Can J Neurol Sci
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Electroencephalography (EEG) is playing an increasingly important role in the management of comatose patients in the intensive care unit. ⋯ Applications of continuous EEG to clinical problems are discussed. The most useful role of CEEG appears to be the detection and management of nonconvulsive seizures. There is a need for controlled studies to assess the role for CEEG in neuro-ICUs and general ICUs.
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The pharmacologic management of major motor status epilepticus is summarized. When general anesthesia is required, the electroencephalogram (EEG) is used for monitoring the adequacy of treatment. The EEG findings may also be important in recognizing status epilepticus and monitoring its response to treatment when this is clinically difficult, as when it occurs in comatose or pharmacologically paralyzed patients or in the context of severe brain damage. Finally, the EEG helps to clarify the nature of motor activities of uncertain basis in patients in the intensive care unit and has indicated that non-convulsive seizures or status are more common than clinically suspected in such patients.
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It is often difficult to differentiate a recurrent glioma from the effects of post-operative radiotherapy by means of conventional neurodiagnostic imaging. Proton magnetic resonance spectroscopic imaging (1H-MRSI), that allows in vivo measurements of the concentration of brain metabolites such as choline-containing phospholipids (Cho), may provide in vivo biochemical information helpful in distinguishing areas of tumor recurrence from areas of radiation effect. ⋯ The differentiation between the recurrence of a cerebral glioma and the effects of post-operative irradiation was achieved using 1H-MRSI in these two patients whose conventional neurodiagnostic imaging was equivocal for such a distinction. Where these two conditions are present, metabolite images from 1H-MRSI, such as that based on Cho, can be co-registered with other imaging modalities such as MRI and may also be integrated with functional MRI or functional PET within a multimodal imaging-guided surgical navigation system to assure maximal resection of recurrent tumor while minimizing the risk of added neurological damage.