This proposal seeks support to study a new class of drugs, iron chelating agents, in advanced cardiac life support to prevent late deaths and brain damage following successful cardiopulmonary resuscitation. The relevant biochemical hypothesis states that free iron, liberated from bound intracellular stores during or after ischemia, combines with superoxide ions and hydrogen peroxide during reperfusion to catalyze initiation of free radical reactions that cause tissue damage. Chelation of intracellular iron by deferoxamine (a commercially available drug, that distributes to the intracellular space and has an high affinity for iron ions) may prevent such reactions. We have developed a rat model of total circulatory arrest and resuscitation in which cardiac arrest of 5 to 10 min duration is followed by external CPR. In preliminary studies intravenous deferoxamine was given after restoration of the heartbeat, and long term survival was the endpoint. Ten day survival was 64% in the deferoxamine treated group vs. 36% survival in the control group, a statistically significant difference (X/2 = 3.92,df = 1,p greater than 0.05). Thus, deferoxamine prevented late deaths. Subsequently, we have repeated the study of deferoxamine with similar, statistically significant results, and we have tested the drug in other model systems of ischemia and reperfusion and demonstrated a protective effect. The proposed research will focus on identification of the optimal dose and timing of deferoxamine treatment, the safety (therapeutic index) of the drug when given following circulatory arrest, and its site and mechanism of action as revealed by light and electron microscopy and by biochemical assays for markers of tissue lipid peroxidation.

Agency
National Institute of Health (NIH)
Institute
National Heart, Lung, and Blood Institute (NHLBI)
Type
Research Project (R01)
Project #
5R01HL035996-02
Application #
3350426
Study Section
Surgery and Bioengineering Study Section (SB)
Project Start
1987-09-30
Project End
1990-09-29
Budget Start
1988-09-30
Budget End
1989-09-29
Support Year
2
Fiscal Year
1988
Total Cost
Indirect Cost
Name
Purdue University
Department
Type
DUNS #
072051394
City
West Lafayette
State
IN
Country
United States
Zip Code
47907
Salaris, S C; Babbs, C F; Pham, J (1993) Traumatic versus postischemic induction of oxidative stress in rat liver. J Trauma 34:199-204
Singh, R K; Kooreman, K M; Babbs, C F et al. (1992) Potential use of simple manganese salts as antioxidant drugs in horses. Am J Vet Res 53:1822-9
Babbs, C F; Cregor, M D; Turek, J J et al. (1991) Endothelial superoxide production in the isolated rat heart during early reperfusion after ischemia. A histochemical study. Am J Pathol 139:1069-80
Salaris, S C; Babbs, C F; Voorhees 3rd, W D (1991) Methylene blue as an inhibitor of superoxide generation by xanthine oxidase. A potential new drug for the attenuation of ischemia/reperfusion injury. Biochem Pharmacol 42:499-506
Babbs, C F; Cregor, M D; Turek, J J et al. (1991) Endothelial superoxide production in buffer perfused rat lungs, demonstrated by a new histochemical technique. Lab Invest 65:484-96
Babbs, C F; Salaris, S C; Turek, J J (1991) Cytochemical studies of hydrogen peroxide generation in postischemic hepatocytes. Am J Physiol 260:H123-9
Smith, J B; Cusumano, J C; Babbs, C F (1990) Quantitative effects of iron chelators on hydroxyl radical production by the superoxide-driven fenton reaction. Free Radic Res Commun 8:101-6
Steiner, M G; Babbs, C F (1990) Hydroxyl radical generation by postischemic rat kidney slices in vitro. Free Radic Biol Med 9:67-77
Babbs, C F; Steiner, M G (1990) Simulation of free radical reactions in biology and medicine: a new two-compartment kinetic model of intracellular lipid peroxidation. Free Radic Biol Med 8:471-85
Badylak, S F; Lantz, G C; Jeffries, M (1990) Prevention of reperfusion injury in surgically induced gastric dilatation-volvulus in dogs. Am J Vet Res 51:294-9

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