We were highly interested in Cartes-Zumelzu et al’s article (1) on the value of the diffusion-weighted (DW) image monitoring in conservatively treated pyogenic brain abscesses published in the September 2004 issue of the AJNR. As Chen and Chung’s editorial (2) in the same issue highlighted, accurate and early indices on antibacterial treatment efficacy are crucial to optimize the therapeutic strategy.
A few years ago, we published the observation of a 14-year-old boy presenting with a pyogenic frontal brain abscess brain that was not immediately treated surgically and showed two components that evolved with time on serial DW images (3). Newly reformatted images of this case are shown in Figures 1 and 2. The patient presented with a febrile meningeal syndrome and biologic markers for sepsis. We observed a strong time dependence of both signal intensity and apparent diffusion coefficient (ADC) values of the abscess throughout serial DW image monitoring. In the initial phase of the disease course a hyperintense material completely filled the abscess cavity, in which the ADC was decreased when compared with contralateral normal brain tissue (Figs 1A, 2B). The strong hyperintensity in the homogeneous core was thus far prominently due to true diffusion-weighting because only moderate hypersignal intensity was observed on corresponding T2-weighted images (Fig 2A). Shortly after the initiation of empirical antibiotic therapy, a sharply delineated hypo-/hyperintense interface between pus sediment and fluid supernatant appeared (Fig 1B). The ADC values of the hyperintense component had then become slightly elevated when compared with normal brain tissue, thereby suggesting the prominence of the T2-weighted shine-through effect in the hyperintensity of the lesion (Fig 2D). Delayed stereotactic drainage confirmed the presence of thick pus containing neutrophilic pyocytes but failed to identify the causative organism. A second follow-up examination after drainage revealed further shrinking of the hyperintense component (Fig 1C).
We recently observed a 61-year-old man with non-Hodgkin lymphoma who complained from tiredness, atypical sensory disturbances of the four extremities, and gait disturbances without fever. Initial MR examination demonstrated the presence of a left-sided deep nodular lesion. Intensely enhanced margins surrounded a central area of cystic necrosis (Fig 3A). DW trace images revealed a sharply delineated hypo-/hyperinterface with ringlike pattern (Fig 3B). The peripheral component was hyperintense, but had slightly elevated ADC values when compared with normal brain tissue (Fig 3C), just as the shrinking hyperintense core in the previous patient. The central component was hypointense with highly elevated ADC values, which has not been described yet in brain abscesses involving pyogens. Empirical antibiotic therapy was unsuccessful. Stereotactic biopsy evacuated purulent material containing neutrophilic pyocytes. The causative germ remained unidentified. Antibiotic treatment was continued after drainage, and serial follow-up MR examinations were performed (Fig 3D–F). The first follow-up examination performed 2 days after stereotactic procedure showed inverted hypo-/hyper-ring pattern with central hyperintensity and peripheral hypointensity (Fig 3D). Further examinations demonstrated the progressive shrinkage of hyperintense core and the persistence of hypointense margins (Fig 2E, -F).
The two cases highlight the diagnostic value of the sharply delineated hypo/hyper interface sign on DW trace images of pyogenic cerebral abscesses. Slightly elevated ADC values were measured within the hyperintense shrinking component when hypo- and hyperintense components were present concomitantly, reflecting the overweighing of the true diffusion-weighted effect by the T2-weighted shine-through effect. Perhaps the combination of both features (sharply delineated hypo-/hyperinterface plus slightly elevated ADC within hyperintense component) is to become a clue to the diagnosis of abscess. Moreover, the shrinkage of the hyperintense content on serial DW images paralleled the efficacy of the antimicrobial treatment in the two patients, thereby assessing the clinical value of the DW monitoring of brain abscesses under antibiotic therapy.
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