Abstract: The present invention provides a system and method for performing a single-scan rest-stress cardiac measurement. In one aspect, the system includes a positron emission tomography (PET) imaging system, a source of a first PET radiotracer for administration to a subject, a source of a second PET radiotracer for administration to a subject, and a processor. The processor has non-transient computer readable media programmed with instructions to obtain PET images of the subject administered with the radiotracer. Furthermore, the computer readable media is programmed with instructions to process the PET images with a non-steady-state, multi-compartment parametric model. An output of the non-steady-state, multi-compartment parametric model is a measure of myocardial blood flow for both a rest state and a stress state of the subject.

Abstract: The present invention provides a system and method for performing a single-scan rest-stress cardiac measurement. In one aspect, the system includes a positron emission tomography (PET) imaging system, a source of a first PET radiotracer for administration to a subject, a source of a second PET radiotracer for administration to a subject, and a processor. The processor has non-transient computer readable media programmed with instructions to obtain PET images of the subject administered with the radiotracer. Furthermore, the computer readable media is programmed with instructions to process the PET images with a non-steady-state, multi-compartment parametric model. An output of the non-steady-state, multi-compartment parametric model is a measure of myocardial blood flow for both a rest state and a stress state of the subject.

Abstract: A system and method is provided for processing a positron emission tomography (PET) image of a subject having received a dose of a radiotracer that serves as chemical analog of an MC-I inhibitor. Specifically, the processing may includes identifying portions of the at least one PET image that represent MC-I expression levels.

Abstract: The present disclosure provides a system and method for method for quantifying radioactivity production during a proton treatment of a patient. In some aspects, a method includes administering, using a proton delivery system, a proton treatment using at least one therapeutic proton beam generating positron emitting radionuclides within a region of interest (ROI) of a patient, and acquiring, using an emission tomography system, emission tomography data indicative of an activity of the positron emitting radionuclides in the ROI. The method also includes quantifying, based on a kinetic model, a radioactivity production rate of at least one positron emitting radionuclide using the emission tomography data. The method further includes generating at least one map indicative of the radioactivity production rate of the at least one positron emitting radionuclide.

Abstract: The present disclosure provides a system and method for method for quantifying radioactivity production during a proton treatment of a patient. In some aspects, a method includes administering, using a proton delivery system, a proton treatment using at least one therapeutic proton beam generating positron emitting radionuclides within a region of interest (ROI) of a patient, and acquiring, using an emission tomography system, emission tomography data indicative of an activity of the positron emitting radionuclides in the ROI. The method also includes quantifying, based on a kinetic model, a radioactivity production rate of at least one positron emitting radionuclide using the emission tomography data. The method further includes generating at least one map indicative of the radioactivity production rate of the at least one positron emitting radionuclide.

Abstract: A system and method is provided for processing a positron emission tomography (PET) image of a subject having received a dose of a radiotracer that serves as chemical analog of an MC-I inhibitor. Specifically, the processing may includes identifying portions of the at least one PET image that represent MC-I expression levels.

Abstract: The present invention provides a system and method for performing a single-scan rest-stress cardiac measurement. In one aspect, the system includes a positron emission tomography (PET) imaging system, a source of a first PET radiotracer for administration to a subject, a source of a second PET radiotracer for administration to a subject, and a processor. The processor has non-transient computer readable media programmed with instructions to obtain PET images of the subject administered with the radiotracer. Furthermore, the computer readable media is programmed with instructions to process the PET images with a non-steady-state, multi-compartment parametric model. An output of the non-steady-state, multi-compartment parametric model is a measure of myocardial blood flow for both a rest state and a stress state of the subject.