Your search keyword '"tissue compartment model"' showing total 4 results

1. Rest/stress myocardial perfusion imaging by positron emission tomography with 18F-Flurpiridaz: A feasibility study in mice

Author

Bengs, Susan, Warnock, Geoffrey I., Portmann, Angela, Mikail, Nidaa, Rossi, Alexia, Ahmed, Hazem, Etter, Dominik, Treyer, Valerie, Gisler, Livio, Pfister, Stefanie K., Jie, Caitlin V.M.L., Meisel, Alexander, Keller, Claudia, Liang, Steven H., Schibli, Roger, Mu, Linjing, Buechel, Ronny R., Kaufmann, Philipp A., Ametamey, Simon M., Gebhard, Catherine, and Haider, Achi

Published

2023

2. Improved precision of SPECT myocardial blood flow using a net tracer retention model.

Author

Cuddy-Walsh, Sarah G., deKemp, Robert A., Ruddy, Terrence D., and Wells, R. Glenn

Subjects

*MYOCARDIAL perfusion imaging, *SINGLE-photon emission computed tomography, *BLOOD flow, *BLOOD flow measurement

Abstract

Background: Noninvasive quantification of absolute myocardial blood flow (MBF) and myocardial flow reserve (MFR) provides incremental benefit to relative myocardial perfusion imaging (MPI) to diagnose and manage heart disease. MBF can be measured with single-photon emission computed tomography (SPECT) but the uncertainty in the measured values is high. Standardization and optimization of protocols for SPECT MBF measurements will improve the consistency of this technique. One element of the processing protocol is the choice of kinetic model used to analyze the dynamic image series. Purpose: This study evaluates if a net tracer retention model (RET) will provide a better fit to the acquired data and greater test-retest precision than a one-compartment model (1CM) for SPECT MBF, with (+MC) and without (-MC) manual motion correction. Methods: Data from previously acquired rest-stress MBF studies (31 SPECTPET and 30 SPECT-SPECT) were reprocessed ± MC. Rate constants (K1) were extracted using 1CM and RET, +/-MC, and compared pairwise with standard PET MBF measurements using cross-validation to obtain calibration parameters for converting SPECT rate constants to MBF and to assess the goodness-of -fit of the calibration curves. Precision (coefficient of variation of test re-test relative differences, COV) of flow measurements was computed for 1CM and RET ± MC using data from the repeated SPECT MBF studies. Results: Both the RET model and MC improved the goodness-of -fit of the SPECT MBF calibration curves to PET. All models produced minimal bias compared with PET (mean bias < 0.6%). The SPECT-SPECT MBF COV significantly improved from 34% (1CM+MC) to 28% (RET+MC, P = 0.008). Conclusion: The RET+MC model provides a better calibration of SPECT to PET and blood flow measurements with better precision than the 1CM, without loss of accuracy. [ABSTRACT FROM AUTHOR]

Published

2023

3. Rest/stress myocardial perfusion imaging by positron emission tomography with 18F-Flurpiridaz: A feasibility study in mice.

Author

Bengs, Susan, Warnock, Geoffrey I., Portmann, Angela, Mikail, Nidaa, Rossi, Alexia, Ahmed, Hazem, Etter, Dominik, Treyer, Valerie, Gisler, Livio, Pfister, Stefanie K., Jie, Caitlin V. M. L., Meisel, Alexander, Keller, Claudia, Liang, Steven H., Schibli, Roger, Mu, Linjing, Buechel, Ronny R., Kaufmann, Philipp A., Ametamey, Simon M., and Gebhard, Catherine

