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Contents
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1TCM
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2TCM
(up)
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3TCM
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5-HT2A
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ABSS
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Acetate
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Acetyl-CoA
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Acetylcholine
(up)
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AChE
(up)
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Adenosine
(up)
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Adenosine receptor
(up)
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Adipose tissue
(up)
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Administration
(up)
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Adrenal glands
(up)
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Adrenaline
(up)
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Adrenoceptors
(up)
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Aldosterone
(up)
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Allogg
(up)
-
Alpha-synuclein
(up)
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Alzheimer disease
(up)
-
Amide
(up)
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Amino acid
(up)
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Amyloid-beta
(up)
-
Amyloidosis
(up)
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Analysis
(up)
- PET analysis methods
- PET data analysis
- Using command-line SW in TPC
- Targets of functional imaging using PET
- Calculation models for images
- Input function
- Processing input data
- CM analysis - Regional TACs with plasma input
- PET study design
- Calculation models for regional TACs
- Analysis instructions by PET tracer
-
Analyze 7.5
(up)
-
Angiogenesis
(up)
-
Angiotensin
(up)
-
Anxiety
(up)
-
Apoptosis
(up)
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Aquaporins
(up)
-
Aromatase
(up)
-
Arthritis
(up)
-
Asymmetry index
(up)
-
Atherosclerosis
(up)
-
ATP
(up)
-
Attenuation
(up)
-
AUC
(up)
-
Autonomic nervous system
(up)
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Autoradiography
(up)
-
bash
(up)
-
Basis functions
(up)
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BAT
(up)
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BBB
(up)
-
Beta-cell
(up)
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BIDS
(up)
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Biexponential
(up)
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Bile acids
(up)
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Binding potential
(up)
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Biologicals
(up)
-
Biosimilars
(up)
-
Bland-Altman
(up)
-
Blood
(up)
- Blood
- Blood volume
- Allogg ABSS on-line detector file format
- Allogg ABSS on-line detector 2 file format
- Scanditronics/GEMS on-line detector file format
- Hematocrit
- Input from abdominal aorta in radiowater PET
- ABSS
- ABSS calibration
- ABSS data process
- Blood sampling while ABSS is running
- twilite ABSS
- Blood to plasma conversion
- Fitting plasma-to-blood ratio
- Dispersion in input function
- Input TAC fitting
- Input function
- Input data from PET image
- Plasma and blood data
- Processing input data
- Blood sampling
- Venous blood
- Modeling A-V difference
- Late-scan tissue-to-plasma ratio
- O2 metabolite correction
- Platelets
- Red blood cells
- Vascular system
- White blood cells
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Blood volume
(up)
-
Bmax
(up)
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BNCT
(up)
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Bolus plus infusion
(up)
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Bone
(up)
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Bone marrow
(up)
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Bootstrap
(up)
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Brain
(up)
- Analysis of [C-11]acetate
- Analysis of [C-11]FLB457
- Analysis of [C-11]Palmitate
- Analysis of [C-11]-R-PK11195
- Analysis of [C-11]Raclopride
- Analysis of [C-11]WAY-100635
- Analysis of [N-13]ammonia
- Analysis of [18F]DPA-714
- Analysis of FDG
- Analysis of PET measurements of FDOPA
- Analysis of FTHA
- Blood flow in the brain
- Metabolic rate of oxygen in the brain
- Blood brain barrier
- Depression
- Stroke
- Traumatic Brain Injury
- fPET-FDG
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Branching ratio
(up)
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BSA
(up)
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BTAC
(up)
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BuChE
(up)
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C language
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Calibration
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cAMP
(up)
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Cannabinoids
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Capillaries
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Carbon dioxide
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Carbon monoxide
