Cerebellar ataxia following whooping cough.

Bordetella pertussis (BP), the agent of whooping cough, has not been recognized so far as a cause of permanent cerebellar ataxia in human. We describe three patients who developed a disabling and permanent cerebellar syndrome soon after whooping cough. In two patients, diagnosis of BP infection was confirmed by culture of nasopharyngeal secretions. The infection occurred between the age of 13 and 15 years, with neurological symptoms beginning after a delay varying from 3 weeks to 3 months. In our three patients, the cerebellar syndrome was characterized by dysmetria of ocular saccades, scanning speech and ataxic gait. Brain MRI demonstrated a pancerebellar atrophy. The pathogenesis of this cerebellar degeneration is not established. Experimental studies have demonstrated that the cerebellum is particularly vulnerable to lymphocytosis-promoting factor (LPF), one of the exotoxins from BP. The mechanism of this toxicity might be a marked increase in the cellular levels of 3',5'cyclic guanosine monophosphate (cGMP). Since whooping cough is a bacterial exotoxin-mediated disease, this is the first report of a cerebellar syndrome triggered by a bacterial exotoxin.

[Lesions of ponto-cerebellar and olivo-cerebellar afferents demonstrated by neurophysiologic analysis]. / Atteinte des afférences ponto-cérébelleuses et olivo-cérébelleuses mise en évidence par l'analyse neurophysiologique.

We describe a 52-year-old woman presenting a 2-year history of limb clumsiness and gait difficulties, characterized by progressive worsening. Neurological examination revealed cerebellar intention tremor, cerebellar dysmetria of all 4 limbs and ataxic gait. However, brain MRI was normal. Analysis of fast wrist flexion movements demonstrated hypometric movements, with decreased intensities of agonist EMG activities and increased durations of antagonist EMG activities. Such EMG abnormalities have been demonstrated in patients presenting lesions of the middle cerebellar peduncle, affecting the crossed cerebellopontine projections. Moreover, adaptation motor learning during a pinch task (isometric force) showed a severe inability to adapt motor programming, indicating a disruption of cerebellolivary and cerebellopontine afferent systems. We suggest that our patient presented an exceptional brainstem syndrome involving the function of cerebellar inflow tracts. Such electrophysiological findings are not encountered in patients presenting a cerebellar cortical degeneration or cerebellovlivopontine atrophy, and might have important implications in the treatment of cerebellar ataxia in the future.