Assessment of attenuation correction for myocardial PET imaging using combined PET/MRI

Abstract: Objective. To evaluate the frequency of artifacts in MR-based attenuation correction (AC) maps and their impact on the quantitative accuracy of PET-based flow and metabolism measurements in a cohort of consecutive heart failure patients undergoing combined PET/MR imaging.Methods. Myocardial viability studies were performed in 20 patients following a dualtracer protocol involving the assessment of myocardial perfusion ( 13 N-NH 3 : 813 ± 86 MBq) and metabolism ( 18 F-FDG: 335 ± 38 MBq). All acquisitions were pe… Show more

“…1,2 Although the main application of hybrid PET/MR imaging to oncology and neurology studies, 3 this hybrid modality is of keen interest to cardiology where its potential applications are considered strong for studies of cardiac inflammation, ischemic heart disease and ischemic cardiomyopathies as discussed in the joint position statement between the European Society of Cardiovascular Radiology (ESCR) and European Association of Nuclear Medicine (EANM). 4 Although PET/MR systems and their applications are becoming more widespread, the quantitative accuracy of these systems are still in question because of the difficulties related to PET attenuation correction (AC) maps 5,6 derived from MR images. Unlike the use of photon transmission-based AC maps obtained for standalone PET and PET/CT systems (rotating rods or CT, respectively), the attenuation maps for PET/MR are obtained from dedicated MR imaging acquisitionswith current products based on the DIXON sequence.…”

PET-derived bone information from 18F-sodium fluoride: A perfect match for whole-body PET/MR attenuation correction?

“…1,2 Although the main application of hybrid PET/MR imaging to oncology and neurology studies, 3 this hybrid modality is of keen interest to cardiology where its potential applications are considered strong for studies of cardiac inflammation, ischemic heart disease and ischemic cardiomyopathies as discussed in the joint position statement between the European Society of Cardiovascular Radiology (ESCR) and European Association of Nuclear Medicine (EANM). 4 Although PET/MR systems and their applications are becoming more widespread, the quantitative accuracy of these systems are still in question because of the difficulties related to PET attenuation correction (AC) maps 5,6 derived from MR images. Unlike the use of photon transmission-based AC maps obtained for standalone PET and PET/CT systems (rotating rods or CT, respectively), the attenuation maps for PET/MR are obtained from dedicated MR imaging acquisitionswith current products based on the DIXON sequence.…”

PET-derived bone information from 18F-sodium fluoride: A perfect match for whole-body PET/MR attenuation correction?

“…However, as many novel cardiac devices enter the market (e.g., left atrial appendage closure devices, transcatheter aortic heart valves, pacing systems, event-recorder), it is often not clear whether or not a device is compatible with MRI and whether or not these devices cause artifacts which translate into PET data and may cause false readings. In a recent study of 20 patients with viability imaging by FDG and ammonia PET/MRI, different AC artifacts were analyzed (Lassen et al 2017). The authors found artifacts caused by sternal wires or metallic implants in 20% and 30% of cases, respectively.…”

Cardiac PET/MRI—an update

“… 9–12 Respiratory misalignment commonly occurs with MRI-based AC maps, and metallic artefact produces voids, but these can be corrected with manual adjustment and importantly were found not to impact quantitative PET data. 13 …”

Hybrid positron emission tomography–magnetic resonance of the heart: current state of the art and future applications