Abstract

Background: Myocardial perfusion imaging by positron emission tomography (PET-MPI) is the current gold standard for quantification of myocardial blood flow. 18F-flurpiridaz was recently introduced as a valid alternative to currently used PET-MPI probes. Nonetheless, optimum scan duration and time interval for image analysis are currently unknown. Further, it is unclear whether rest/stress PET-MPI with 18F-flurpiridaz is feasible in mice. Methods: Rest/stress PET-MPI was performed with 18F-flurpiridaz (0.6-3.0 MBq) in 27 mice aged 7–8 months. Regadenoson (0.1 µg/g) was used for induction of vasodilator stress. Kinetic modeling was performed using a metabolite-corrected arterial input function. Image-derived myocardial 18F-flurpiridaz uptake was assessed for different time intervals by placing a volume of interest in the left ventricular myocardium. Results: Tracer kinetics were best described by a two-tissue compartment model. K1 ranged from 6.7 to 20.0 mL·cm−3·min−1, while myocardial volumes of distribution (VT) were between 34.6 and 83.6 mL·cm−3. Of note, myocardial 18F-flurpiridaz uptake (%ID/g) was significantly correlated with K1 at rest and following pharmacological vasodilation for all time intervals assessed. However, while Spearman's coefficients (rs) ranged between 0.478 and 0.681, R2 values were generally low. In contrast, an excellent correlation of myocardial 18F-flurpiridaz uptake with VT was obtained, particularly when employing the averaged myocardial uptake from 20 to 40 min post tracer injection (R2 ≥ 0.98). Notably, K1 and VT were similarly sensitive to pharmacological vasodilation induction. Further, mean stress-to-rest ratios of K1, VT, and %ID/g 18F-flurpiridaz were virtually identical, suggesting that %ID/g 18F-flurpiridaz can be used to estimate coronary flow reserve (CFR) in mice. Conclusion: Our findings suggest that a simplified assessment of relative myocardial perfusion and CFR, based on image-derived tracer uptake, is feasible with 18F-flurpiridaz in mice, enabling high-throughput mechanistic CFR studies in rodents. [ABSTRACT FROM AUTHOR]

Published

2023

4. Rest/stress myocardial perfusion imaging by positron emission tomography with 18F-Flurpiridaz: A feasibility study in mice

Author

Susan Bengs, Geoffrey I. Warnock, Angela Portmann, Nidaa Mikail, Alexia Rossi, Hazem Ahmed, Dominik Etter, Valerie Treyer, Livio Gisler, Stefanie K. Pfister, Caitlin V. M. L. Jie, Alexander Meisel, Claudia Keller, Steven H. Liang, Roger Schibli, Linjing Mu, Ronny R. Buechel, Philipp A. Kaufmann, Simon M. Ametamey, Catherine Gebhard, and Ahmed Haider

Subjects

microvascular dysfunction, kinetic modeling, logan graphical analysis, myocardial ischemia, coronary artery disease (CAD), Rest/stress myocardial perfusion imaging (MPI), positron emission tomography (PET), 18f-flurpiridaz, regadenoson, small animal PET, tissue compartment model, Radiology, Nuclear Medicine and imaging, Cardiology and Cardiovascular Medicine

Abstract

Background Myocardial perfusion imaging by positron emission tomography (PET-MPI) is the current gold standard for quantification of myocardial blood flow. F-18-flurpiridaz was recently introduced as a valid alternative to currently used PET-MPI probes. Nonetheless, optimum scan duration and time interval for image analysis are currently unknown. Further, it is unclear whether rest/stress PET-MPI with F-18-flurpiridaz is feasible in mice. Methods Rest/stress PET-MPI was performed with F-18-flurpiridaz (0.6-3.0 MBq) in 27 mice aged 7-8 months. Regadenoson (0.1 mu g/g) was used for induction of vasodilator stress. Kinetic modeling was performed using a metabolite-corrected arterial input function. Image-derived myocardial F-18-flurpiridaz uptake was assessed for different time intervals by placing a volume of interest in the left ventricular myocardium. Results Tracer kinetics were best described by a two-tissue compartment model. K-1 ranged from 6.7 to 20.0 mL center dot cm(-3)center dot min(-1), while myocardial volumes of distribution (V-T) were between 34.6 and 83.6 mL center dot cm(-3). Of note, myocardial F-18-flurpiridaz uptake (%ID/g) was significantly correlated with K-1 at rest and following pharmacological vasodilation for all time intervals assessed. However, while Spearman's coefficients (r(s)) ranged between 0.478 and 0.681, R-2 values were generally low. In contrast, an excellent correlation of myocardial F-18-flurpiridaz uptake with V-T was obtained, particularly when employing the averaged myocardial uptake from 20 to 40 min post tracer injection (R-2 >= 0.98). Notably, K-1 and V-T were similarly sensitive to pharmacological vasodilation induction. Further, mean stress-to-rest ratios of K-1, V-T, and %ID/g F-18-flurpiridaz were virtually identical, suggesting that %ID/g F-18-flurpiridaz can be used to estimate coronary flow reserve (CFR) in mice. Conclusion Our findings suggest that a simplified assessment of relative myocardial perfusion and CFR, based on image-derived tracer uptake, is feasible with F-18-flurpiridaz in mice, enabling high-throughput mechanistic CFR studies in rodents., Journal of Nuclear Cardiology, 30 (1), ISSN:1071-3581, ISSN:1532-6551

Published

2022