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Carbonic anhydrase
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Carimas
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Catecholamines
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Catenation
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CB1R
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CB2R
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Cell proliferation
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CFR
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Cholesterol
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Choline
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Chromatography
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Circulation
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Clearance
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CLI
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Clustering
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CNS
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CNT
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Compartmental model
(up)
- CM for input
- Graham's CM for input
- CM for parent fractions
- Two-tissue compartmental models
- Model selection using AIC
- CM analysis - Regional TACs with plasma input
- Compartmental models in positron emission tomography
- Model fitting
- Reference input compartmental models
- Distributed model
- Volume of distribution
- Multilinear model
- Multilinear 2TCM
- Compartmental model ODEs in PET
- PET compartmental model ODEs with convolution
- Shape analysis
- Spectral analysis
- Workable model
- Models for simulation
- TPCMOD0001 Appendix B
- TPCMOD0001 Appendix C
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Convolution
(up)
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Cortisol
(up)
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Count
(up)
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Countrate
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CSF
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CSV
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CT
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Cytokines
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D2/D3 receptors
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DAT
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Decay correction
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Deconvolution
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Delay correction
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Dementia
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Depression
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DFT
(up)
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Diabetes
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DICOM
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Dispersion
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Distributed model
(up)
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Dopamine
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Dose
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Drug development
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Dual-input
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EC50
(up)
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ECAT
(up)
- Attenuation correction
- Scanditronics/GEMS on-line detector file format
- PET image formats
- ECAT format
- ECAT ROI format
- Image anonymization
- Combining interrupted PET scans
- PET scan started later than at injection
- PET image
- Image reconstruction
- Tools for processing image data
- PET sinogram
- Calculation models for sinograms
- Parametric sinogram
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Effect size
(up)
-
Endothelium
(up)
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ENT
(up)
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Enzyme activity
(up)
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Epigenetics
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Estrogen
(up)
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Excel
(up)
-
Exendin-4
(up)
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Exponential function
(up)
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Extracellular matrix
(up)
-
Extracellular volume
(up)
-
Extraction
(up)
-
Extrapolation
(up)
-
Extravasation
(up)
-
Factor analysis
(up)
-
FAP
(up)
-
Fatty acids
(up)
-
FDG
(up)
-
Fibrosis
(up)
-
File format
(up)
- Allogg ABSS on-line detector file format
- Allogg ABSS on-line detector 2 file format
- Scanditronics/GEMS on-line detector file format
- ANC file format
- CPT file format
- CRV file format
- Decimal separator
- fbprec parameter file
- IDWC and IF file format
- PET image formats
- Analyze 7.5 image format
- DICOM format
- ECAT format
- NIfTI-1 image format
- PET file formats
- mrprec parameter file
- QView format
- ECAT ROI format
- Imadeus ROI format
- SVG
- DFT file format
- FIT file format
- IFT file format
- Result file format
- Tools for processing image data
- Scan Information File - SIF
-
Filtering
(up)
-
Fitting
(up)
- Bootstrap
- FIT file format
- Fitting plasma-to-blood ratio
- Input TAC fitting
- CM for input
