Add to ORKGPET enables not only visualization of the distribution of radiotracer, but also has ability to quantify several biomedical functions. Compartmental model is a basic idea to analyze dynamic PET data. This review describes the principle of the compartmental model and categorizes the techniques and approaches for the compartmental model according to various aspects: model design, experimental design, invasiveness, and mathematical solution. We also discussed advanced applications of the compartmental analysis with PET
Measurement of hepatic blood perfusion and of the exchange of substances between blood and cells is ...
Kinetic analysis is a tool used to glean additional information from positron emission tomography (P...
The compartment model, so often used in nuclear medicine and in pharmacokinetics, is formed by a set...
Our goal is to quantify regional physiological processes such as blood flow and metabolism by means ...
Positron Emission Tomography (PET) allows the in vivo measurement of the regional activity distribut...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Positron emission tomography (PET) imaging has made it possible to detect the in vivo concentration ...
A kinetic modeling approach for the quantification of in vivo tracer studies with dynamic positron e...
A kinetic modelling approach for the quantification of in vivo tracer studies with dynamic positron ...
Positron emission tomography (PET) allows quantitative functional imaging of physiological parameter...
Using molecules radiolabelled with positron emitters, positron emission tomography (PET) imaging pro...
Measurement of hepatic blood perfusion and of the exchange of substances between blood and cells is ...
Kinetic analysis is a tool used to glean additional information from positron emission tomography (P...
The compartment model, so often used in nuclear medicine and in pharmacokinetics, is formed by a set...
Our goal is to quantify regional physiological processes such as blood flow and metabolism by means ...
Positron Emission Tomography (PET) allows the in vivo measurement of the regional activity distribut...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Drug analysis and development with PET should fully exhaust the ability of this tomographic techniqu...
Positron emission tomography (PET) imaging has made it possible to detect the in vivo concentration ...
A kinetic modeling approach for the quantification of in vivo tracer studies with dynamic positron e...
A kinetic modelling approach for the quantification of in vivo tracer studies with dynamic positron ...
Positron emission tomography (PET) allows quantitative functional imaging of physiological parameter...
Using molecules radiolabelled with positron emitters, positron emission tomography (PET) imaging pro...
Measurement of hepatic blood perfusion and of the exchange of substances between blood and cells is ...
Kinetic analysis is a tool used to glean additional information from positron emission tomography (P...
The compartment model, so often used in nuclear medicine and in pharmacokinetics, is formed by a set...