Unilateral tongue myokymia - A rare topodiagnostic sign of different clinical conditions.

Myokymia of the tongue is a very rare clinical condition and is much less common than facial or focal myokymia of the limbs. Radiation-induced delayed nerve damage is a well-known cause of myokymia, but other etiologies i.e. tumor recurrence should be considered as a differential diagnosis. We describe a case series of neurophysiologically proven unilateral tongue myokymia, which arose in two patients after radiotherapy of the neck/head and in one patient due to a space occupying meningioma of the cerebrospinal passage affecting the hypoglossal nerve. With this case series and a review of the literature we aim to raise clinical suspicion of tongue myokymia and highlight the clinical and electromyographic impact of myokymia in the diagnosis of malignancies and treatment-associated lesions of the hypoglossal nerve.

[Nerve sonography of intraneural ganglia as cause painful peroneal palsies: a case series]. / Nervensonographie intraneuraler Ganglien als Ursache schmerzhafter N.-peronaeus-Paresen: eine Fallserie.

In selected cases acquired peroneal palsy is caused by intraneural ganglia. In contrast to the much more frequent "loco typico" lesion which is caused by external pressure, intraneural ganglia can be treated by microscopic nerve surgery as part of primary treatment strategy. A careful clinical history as well as a profound clinical and electrophysiological examination is required to disclose unusual findings. These are common in non-typical peroneal palsy. In this situation high resolution nerve sonography is a fast and sensitive method to detect intraneural ganglia. We report a case series of three patients with peroneal palsy caused by intraneural ganglia and give a review of the literature.

Rarement la lésion du nerf péronier au niveau de la tête fibulaire suivie par une parésie des muscles innervés par ce nerf est causée par un ganglion appuyant sur les structures nerveuses. En ce cas une intervention chirurgicale peut souvant résondre le problème. Une anamnèse soigneusement menée, l'examen neurologique et des investigations neuromusculaires sont essentielles mais souvent atypiques comparés à la lésion péronière «loco typico¼. L'ultrasonographie à haute résolution est procédée facilement et plus sensible qu'une MRI. Nous allons décrire dans ce papier trois cas de parèsie du nerf péronier pour lesquels la diagnostic final a été posé par ultrasonographie.

Intrauterine exposure to dexamethasone impairs proliferation but not neuronal differentiation in the dentate gyrus of newborn common marmoset monkeys.

Glucocorticoids applied prenatally alter birth weight and the maturation of the lungs. Moreover, glucocorticoids impair neuronal proliferation and differentiation in the hippocampal dentate gyrus. In the present study proliferation and neuronal differentiation in the dentate gyrus were studied in newborn common marmoset monkeys which were intrauterinely exposed to the synthetic glucocorticoid dexamethasone (DEX). Pregnant marmoset monkeys received DEX (5 mg/kg body weight) daily either during early (days 42-48) or late (days 90-96) pregnancy. In the hippocampi of newborn monkeys immunohistochemistry was performed with markers of proliferation (Ki-67), apoptosis (in situ tailing) as well as early and late neuronal differentiation (calretinin and calbindin). Both after early and late intrauterine exposure to DEX, proliferation of dentate gyrus cells was significantly decreased (P < 0.05). The density of apoptotic neurons was not altered by DEX treatment. Quantification of calretinin- and calbindin-immunoreactive neurons showed no significant differences between DEX-exposed and control animals. In conclusion, the proliferation of putative precursor cells but not the differentiation into mature cells was impaired in the dentate gyrus of newborn marmosets exposed intrauterinely to DEX.