Bruce L. Kuczynski

Imaging ischemic tissue at risk of infarction during stroke.

Autoradiograms obtained after middle cerebral artery occlusion (MCAO) in spontaneously hypertensive rats show that the 99mTc complex of a 2-nitroimidazole-derivatized propylene amine oxime (BMS-181321) is selectively retained in acutely ischemic brain before disruption of the blood-brain barrier (BBB), but not in the ischemic infarct. BMS-181321 is therefore a marker of ischemic tissue at risk of infarction and its uptake, unlike that of x-ray and magnetic resonance contrast agents, does not require disruption of the BBB. In keeping with this conclusion, we have found that the single-pass cerebral extraction fraction of BMS-181321 is 0.67 at normal rat whole-brain blood flow. Sequential single-photon emission computed tomographic images obtained from cats after MCAO show that the initial distribution of BMS-181321 approximates regional CBF and that selective retention subsequently produces a positive image within the ischemic territory. BMS-181321 is the first Tc complex able to indicate not only ischemia, but also ischemic tissue at risk of infarction. Use of this novel Tc complex to monitor biochemical events during ischemia may contribute to the clinical management of acute stroke.

Potential of Nitroimidazoles as Markers of Hypoxia in Heart

It is well known that cardiac muscle has a high and continuous requirement for oxygen. Oxygen is primarily needed, i.e., over 95%, to maintain flux through mitochondrial oxidative phosphorylation for synthesis of ATP. Oxygen is delivered to the working cardiac myocytes at levels consistent with the prevailing metabolic demands established by the various ATP-dependent reactions, principally cycling of the contractile myofilaments. When oxygen delivery is diminished, for example during ischemia, electron flux within the respiratory chain is impeded by the lack of appropriate electron acceptor at the cytochrome oxidase reaction. Consequently, the concentration of reducing equivalents (NADH and FADH2) increases. This condition establishes the opportunity for these and other sources of biological reductants to interact with exogenously supplied molecules having high electron affinity.

BATO complexes derived from dimethoxy dioximes: Synthesis, characterization and biodistribution

To prepare less lipophilic BATO complexes, two new methoxy-substituted dioximes were synthesized: cis-4,5-dimethoxycyclohexane-1,2-dione dioxime (DMCDO) and 1,4-dimethoxybutane-2,3-dione dioxime (DMDMG). 99mTcCl(DMCDO)3BMe (BMe = methylboronic acid) was prepared and characterized. Reversed-phase HPLC analyses of 99mTcCl(DMCDO)3BMe and 99mTcCl(DMCDO)3-p-TBA (p-TBA = p - tolylboronic acid) indicated that both of these complexes were mixtures of four enantiomeric pairs of diastereomers. Attempted preparation of a BATO complex from DMDMG gave a mixture of products. In rats, 99mTcCl(DMCDO)3BMe displayed more rapid liver and renal clearance than 99mTcCl(CDO)3BMe, but 99mTcCl(DMCDO)3BMe and 99mTcCl(DMCDO)3-p-TBA displayed low uptake in both heart and brain.