Cardiac Flow from Acetate PET

Van den Hoff et al. [46] have investigated and validated ¹¹C-acetate as a flow tracer. This methodology is implemented as the Card Acetate (1 Compartment) model. It employs a single tissue compartment model

with tracer exchange between arterial plasma C_aand myocardial tissue C_myo and a differential equation

Acetate Model DE

A metabolite correction is necessary to derive the plasma activity from whole blood measured in the left cavity.

Acetate Metabolite Correction

with T_1/2=5.3 min. K₁ is the product of flow F and extraction E which is flow dependent for acetate. The relation found [46] is described by the following relation

Acetate Extraction Fraction

Additionally, the model incorporates a cardiac dual spillover correction by the operational equation

where
V_lv = spill-over fraction of the blood activity in the left ventricle C_lv(t),
V_rv = spill-over fraction of the blood activity in the right ventricle C_rv(t) .

Implementation Notes:

The right ventricle curve is only used for spillover correction of septal TACs. It must be loaded as the Total blood curve.
The left ventricle curve serves two purposes: (1) corrected by the metabolite buildup it serves as the input curve, (2) it is used for spillover correction of all myocardial TACs. It must be loaded as the Input curve.
The spill-over fraction from the right ventricle V_rv is automatically fixed to zero if the string "Sep" is not contained in the name a region. The assumption is that such a TAC is not from septal tissue and should thus be modeled with spill-over from the left ventricle only. The reason for this automatism is usage of the model in the PCARD tool.
To set V_rv = 0 in all regional models proceed as follows: in one region, set V_rv =0 and disable the fit checkbox; fit the region; configure the button below Copy to all regions to Model and Par. and activate it.