- Graham's CM for input
- Exponential functions for input
- Surge function for input
- Catenary time-delay model
- Fitting parent fractions
- CM for parent fractions
- Hill function in metabolite correction
- Power function in metabolite correction
- Plasma pharmacokinetics
- Model selection using AIC
- CM analysis - Regional TACs with plasma input
- Model fitting
- Function fitting
- Weights for data analysis
- Optimization
- NNLS
- PSO
- Comparing TACs
- TTAC fitting
- Runs test
-
Flowchart
(up)
-
Fluoride
(up)
-
Folates
(up)
-
Fractal analysis
(up)
-
FUR
(up)
-
GABA
(up)
-
Gallium
(up)
-
Gene expression
(up)
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GFR
(up)
-
Glial cells
(up)
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GLP-1R
(up)
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Glucagon
(up)
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Glucose
(up)
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Glutamate
(up)
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Glutamine
(up)
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Glutathione
(up)
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Glycolysis
(up)
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Growth hormone
(up)
-
Haemoglobin
(up)
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Haemorrhage
(up)
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Hematocrit
(up)
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Heterogeneity
(up)
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Histamine
(up)
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HPA axis
(up)
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Huntington disease
(up)
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Hypertension
(up)
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Hypoxia
(up)
-
IDIF
(up)
-
Image
(up)
- Using CT in Turku PET Centre
- PET image formats
- Analyze 7.5 image format
- DICOM format
- ECAT format
- NIfTI-1 image format
- Image anonymization
- Combining interrupted PET scans
- PET image clustering
- PET image filtering
- PET scan started later than at injection
- Image mask
- Calculation models for images
- Parametric image
- PET image
- PET image presentation
- PVC with IDM
- Partial volume effect
- Image reconstruction
- Tools for processing image data
- Input from abdominal aorta in radiowater PET
- Input data from PET image
- Factor analysis
- SUV image
- PET data
- PETPACS
- ROI
- Simulation of PET images and sinograms
- PET simulators and phantoms
-
Image reconstruction
(up)
-
ImmunoPET
(up)
-
Incretin
(up)
-
Infection
(up)
-
Inflammation
(up)
- Analysis of [C-11]choline
- Analysis of [C-11]PBR28
- Analysis of [C-11]-R-PK11195
- Analysis of [C-11]SMW139
- Analysis of [18F]DPA-714
- Analysis of [F-18]fluoromannan PET
- [F-18]F-PEG-folate
- Ga-68 citrate
- Analysis of [Ga-68]DOTA-E-cRGDfK2
- Analysis of 68Ga-DOTA PET data
- Angiogenesis
- Arthritis
- Asthma
- Atherosclerosis
- Metabolic volume
- ROS
- Arginase
- Chemokines and Chemokine receptors
- Folates
- Histamine and histamine receptors
- Infection
- Inflammation
- P2 purinoceptors
- RAGE
- Sphingosine-1-phosphate receptors
- Somatostatin receptors
- Transferrin and transferrin receptor
- TSPO
- VAP-1
- White blood cells
-
Input function
(up)
- Time delay correction
- Input from abdominal aorta in radiowater PET
- ABSS
- ABSS data process
- Blood to plasma conversion
- Fitting plasma-to-blood ratio
- Dispersion in input function
- Input TAC fitting
- CM for input
- Graham's CM for input
- Exponential functions for input
- Surge function for input
- Catenary time-delay model
- Input function
- Input data from PET image
- Model-based input function
- Plasma metabolite correction
- Fitting parent fractions
- CM for parent fractions
- Plasma parent fractions
- Plasma pharmacokinetics
- Plasma and blood data
- Population-based input function
- Processing input data
- Blood sampling
- Venous blood
- Modeling A-V difference
- PET study design
- O2 metabolite correction
- Input data for simulation
-
Insulin
(up)
-
Integrins
(up)
-
Interpolation
(up)
-
Intestine
(up)
-
Iodine
(up)
-
Ischemia
(up)
-
Isotope
(up)
-
KD
(up)
-
Ketones
(up)
-
Ki
(up)
-
Kidney
(up)
-
Lactate
(up)
-
Lassen plot
(up)
-
Late-scan
(up)
-
LBM
(up)
-
Leukocytes
(up)
-
Lewy bodies
(up)
-
Linux
(up)
-
Lipoproteins
(up)
-
Liver
(up)
-
Logan plot
(up)
-
Look-up table
(up)
-
Loss-rate
(up)
-
Lumped constant
(up)
-
Lungs
(up)
-
Lymphatic system
(up)
-
Macroparameter
(up)
-
Mannan
(up)
-
Mannose
(up)
-
MAO B
(up)
-
Mask
(up)
-
MBF
(up)
-
Metabolite correction
(up)
- Analysis of [C-11]CO2
- TLC and HPLC in determining metabolite fractions
- Plasma metabolite correction
- Fitting parent fractions
- CM for parent fractions
- Hill function in metabolite correction
- Power function in metabolite correction
- Plasma parent fractions
- Blood sampling
- Venous blood
- Radioactive metabolites
- O2 metabolite correction
-
Metformin
(up)
-
Microcirculation
(up)
-
Microspheres
(up)
-
Microtubules
(up)
-
Mismatch volume
(up)
-
Mitochondria
(up)
-
Modeling
(up)
- PET analysis methods
- PET data analysis
- Calculation models for images
- Parametric image
- Input function
- Two-tissue compartmental models
- Model selection using AIC
