
9%
Alpha Beam
9%
Neuronal Ceroid Lipofuscinosis
9%
Saline Stress
9%
MucR
9%
Resistance to Oxidative Stress
9%
Detergent
9%
Morpholino
9%
Ethyl Methacrylate
9%
In Situ Microscopy
9%
Innate Immune Response
9%
Destabilized GFP
9%
PrlR
9%
Protein Silencing
9%
Cell Cycle Progression
9%
Tumor Targeting
9%
Anti-endoglin Antibody
9%
Metal Nano-object
9%
Implications for Future
9%
CD105
9%
Lutetium-177 (177Lu)
9%
Iodine-131 (131I)
9%
Solid Tumor Therapy
9%
188Re
9%
124I
9%
Tumor Control Probability
9%
Probability Concepts
9%
Normal Tissue Complication Probability
9%
Radiosensitizing Effect
9%
Nanoparticle Targeting
9%
Polymer-coated
9%
Cancer Cell Targeting
9%
Binary Collision Approximation
9%
Radiolysis
9%
Dose Delivery
9%
Deiodination
9%
SPECT-CT
9%
Backscattered Electrons
9%
Shell Coating
9%
Mpox
7%
IL-17RA
6%
Chromosomal Replication
6%
Organic Capping
6%
TAP1
6%
Preventive Vaccine
6%
Th1 Cells
6%
Live Bacteria
6%
Human Vaccines
6%
Protective Immunity
6%
Ultrafast
6%
Mitochondrial Morphology
6%
CLN2
6%
CD11c
6%
Inflammatory Dendritic Cells
6%
Inducible Nitric Oxide Synthase
6%
ICP-MS Analysis
6%
Plasma Vapor Deposition
6%
Electron Energy Spectrum
6%
Geant4
6%
Polarized Macrophages
5%