Comparison of O-(2-18F-fluoroethyl)-L-tyrosine and L-3H-methionine uptake in cerebral hematomas.

UNLABELLED: Radiolabeled amino acids are useful for brain tumor diagnosis, but unspecific uptake near the cerebral hematoma may complicate the differentiation of a neoplastic from a nonneoplastic origin of the hematoma. The aim of this study was to investigate the pattern and time course of O-(2-(18)F-fluorethyl)-l-tyrosine ((18)F-FET) and l-(3)H-methionine ((3)H-MET) uptake in rats with cerebral hematomas. METHODS: Intracerebral hematomas were induced in the striatum of 25 Fischer 344 CDF rats by inoculation of bacterial collagenase. (18)F-FET and (3)H-MET were injected intravenously at different times up to 4 wk after bleeding. One hour after tracer injection, brains were cut in coronal sections and evaluated by dual-tracer autoradiography. Lesion-to-brain (L/B) ratios were calculated by dividing maximal uptake near the hematomas and mean uptake in normal brain tissue. An L/B ratio greater than 1.5 was considered as indicative of pathologic uptake. The autoradiograms were compared with histology and immunostainings for astrogliosis (glial fibrillary acidic protein) and macrophage infiltration (CD68). RESULTS: (18)F-FET exhibited significantly increased uptake near the hematomas between 3 and 14 d after bleeding. The time course of pathologic (3)H-MET uptake was similar, but after 3-4 wk there was still borderline uptake in single animals. The L/B ratios exceeded the cutoff level of 1.5 in 10 of 23 animals for (18)F-FET and in 12 of 22 animals for (3)H-MET but did not exceed a value of 3. Immunostainings indicated that increased uptake of both tracers correlated with reactive astrogliosis, whereas (3)H-MET uptake was additionally increased in areas with macrophage infiltration. CONCLUSION: (18)F-FET, like (3)H-MET, may exhibit significantly increased uptake near cerebral hematomas, especially during the first 2 wk after bleeding, complicating the differentiation between a neoplastic and a nonneoplastic origin of cerebral hematomas.

Differential uptake of O-(2-18F-fluoroethyl)-L-tyrosine, L-3H-methionine, and 3H-deoxyglucose in brain abscesses.

UNLABELLED: The amino acid O-(2-(18)F-fluoroethyl)-L-tyrosine ((18)F-FET) has been shown to be a useful tracer for brain tumor imaging. Experimental studies demonstrated no uptake of (18)F-FET in inflammatory cells but increased uptake has been reported in single cases of human brain abscesses. To explore this inconsistency, we investigated the uptake of (18)F-FET in comparison with that of L-[methyl-(3)H]methionine ((3)H-MET) and D-(3)H-deoxyglucose ((3)H-DG) in brain and calf abscesses in rats. METHODS: Abscesses were induced in the brain (n = 9) and calf (n = 5) of Fisher CDF rats after inoculation of Staphylococcus aureus. Five days later, (18)F-FET and (3)H-MET (n = 10) or (18)F-FET and (3)H-DG (n = 4) were injected intravenously. One hour after injection the rats were sacrificed, and the brain or calf muscle was investigated using dual-tracer autoradiography. Lesion-to-background ratios (L/B) and standardized uptake values (SUVs) were calculated. The autoradiograms were compared with histology and immunostaining for glial fibrillary acidic protein (GFAP), CD68 for macrophages, and CD11b for microglia. RESULTS: (18)F-FET uptake in the area of macrophage infiltration and activated microglia at the rim of the brain abscesses was low (L/B, 1.5 +/- 0.4). In contrast, high uptake was observed for (3)H-MET as well as for (3)H-DG (L/B, 4.1 +/- 1.1 for (3)H-MET vs. 3.1 +/- 1.5 for (3)H-DG; P < 0.01 vs. (18)F-FET). Results for calf abscesses were similar. In the vicinity of the brain abscesses, slightly increased uptake was noted for (18)F-FET (L/B, 1.8 +/- 0.3) and (3)H-MET (L/B, 1.8 +/- 0.4), whereas (3)H-DG distribution was normal (L/B, 1.2 +/- 0.2). Anti-GFAP immunofluorescence showed a diffuse astrocytosis in those areas. CONCLUSION: Our results demonstrate that there is no accumulation of (18)F-FET in macrophages and activated microglia in experimental brain abscesses, whereas (3)H-MET and (3)H-DG exhibit high uptake in these cells. Thus, the specificity of (18)F-FET for gliomas may be superior to that (3)H-MET and (3)H-DG. Increased (18)F-FET uptake in human brain abscesses appears to be related to reactive astrocytosis.