MEDULLA OBLONGATA INTERNAL FEATURES CAUDAL MEDULLA At the

MEDULLA OBLONGATA INTERNAL FEATURES

CAUDAL MEDULLA

At the transition from spinal cord to medulla, The is replaced bymatter the caudal part the dorsal patternhorn of grey and white ofundergoes the trigeminal sensoryrearrangement. nucleus (nucleus considerable of theventral spinal horn tract becomes of the trigeminal nerve). The much attenuated Dr. Vohra

TRIGEMINAL SENSORY NUCLEUS • • • Dr. Vohra The trigeminal sensory nucleus is regarded as the brain stem homologue of the dorsal horn since it receives primary afferent fibres conveying general sensation from the head, which enter the brain stem in the trigeminal nerve. It is a large nucleus that extends the whole length of the brain stem and into the upper segments of the spinal cord. This latter, caudal part of the trigeminal nucleus is particularly associated with the modalities of pain and temperature.

SPINAL TRACT OF THE TRIGEMINAL • • Dr. Vohra The trigeminal nerve attaches to the pons. Fibres that terminate in the parts of the trigeminal nucleus caudal to this level descend in a tract (the spinal tract of the trigeminal) which lies immediately superficial to the nucleus.

DECUSSATION OF PYRAMIDS In the ventral medulla, the majority of fibres of the pyramid undergo decussation then pass laterally, dorsally and caudally to form the lateral corticospinal tract. Decuss- = crossing Dr. Vohra

MID MEDULLA

VENTRAL SURFACE On the ventral surface of the mid medulla the pyramids are prominent, above their decussation. Dr. Vohra

DORSAL SURFACE On the dorsal surface, the dorsal columns reach their termination in the gracile and cuneate nuclei which appear beneath their respective tracts. • The dorsal columns consist of first-order sensory neurones; the cell bodies of these neurones lie in the dorsal root ganglia of spinal nerves and have central processes that ascended ipsilaterally through the cord and into the medulla. • They terminate in the nucleus gracilis and upon the cell bodies of second order Dr. cuneatus Vohra neurones.

MEDIAL LEMNISCUS lemniscus = ribbon • • The axons of these neurones course ventrally and medially as internal arcuate fibres, decussating in the midline. There after, they turnrostrally forming a distinct tract, the medial lemniscus, that runs through the rostral medulla, the pons and Dr. Vohra midbrain to terminate in the ventral posterior nucleus of the thalamus.

ROSTRAL MEDULLA

VENTRAL SURFACE • Dorsolateral to the pyramid and lateral to the medial lemniscus is the inferior olivary nucleus, lying within the prominence of the olive. • • Dr. Vohra On the ventral surface of the medulla, the pyramids remain conspicuous. Immediately dorsal to the medial aspect of the pyramid lies the medial lemniscus, on either side of the midline.

INFERIOR OLIVARY NUCLEUS • • Dr. Vohra The inferior olivary nucleus has the appearance of a crenated bag with an opening, or hilum, facing medially and through which afferent and efferent fibres pass. It is concerned with the control of movement and receives afferents from the motor and sensory cortices of the cerebral hemisphere and from the red nucleus of the midbrain.

INFERIOR OLIVARY NUCLEUS • Its main efferent connection is to the cerebellum via the inferior cerebellar peduncle. • Within the cerebellum its axons, known as climbing fibres, end in excitatory synapses in the dentate nucleus and upon Purkinje cells of the cerebellar cortex. Dr. Vohra

Dorsal to the inferior olivary nucleus and lateral to the medial lemniscus lie second order sensory fibres ascending to the ventral posterior thalamus. Dr. Vohra They come from the trigeminal nucleus (the trigeminothalamic tract) and from the spinal cord (spinothalamic fibres, referred to in the brain stem as the spinal lemniscus).

HYPOGLOSSAL NUCLEUS • • Dr. Vohra The dorsal surface of the rostral medulla forms part of the floor of the fourth ventricle. Both immediately and deep beneath the floor of the ventricle lie a number of cranial nerve nuclei, some of which can be clearly identified in simply stained sections, others of which cannot. Immediately beneath the ventricular floor, just lateral to the midline, lies the hypoglossal nucleus, which contains motor neurones innervating the muscles of the tongue via the hypoglossal nerve.

VAGAL NUCLEUS • • • Dr. Vohra Lateral to the hypoglossal nucleus lies the dorsal (motor) nucleus of the vagus, containing preganglionic parasympathetic neurones that run in the vagus nerve. The most caudal aspect of the ventricular floor is known as the area postrema. At this point the blood brain barrier which limits the passage of certain chemicals from the blood to the brain, is absent. This region is the central site of action of substances that cause vomiting (emetics). In the lateral part of the floor of the fourth ventricle are located the vestibular nuclei, which receive primary afferent fibres from the vestibular nerve.

MEDIAL LONGITUDINAL FASCICULUS • • • Dr. Vohra Ventromedial to the hypoglossal nucleus, close to the midline, is located the medial longitudinal fasciculus. This consists of both ascending and descending fibres and can be identified also in the pons and mid brain. Within the brain stem, it links the vestibular nuclei with the nuclei supplying the extraocular muscles (abducens, trochlear and oculomotor nuclei) and subserves the coordination of head and eye movements.

RESTIFORM BODY • • Dr. Vohra The dorsolateral part of the rostral medulla is dominated by the inferior cerebellar peduncle, or restiform body. This consists of fibres passing between the medulla and the cerebellum. Prominent amongst these are olivocerebellar fibres, connections between the vestibular nuclei and the cerebellum, and the fibres of the dorsal spinocerebellar tract, conveying proprioceptive information from the limbs.

COCHLEAR AND AMBIGUUS NUCLEI • • • Dr. Vohra On the dorsal and lateral aspects of the inferior cerebellar peduncle lie the dorsal and ventral cochlear nuclei, which receive afferent information from the cochlear nerve. Deep beneath the ventricular floor, just dorsal to the inferior olivary nucleus, is located the nucleus ambiguus. This sends motor fibers into the glossopharyngeal, vagus and accessory nerves and, thence, to the muscles of the pharynx and larynx.

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