Myocardial arterial spin labeling (ASL) is a non-contrast perfusion imaging method that is capable of quantifying regional myocardial blood flow (MBF) and flow reserve.^1,2 It is compatible with stress testing and can identify angiographically significant coronary artery disease (CAD).³ ASL has low signal-to-noise ratio (SNR) resulting in high variation in in MBF measurement (called physiological noise, PN). One of the known dominant sources of PN is cardiac motion.⁴ This study demonstrates that double-gated ASL⁵ significantly reduces PN in the presence of heart rate (HR) variation, and provides increased temporal SNR (tSNR=MBF/PN) compared to the more widely used single-gated ASL approach.^1-4

Our Institutional Review Board approved the study protocol, and all subjects provided written informed consent. Ten healthy subjects (n=10, 3F/7M, age 23-34) and 3 heart transplant recipients (n=3, 3M, age 26-63) were enrolled in the study. All experiments were performed at 3T (Signa Excite HDxt, GE Healthcare). At rest, single-gating and double-gating flow-sensitive alternating inversion recovery (FAIR) ASL were performed for 3 min each (1 5-second breath-hold for baseline and labeling check, and 6 12-second breath-holds for control and tagged image pairs). The order of the two scans was randomized. Imaging parameters were: FOV=180-280 mm, slice thickness = 10 mm, flip angle = 50º, matrix size = 96x96, and GRAPPA factor =1.6.⁶ HR was recorded in all scans, and HR variation was defined as the average absolute difference between the instantaneous HR when control and tagged images were acquired.

Left ventricular myocardium was manually segmented for global and per-segment (6 segments) analysis. Single-gated MBF was calculated as previously described.⁴ Double-gated MBF was quantified using the same equation with interpolated signal difference from T₁ curve fits as previously described.⁵ Both single-gated and double-gated PN were calculated identically, as the standard deviation of 6 measurements from 6 breath-holds.¹ Paired Student’s t-test was used to assess statistical difference between two methods. P-values < 0.05 were considered statistically significant. Results are reported as mean ± SD.

Figure 1 illustrates the advantage of double-gating compared to single-gating when HR variation > 4 bpm. Double-gating was insensitive to HR variation (PN did not depend on HR variation). In contrast, single-gating PN increased with HR variation.

The data was divided into two sub-groups: (1) low HR variation (n=7, HRV ≤ 4 bpm) and (2) high HR variation (n=6, HRV > 4 bpm). Table 1 compares double-gating and single-gating from the two sub-groups. Double-gating provided a statistically significant increase in tSNR compared to single-gating in both groups. Double-gating PN was significantly reduced in the high HR variation group (p < 0.001).

Figure 2 compares global MBF and PN. No significant difference was found in measured MBF between the two methods (p = 0.65). Double-gating shows significant reduction in PN compared to single-gating (p = 0.04). Group mean ± SD of per-segment MBF, PN, and tSNR from the two methods from all subjects are listed in Table 2. Double-gating demonstrates significant reduction in per-segment PN (p<0.001) and increase in per-segment tSNR (p=0.003) compared to the reference single-gating without statistically significant difference in measured MBF between the two methods (p=0.90).

This study demonstrates that double-gating myocardial ASL is robust with respect to HR variation compared to single-gating, with the same scan time. This is expected to be valuable for stress testing (physiological or pharmacologic stress).