Hemifacial spasm due to a large distant ipsilateral posterior fossa meningioma.

A rare case of hemifacial spasm due to an ipsilateral foramen magnum/clival meningioma is described. Magnetic resonance imaging demonstrated that the tumor was located distant to the cranial nerve VII/VIII complex. Resolution of the ipsilateral hemifacial spasm was noted after complete resection of the tumor. The mechanism of hemifacial spasm was likely due to displacement and distortion of the brain stem from the lesion distant to the cranial nerve VII/VIII complex. In our review of the literature this is the first reported case of an ipsilateral posterior fossa meningioma causing hemifacial spasm from indirect mass effect.

Neonatal hydrocephalus. Mechanisms and consequences.

Although hydrocephalus is a multifactorial disorder, the processes responsible for neurologic impairment can be classified into primary and secondary mechanisms. Primary mechanisms include mechanical compression and stretching of brain parenchyma, ischemia and anoxia, cerebral edema, and blood brain barrier dysfunction. These processes lead to secondary mechanisms, which include cytologic and cytoarchitectural alterations of neurons, reduced size and numbers of cerebral microvessels, axonal degeneration and demyelination, and so on. Shunting studies suggest that neuronal cell death may not play a major role until severe stages of hydrocephalus and that some impairments in connectivity can be reversed. Relatively early shunting may alleviate many of the pathologic features of hydrocephalus, but residual impairments in neurotransmitter levels and dependence on anaerobic respiration leave the treated hydrocephalic brain vulnerable to subsequent insults.

Differential ventricular expansion in hydrocephalus.

In the large canine model of acquired obstructive hydrocephalus that we have developed recently, computer-assisted 3-dimensional morphometry has been performed on T1-weighted Spin Echo MRI images from adult dogs before and after the induction of hydrocephalus. To date, 7 hydrocephalic animals have been analyzed that survived 7-83 days (median = 54) after receiving injections of cyanoacrylate glue into the anterior fourth ventricle. Measurements were obtained from lateral, 3rd, and 4th ventricles. The volumes of the left and right lateral ventricles were symmetrical before and after induction. Mean lateral ventricle volume increased 424% from a baseline of 0.63 cc to a post-induction value of 3.30 cc (p < 0.01 with unpaired t-test). In contrast, the 3rd ventricle expanded 187% from a mean of 0.15 cc to 0.43 cc (p < 0.05). The combined volume of the lateral and 3rd ventricles increased 369% from a mean of 0.78 cc to 3.69 cc (p < 0.01). Evans' ratios, which are used routinely in the clinical setting, were also obtained from linear measurements of the lateral ventricle width divided by brain width at the level of the foramen of Monro. These values exhibited only a 94% increase from mean baseline ratios of 0.17 to post-induction ratios of 0.33 (p < 0.05). These findings indicate that in mechanically-induced obstructive hydrocephalus the relative expansion of the lateral ventricles is greater than that of the 3rd ventricle. In addition, volumetric measurements of the lateral and 3rd ventricles suggest that the extent of ventriculomegaly is 3-4 times greater than estimated by Evans' ratios.