inferior cerebellar peduncle , auch: inferior cerebellar pedunculus

The damage to the cerebellum or the inferior cerebellar peduncle can cause ataxia.

This tract passes through the inferior cerebellar peduncle and synapses within the spinocerebellum (also known as the paleocerebellum).

The fossa is bounded on either side by the inferior cerebellar peduncle, which connects the medulla to the cerebellum.

The axons of the third-order neurons cross the midline and enter the cerebellum through the inferior cerebellar peduncle.

The lateral recess is a projection of the fourth ventricle which extends into the inferior cerebellar peduncle of the brainstem.

The secondary neuronal axons continue to ascend ipsilaterally and then pass into the cerebellum via the inferior cerebellar peduncle.

These neurons then send axons up the spinal cord, and project ipsilaterally to medial zones of the cerebellum through the inferior cerebellar peduncle.

The neurons in the accessory cuneate nucleus have axons leading to the ipsilateral cerebellum via the inferior cerebellar peduncle.

It receives afferent input from the vermis, and efferents travel via the inferior cerebellar peduncle to the vestibular nuclei.

Their axons leave medially through the hilum, cross the midline, and ascend into the cerebellum via the inferior cerebellar peduncle.

The juxtarestiform body is a subdivision of the inferior cerebellar peduncle, which comprises both the juxtarestiform and restiform bodies.

Important fibers running through the inferior cerebellar peduncle include the spinocerebellar tract and axons from the inferior olivary nucleus, among others.

The secondary axons pass into the cerebellum via the inferior cerebellar peduncle where again, these axons synapse on cerebellar deep nuclei.

The inferior olivary nucleus sends its afferents via climbing fibers in the inferior cerebellar peduncle to Purkinje cells of the contralateral cerebellar cortex.

These axons pass through the pons and enter the cerebellum via the inferior cerebellar peduncle where they form synapses with the deep cerebellar nuclei and Purkinje cells.

Most of its efferent connections travel via the inferior cerebellar peduncle to the vestibular nuclei, which is located at the junction of the pons and the medulla oblongata.

The Rostral Tract synapses at the dorsal horn lamina (intermediate gray zone) of the spinal cord and ascends ipsilaterally to the cerebellum through the inferior cerebellar peduncle.

The mass began at the brainstem, extended along the inferior cerebellar peduncle to roof areas against the ventricles through the nodule of vermis, easily detected against normal grey matter surrounding it.

They receive fibers from the corticospinal tract and send their axons through the anterior external arcuate fibers and striae medullares to the cerebellum via the inferior cerebellar peduncle.

Fibers leaving the nucleus ambiguus travel anteriorly and laterally to exit the medulla, along with the other components of CN IX, between the olive and the inferior cerebellar peduncle.

The inferior cerebellar peduncle carries many types of input and output fibers that are mainly concerned with integrating proprioceptive sensory input with motor vestibular functions such as balance and posture maintenance.

The fibers continue to course through the medulla oblongata and the pons of the midbrain, at which point they pass through the inferior cerebellar peduncle and into the cerebellum, where unconscious proprioceptive information is processed.

The central processes of these neurons exit the inferior ganglion and pass through the jugular foramen to enter the brainstem at the level of the rostral medulla between the olive and inferior cerebellar peduncle.

Once inside the skull, the visceral sensory fibers enter the lateral medulla between the olive and the inferior cerebellar peduncle and descend in the tractus solitarius to synapse in the caudal nucleus solitarius.

All fibers (except vestibular fibers to the vestibular nuclei through the inferior cerebellar peduncle) carrying information from the spinal cord to the cerebellum (Ventral Spinocerebellar Tract) pass through the superior cerebellar peduncle.