Abstract
The purpose of the present study was to determine whether graded levels of low-flow ischemia would lead to graded differences in uptake and clearance of BMS 181321. Using a perfused rat heart model, 7.4 MBq (200 μCi) of BMS181321 was infused over 20 min, followed by a 60-min clearance phase. Activity was monitored using an NaI detector. Four groups were studied using Krebs-Henseleit buffer perfusion using low flow or hypoxia: group 1=12 ml/min, group 2=3 ml/min, and group 3=1 ml/min during uptake and clearance phases, and group 4=12 ml/min with hypoxia during clearance. Control and low-flow groups were also perfused using red blood cells and albumin. There was a stepwise increase in peak myocardial uptake (% injected dose) as flow progressively decreased (group 1=2.4%±0.2% SEM, group 2=13.1%±0.7%, group 3=28.6%±2.4%,P <0.05). Group 3/group 1 mean peak activity ratio was 12:1. Mean 1-h fractional retention significantly increased in a stepwise manner as flow decreased (group 1=0.32±0.02, group 2=0.43±0.03, group 3=0.59±0.05,P <0.05). Group 3/group 1 mean 1-h clearance activity ratio was 30:1. Groups 5 and 6 perfused with red blood cells and albumin demonstrated similar increases in peak uptake and 1-h retention in the low-flow hearts. This study demonstrates a stepwise increase in uptake and a stepwise increase in retention rate of BMS 181321 with progressive reduction in. flow.
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Okada, R.D., Nguyen, K.N., Strausse, H.W. et al. Effects of low flow and hypoxia on myocardial retention of technetium-99m BMS181321. Eur J Nucl Med 23, 443–447 (1996). https://doi.org/10.1007/BF01247374
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DOI: https://doi.org/10.1007/BF01247374