Table 3.
Design and realisation of general myocardial phantoms for quantitative perfusion imaging (PI)
| Publication | Phantom design | PI application | Phantom application | ||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1st author, year [reference] |
Configuration (see Fig. 3) |
Flow profile | Flow range | Motion simulation | Surrounding tissue simulation | Perfusion deficit simulation | Imaging modality | Contrast protocol | Blood flow model | Input variables | AIF | RF | MTT | BV | BF | Data comparison | Commercial |
| Myocardial phantoms | |||||||||||||||||
| Zarinabad, 2014 [34] | 2A | c | 1–5 B | MRI | x | MBD (Fermi) | 1, 4 | x | x | x | M, H | ||||||
| Chiribiri 2013 [8] | 2A | c | 1–10 B | MRI | x | 1, 2 | x | x | |||||||||
| Zarinabad, 2012 [35] | 2A | c | 1–5 B | MRI | x | MBD (Fermi), SVD | 1, 3, 4 | x | x | x | M, H | ||||||
| O’Doherty, 2017 [36] | 2A | c | 3 B | PET,MRI | x | 1-TCM | 2, 3 | x | x | x | |||||||
| O’Doherty, 2017 [37] | 2A | c | 1–5 B | PET,MRI | x | 1-TCM | 1, 3 | x | x | x | |||||||
| Otton, 2013 [38] | 2A | c | 2–4 B | MR,CT | x | 1, 3 | x | x | |||||||||
| Ressner, 2006 [39] | 3A | c | 5–10 C | x | US | x | 1, 2 | x | x | H | |||||||
| Ziemer, 2015 [40] | 3A | p | 0.96–2.49 B | x | CT | x | MSM | 1, 4 | x | x | x | ||||||
c Continuous, p Pulsatile, A in mL/min, B in mL/min/g, C in cm/s, FAIR Flow-sensitive alternating inversion recovery, MBD Model-based deconvolution, 1-TCM Single tissue compartment model, DWI Diffusion weighted imaging, ASL Arterial spin labelling, SVD Singular value decomposition, MSM Maximum slope model, 1 = Phantom/patient characteristics, 2 = Contrast protocol, 3 = Imaging method, 4 = Flow quantification method, AIF Arterial input function, RF Response function, MTT Mean transit time, BV Blood volume, BF Blood flow, H Human, A Animal, M Mathematical