UNLABELLED: The diffuse nature of allograft coronary artery disease (CAD) suggests that global myocardial blood flow (MBF) may decrease with time after transplantation; therefore the diagnosis of this disease remains problematic. METHODS: To investigate whether PET detects a fall in allograft MBF over time, PET scans (108) were obtained from 43 heart transplant recipients. Thirty-five patients underwent two serial PET scans 1 yr apart. MBF was measured by PET using 13N-ammonia as a tracer. Coronary angiography was performed parallel with PET imaging and compared with perfusion rates measured by PET scans. RESULTS: MBF measured by PET decreased sequentially with time. The mean MBF was 73 +/- 21, 56 +/- 13, 51 +/- 11 and 51 +/- 27 ml/min/100 g of tissue in patients surviving 3 mo, 1, 2 and 3 yr after transplantation, respectively. Significant MBF decrease occurred within 1 yr after transplantation. Sequential PET studies showed a decrease in MBF in 22 of 35 patients (63%). Mean MBF for the first and second scans was 65 +/- 18 and 54 +/- 16, respectively. MBF decrease was more profound in patients (n = 11) angiographic evidence of CAD. There was a trend towards increased rejection and CMV infection rates in patients with decreased MBF. CONCLUSION: With time, PET detects a decrease in MBF in cardiac allografts. The frequency of MBF decrease detected by PET is concordant with the true incidence of allograft CAD, suggesting that sequential PET is a more sensitive modality for monitoring allograft CAD than angiography.
UNLABELLED: The diffuse nature of allograft coronary artery disease (CAD) suggests that global myocardial blood flow (MBF) may decrease with time after transplantation; therefore the diagnosis of this disease remains problematic. METHODS: To investigate whether PET detects a fall in allograft MBF over time, PET scans (108) were obtained from 43 heart transplant recipients. Thirty-five patients underwent two serial PET scans 1 yr apart. MBF was measured by PET using 13N-ammonia as a tracer. Coronary angiography was performed parallel with PET imaging and compared with perfusion rates measured by PET scans. RESULTS: MBF measured by PET decreased sequentially with time. The mean MBF was 73 +/- 21, 56 +/- 13, 51 +/- 11 and 51 +/- 27 ml/min/100 g of tissue in patients surviving 3 mo, 1, 2 and 3 yr after transplantation, respectively. Significant MBF decrease occurred within 1 yr after transplantation. Sequential PET studies showed a decrease in MBF in 22 of 35 patients (63%). Mean MBF for the first and second scans was 65 +/- 18 and 54 +/- 16, respectively. MBF decrease was more profound in patients (n = 11) angiographic evidence of CAD. There was a trend towards increased rejection and CMV infection rates in patients with decreased MBF. CONCLUSION: With time, PET detects a decrease in MBF in cardiac allografts. The frequency of MBF decrease detected by PET is concordant with the true incidence of allograft CAD, suggesting that sequential PET is a more sensitive modality for monitoring allograft CAD than angiography.
Authors: Akhil Narang; John E Blair; Mita B Patel; Victor Mor-Avi; Savitri E Fedson; Nir Uriel; Roberto M Lang; Amit R Patel Journal: Int J Cardiovasc Imaging Date: 2018-05-04 Impact factor: 2.357