- CM analysis - Regional TACs with plasma input
- Compartmental models in positron emission tomography
- Model fitting
- Reference input compartmental models
- Distributed model
- Volume of distribution
- Dynamic processes
- Compartmental model ODEs in PET
- PET compartmental model ODEs with convolution
- Reaction-diffusion simulation model
- Reference tissue
- List of TPC modelling reports
- Spectral analysis
- Tracer principle
- Comprehensive model
- Introduction to modeling
- Modeling literature
- PET study design
- Selecting PET tracer
- Model validation
- Why modeling
- Workable model
- Quantification of PET
- Effect size
- Analysis of simulated data
- Simulation of PET data
- Models for simulation
- Comprehensive model
- Analysis instructions by PET tracer
-
MOR
(up)
-
MRI
(up)
-
MRO2
(up)
-
MTGA
(up)
-
Multiple sclerosis
(up)
-
Myelin
(up)
-
Myocardium
(up)
- Analysis of [C-11]acetate
- Analysis of [C-11]HED
- Analysis of [C-11]Palmitate
- Analysis of [N-13]ammonia
- Quantitation of blood volume using [O-15]CO
- Analysis of PET measurements of fluorodopamine
- Analysis of [F-18]Flurpiridaz
- Analysis of FTHA
- Analysis of 68Ga-DOTA PET data
- Analysis of Rb-82
- MBF using radiowater
- Oxygen consumption in myocardium
- Cardiac output
- CPTT
- Long time frames in myocardial radiowater analysis
- Spillover in cardiac PET
- Heart
-
Myoglobin
(up)
-
Nanoparticles
(up)
-
NAT
(up)
-
NET
(up)
-
Neuron
(up)
-
Neuropeptides
(up)
-
Neurotrophins
(up)
-
NIfTI
(up)
-
NLLS
(up)
-
NMDA receptors
(up)
-
NNLS
(up)
-
Noise
(up)
-
Non-displaceable uptake
(up)
-
Noradrenaline
(up)
-
Normalization
(up)
-
Obesity
(up)
-
ODE
(up)
-
Opioids
(up)
-
Optimization algorithm
(up)
-
Oxidative stress
(up)
-
Oxygen
(up)
- Analysis of [C-11]acetate
- Metabolic rate of oxygen in brown adipose tissue
- Metabolic rate of oxygen in the brain
- Oxygen consumption in myocardium
- Metabolic rate of oxygen in skeletal muscle
- Mitochondria
- Oxygen consumption
- Hemoglobin
- O2 metabolite correction
- Myoglobin
- Lungs
- Skeletal muscle
- Hypoxia
- Vascular system
-
PACS
(up)
-
Pain
(up)
-
Pancreas
(up)
-
Parameters
(up)
-
Parametric image
(up)
-
Parent fraction
(up)
-
Parkinson disease
(up)
-
Patlak plot
(up)
-
PDE
(up)
-
Peptides
(up)
-
Perfusion
(up)
- Analysis of [C-11]acetate
- Analysis of [N-13]ammonia
- Analysis of [O-15]CO2
- Analysis of [F-18]Flurpiridaz
- Analysis of 68Ga-DOTA PET data
- Analysis of Rb-82
- Blood flow in the brain
- MBF using radiowater
- Blood flow in kidney
- Blood flow in liver
- Pulmonary blood flow
- Blood flow in skeletal muscle
- Blood flow in other organs
- Blood flow in pancreas
- Fick's principle
- Long time frames in myocardial radiowater analysis
- Microspheres
- Autoradiography
- Compartmental models in positron emission tomography
- Cerebral perfusion pressure and mean transit time
- Perfusion-metabolism mismatch volume
- MPI with chemical microspheres
- Perfusion
- Model for radiowater
- Skin
- Hypoxia
-
PET
(up)
-
pH
(up)
-
Pharmacokinetics
(up)
-
Phosphor imaging
(up)
-
Plasma
(up)
- ABSS data process
- Blood to plasma conversion
- Fitting plasma-to-blood ratio
- Input TAC fitting
- CM for input
- Input function
- Input data from PET image
- Model-based input function
- Plasma metabolite correction
- CM for parent fractions
- Plasma pharmacokinetics
- Plasma and blood data
- Population-based input function
- Processing input data
- Blood sampling
- Venous blood
- FUR image
- Late-scan tissue-to-plasma ratio
- O2 metabolite correction
- Pharmacokinetic one-compartment model
- Pharmacokinetic two-compartment model
- Pharmacokinetic three-compartment model
- Plasma protein binding
- Plotting TAC
-
Plasma protein binding
(up)
-
Plot
(up)
-
PMOD
(up)
-
Polar map
(up)
-
Portal vein
(up)
-
PRGA
(up)
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Progesterone
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-
Prostate
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Protein synthesis
(up)
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PSMA
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-
PTAC
(up)
-
Purinoceptors
(up)
-
PVE
(up)
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Pyruvate
(up)
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RAAS
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Radioactivity
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Radiowater
(up)
- Analysis of [O-15]CO2
- Blood flow in the brain
- MBF using radiowater
- Blood flow in kidney
- Blood flow in liver
- Pulmonary blood flow
- Blood flow in skeletal muscle
- Blood flow in other organs
- Blood flow in pancreas
- Long time frames in myocardial radiowater analysis
- Population-based input function
- Spillover in cardiac PET
- Model for radiowater
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Rate constant
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Ratio
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RBC
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Receptor occupancy
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Recirculation
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Reference tissue
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Result format
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Retention index
