Objective. In this study, 2 updated brain-imaging modalities, technetium-99m hexamethylpropylene amine oxime-single-photon-emission computed tomo-graphy (HMPAO-SPECT) and fluorine-18 2-fluoro-2-deoxy-D-glucose-positron emission tomography (FDG-PET), were used to simultaneously detect regional cerebral blood flow (rCBF) and glucose metabolism of the brain in patients with systemic lupus erythematosus (SLE). Methods. Twenty-five female SLE patients, ages 25-40 years, were enrolled in this study and assigned to 1 of 2 groups. Group 1 consisted of 13 patients with neuropsychiatric manifestations (7 had major and 6 had minor manifestations). Group 2 consisted of 12 patients without neuropsychiatric manifestations. Serum levels of anticardiolipin antibodies (aCL) and anti-ribosomal P antibodies (anti-P) were measured. All patients had normal brain magnetic resonance imaging (MRI) findings. Ten healthy female volunteers also underwent brain MRI, HMPAO-SPECT, and FDG-PET for comparison. Results. 99m Tc-HMPAO-SPECT revealed hypo-perfusion lesions in 11 (44%) of 25 SLE patients, including 9 (69%) of the 13 patients in group 1, 7 (100%) of the 7 patients with major manifestations, 2 (33%) of the 6 patients with minor manifestations, and 2 (17%) of the 12 patients in group 2. Parietal lobes were the areas most commonly involved. FDG-PET revealed hypome-tabolism in 7 (54%) of the group 1 patients, 6 (86%) of the 7 patients with major manifestations, and 1 (17%) of the 6 patients with minor manifestations. Temporal lobes were the most commonly involved areas. However, no significant hypometabolism brain lesions were found in group 2 patients. All of the 4 patients with headaches and dizziness or headaches alone had normal findings on HMPAO-SPECT and FDG-PET. Nine (36%) of the 25 patients were positive for aCL. However, the presence of aCL was not related to neuropsychiatric manifestations or to HMPAO-SPECT or FDG-PET findings. Five (20%) of the 25 patients had anti-P antibodies and psychosis/depression. Conclusion. In patients with normal brain MRI findings, decreases in glucose metabolism coupled with decreases in rCBF are associated with serious neuro-psychiatric SLE (NPSLE) presentations, while normal glucose metabolism with decreases in rCBF may be found in SLE patients with or without NPSLE.
Involvement of the brain is one of the most important complications of systemic lupus erythematosus (SLE); however, its diagnosis is difficult due to the lack of effective imaging methods. We combined three brain imaging modalities - positron emission tomography with fluorine-18 2-fluoro-2-deoxy-d-glucose (FDG-PET), single-photon emission computed tomography with technetium-99m hexamethylpropylene amine oxime (HMPAO-SPET) and magnetic resonance imaging (MRI) - in order to detect brain involvement in SLE. Thirty-seven SLE patients, aged 22-45 years, were divided into three groups. Group 1 (G1) consisted of ten patients with major neuropsychiatric manifestations; group 2 (G2) consisted of 15 patients with minor manifestations; and group 3 (G3) consisted of 12 patients without manifestations. FDG-PET findings were abnormal in 51% of patients: 90% of G1, 67% of G2 and 0% of G3 patients respectively. HMPAO-SPET findings were abnormal in 62% of patients: 100% of G1, 73% of G2 and 17% of G3 patients respectively. MRI findings were abnormal in 35% of patients: 70% of G1, 40% of G2 and 0% of G3 patients respectively. Grey matter was more commonly involved than white matter; 62% of patients presented with lesions in the cerebral cortex, 27% with lesions in the basal ganglion, 5% with lesions in the cerebellum, and 19% with lesions in white matter. No white matter lesions were found on FDG-PET or HMPAO-SPET. However, in 19% of patients, MRI demonstrated abnormally high signal lesions in white matter. Forty-three percent of cases had positive serum anticardiolipin antibodies (ACA). However, ACA was not related to FDG-PET, HMPAO-SPET or MRI findings. It may be concluding that HMPAO-SPET is a more sensitive tool for detecting brain involvement in SLE patients when compared with FDG-PET or MRI. However, MRI is necessary for detecting lesions in white matter.
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