Heterogeneous fatty acid uptake early after reperfusion in rat hearts.

We determined whether spatial distributions of substrate uptake are heterogeneous within the area at risk during reperfusion. Quantitative autoradiography with imaging plates and two long-lived radioisotopes was applied to 15 open-chest, anesthetized rats subjected to 30 min of coronary artery ligation and 30 min of reperfusion. Regions showing increased β-methyl-[1-14C]heptadecanoic acid ([14C]BMHDA) uptake (166 ± 17% of that in the nonischemic area) appeared at the lateral borders and subepicardial layer within the area at risk, and 2-deoxy-d-[1-3H]glucose ([3H]DG) uptake was 103 ± 24% in these regions. Regions with decreased [14C]BMHDA uptake (28 ± 11%) occupied the midmyocardial layer except at the lateral borders within the area at risk, and [3H]DG uptake was 62 ± 18% in these regions. The percentage interregional coefficientsof variation (index of heterogeneity) in [14C]BMHDA uptake, [3H]DG uptake, and blood flow were higher in the area at risk than in the nonischemic area (76 ± 23 vs. 21 ± 7%, 39 ± 10 vs. 21 ± 7%, and 49 ± 19 vs. 14 ± 4%, respectively). Heterogeneous distributions of substrate uptake may explain the conflicting results concerning substrate metabolism during reperfusion.