Our experience with 11C-putrescine underscores the difficulty of finding a selective brain tumor tracer, uniquely incorporated by neoplastic glia or metastatic cells within brain, but not by the proliferating, nontransformed cells which constitute a normal pathophysiological reaction to various disease processes. Thirty-three patients with 36 lesions were studied with 11C-putrescine to determine the specificity of labeled putrescine for tumor tissue. The uptake of 11C-putrescine was correlated with local cerebral glucose metabolic rate in various lesions, including different types of tumors, to assess the relationship between 11C-putrescine uptake and tumor biology. Carbon-11-putrescine uptake was similar in malignant tumor and benign, non-neoplastic lesions with blood-brain barrier breakdown, illustrating the lack of tumor specificity of this tracer. Carbon-11-putrescine was not well incorporated into poorly enhancing lesions, regardless of their pathology, emphasizing the requirement of a disrupted blood-brain barrier for 11C-putrescine uptake. The ratio of 11C concentration within lesions, compared to that in a region of interest in the contralateral brain, weakly correlated with an analogous ratio for local cerebral glucose metabolic rate in various lesions. Physiological processes not unique to tumors are associated with polyamine active transport and metabolism and contribute to the lack of tumor specificity of 11C-putrescine. Carbon-11-putrescine appear to have less diagnostic utility than 18FDG in brain tumors. The potential of 11C-putrescine for evaluating the effect of antineoplastic therapy and providing prognostic information on brain tumors remains to be investigated.