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Rheumatoid arthritis
(up)
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ROI
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SA
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Scanditronics
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Scatchard plot
(up)
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Script
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Serotonin
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SERT
(up)
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Shape analysis
(up)
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Shell
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SIF
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Simulation
(up)
- Long time frames in myocardial radiowater analysis
- Long time frames in Patlak analysis
- Liver dual-input
- Two-tissue compartmental models
- Spillover in cardiac PET
- FUR
- Compartmental model ODEs in PET
- PET compartmental model ODEs with convolution
- Reaction-diffusion simulation model
- Analysis of simulated data
- Simulation of PET time frames
- Simulation of PET images and sinograms
- Input data for simulation
- Simulation of PET data
- Models for simulation
- Simulation of noise
- Parameters for simulation
- PET simulators and phantoms
- AUC
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Sinogram
(up)
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Skeletal muscle
(up)
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Small animals
(up)
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Software
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Somatostatin
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Specific activity
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Specific binding
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Spectral analysis
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Spleen
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SRTM
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SSTR
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Statistics
(up)
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Steroids
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Stress
(up)
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Substance P
(up)
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SUV
(up)
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SUVR
(up)
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SV2A
(up)
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SVG
(up)
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Synaptic density
(up)
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TAC
(up)
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Tau protein
(up)
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Thermoregulation
(up)
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Thresholding
(up)
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Thrombosis
(up)
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Thyroid
(up)
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Time frame
(up)
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TPCCLIB
(up)
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Tracer
(up)
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Transferrin
(up)
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Transit time
(up)
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Transporter
(up)
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TSPO
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TTAC
(up)
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Tumour
(up)
- Analysis of [C-11]choline
- Analysis of [C-11]Metomidate
- Analysis of [F-18]FBPA
- Analysis of PET measurements of FDOPA
- Analysis of [F-18]FLT
- Fluciclovine
- Analysis of [F-18]rhPSMA-7.3
- Ga-68 citrate
- Analysis of [Ga-68]DOTA-E-cRGDfK2
- Analysis of [Ga-68]PSMA-11
- Blood flow in other organs
- Angiogenesis
- BNCT
- Metabolic volume
- Retention index
- Urinary bladder
- Breast cancer
- Ovaries and ovarian cancer
- Prostate and prostate cancer
- Chemokines and Chemokine receptors
- Gastrin-releasing peptide receptor
- Hypoxia
- Integrins
- PARP
- Protein synthesis rate
- Transferrin and transferrin receptor
- VAP-1
- Amino acid transporters
- Tumour
- Neuroendocrine tumours
- Radioembolization
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Urinary bladder
(up)
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VAChT
(up)
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Validation
(up)
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Variance
(up)
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Venous blood
(up)
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VMAT2
(up)
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VOI
(up)
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Volume of distribution
(up)
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Weighting
(up)
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Windows
(up)
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Wound healing
(up)
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WSL
(up)
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Yokoi plot
(up)
Tags: (none)