[Sensory aphasia during therapy with metronidazole--an important differential diagnosis of acute cerebral ischemia]. / Sensorische Aphasie unter Therapie mit Metronidazol--eine wichtige Differenzialdiagnose der akuten zerebralen Ischämie.

HISTORY AND ADMISSION FINDINGS: A 74-year old man was admitted after neurosurgical treatment of a lumbar vertebral fracture. He had a slight paresis of the right leg in combination with bladder dysfunction. INVESTIGATIONS: There were signs of a postoperative anemia (hemoglobin 10.4 mg/dl) and mildly elevated infection parameters (CRP 2 mg/dl). Routine ECG and chest X-ray were normal. TREATMENT AND COURSE: Physical training was initiated, but diarrhea occurred 2 days after admission. As the patient had received antibiotics after the operation, a treatment with metronidazole was initiated under the suspicion of diarrhoea induced by clostridium difficile. At day 6 of treatment a hypertensive crisis (blood pressure 230/120 mmHg) developed, followed by sensory aphasia. Despite treatment at the stroke unit and blood pressure regulation, the clinical signs of aphasia persisted. MRI could not detect an acute cerebral infarction. After discontinuation of metronidazole complete reconstitution occurred within 72 h. CONCLUSION: Metronidazole should be taken into account as cause of severe neurological side effects including ischemia-like syndromes like aphasia.

Stroke rehabilitation using noninvasive cortical stimulation: aphasia.

Poststroke aphasia results from the lesion of cortical areas involved in the motor production of speech (Broca's aphasia) or in the semantic aspects of language comprehension (Wernicke's aphasia). Such lesions produce an important reorganization of speech/language-specific brain networks due to an imbalance between cortical facilitation and inhibition. In fact, functional recovery is associated with changes in the excitability of the damaged neural structures and their connections. Two main mechanisms are involved in poststroke aphasia recovery: the recruitment of perilesional regions of the left hemisphere in case of small lesion and the acquisition of language processing ability in homotopic areas of the nondominant right hemisphere when left hemispheric language abilities are permanently lost. There is some evidence that noninvasive cortical stimulation, especially when combined with language therapy or other therapeutic approaches, can promote aphasia recovery. Cortical stimulation was mainly used to either increase perilesional excitability or reduce contralesional activity based on the concept of reciprocal inhibition and maladaptive plasticity. However, recent studies also showed some positive effects of the reinforcement of neural activities in the contralateral right hemisphere, based on the potential compensatory role of the nondominant hemisphere in stroke recovery.