Brainstem Overview

Sections

Summary
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Summary

major nuclear groups

• Supplementary motor nuclei (eg, the substantia nigra, pontine nuclei, and inferior olive).
• Cranial nerve nuclei

major tracts

• Major motor tracts (eg, corticospinal tract)
• Major sensory tracts (eg, medial lemniscus)
• Supplementary tracts (eg, rubrospinal tract)

Key brainstem features

Midbrain

See: Midbrain

• Posteriorly, the posterior commissure, which is a white matter tract involved in the pupillary light reflex, and the paired colliculi (superior and inferior):
  • The superior colliculi are involved in visual function; the inferior colliculi are involved in auditory function.
• Anteriorly, the cerebral peduncles, which carry descending motor tracts.
  • The anterior location of the cerebral peduncles helps us remember that throughout the brainstem, major motor tracts localize anteriorly (whereas sensory pathways mostly localize posteriorly).

Major Midbrain Syndromes:

• Benedikt's Syndrome
• Claude's Syndrome
• Weber's Syndrome

Pons

See: Pons

• Pontine basis notably houses large pontine nuclei and pontocerebellar fibers, which help modulate movement.

Major Pontine Syndromes:

• Locked-In Syndrome
• Dysarthria Clumsy-Hand

Medulla

See: Medullary pyramids

• Carry descending motor fibers into the spinal cord.

Major Medullary Syndromes:

• Wallenberg's Syndrome
• Dejerine's Syndrome

Key regional anatomy

• Posteriorly - the cerebellum the major balance center.
• Superiorly - the thalamus the sensory relay center, and the hypothalamus, the central autonomic nervous system command center.
• Laterally - the temporal lobe can compress the midbrain during brain herniation.

General construct

• The following is a general construct for 5 of the major groups of nuclei and tracts to help remember their general positions.

From anterior to posterior:

Major Motor Tracts

• Corticobulbar tracts
  • which innervate the cranial nerves
• Corticospinal tracts
  • which innervate the spinal motor neurons

Supplementary Motor Nuclei

• Red nuclei,
• Substantia nigra,
• Pontine nuclei
• Inferior olivary nuclei

We'll learn these in detail elsewhere.

Major Sensory Tracts

• Medial lemniscus and spinothalamic tracts (from the body),
• Trigeminothalamic tract (from the face)

Supplementary Tracts

• Central tegmental, rubrospinal, and reticulospinal tracts (which we'll learn these in detail elsewhere).

Cranial Nerve Nuclei

• CNs 3 through 12 lie in the brainstem (11 lies in the cervical spinal cord).

Anterior/Posterior regions

Basis

• Descending white matter tracts and certain supplementary motor nuclei.

Tegmentum

• Majority of remaining nuclei and tracts

Tectum

• Roof of the brainstem; it's only functionally relevant in the midbrain.
• Definition of tectum:
  • In the midbrain, the tectum is the quadrigeminal plate, whereas in the pons and medulla, by at least one commonly held definition, the tectum is limited to the nonfunctioning medullary velum.
  • Note, however, that select authors include the superior cerebellar peduncles as part of the pontine tectum, as well.

functional groups

Tracts

From anterior to posterior:

• Major motor tracts
• Major sensory tracts
• Supplementary tracts

Nuclei

• Supplementary motor nuclei
• Cranial nerve nuclei (posterior tegmentum)
• Neurobehavioral cells (interspersed in the tegmentum):
  • periaqueductal gray area, locus coeruleus in the pons, and the raphe nuclei.
• Reticular formation (throughout the tegmentum)
  • this histologically indistinct area comprises highly specific nuclei and tracts.
• Major sensory nuclei (the gracile and cuneate nuclei):
  • lie only within the medulla.

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Overview

• Here, we will generate an overview of the brainstem, which we can apply to its specific levels.
  • If we learn the basic layout of the 5 major nuclei and tracts, we'll be able to learn the details of the different brainstem levels, later, much easier.
• To begin start a table to list the major nuclear and tract groupings of the brainstem.

Major Nuclear Groups

Let's list 2 major nuclear groups in the brainstem from anterior to posterior:

• Supplementary motor nuclei (eg, the substantia nigra, pontine nuclei, and inferior olive).
• Cranial nerve nuclei.

Major Tracts

The three major tracts from anterior to posterior:

• Major motor tracts (eg, corticospinal tract)
• Major sensory tracts (eg, medial lemniscus)
• Supplementary tracts (eg, rubrospinal tract)

Anatomical Context

To begin, let's put the brainstem in within its general anatomic context.

• Start a mid-sagittal section.
• Label the anterior/posterior and superior/inferior orientational planes.
• Now, draw the brainstem from superior to inferior:
  • The midbrain.
  • Pons.
  • And medulla.
• Then, include the cervical spinal cord.

Now, let's walk through these levels and point out some key features

Midbrain

In the midbrain,

Posteriorly

• Posteriorly, draw the posterior commissure, which is a white matter tract involved in the pupillary light reflex.
• Then, draw the paired colliculi (superior and inferior): the superior are involved in visual function; the inferior colliculi are involved in auditory function.

Anteriorly

• Anteriorly, draw a cerebral peduncle, which carry descending motor tracts.
  • The anterior location of the cerebral peduncles helps us remember that throughout the brainstem, major motor tracts localize anteriorly (whereas sensory pathways mostly localize posteriorly).

pons

Pontine Basis

• Now, in the pons, label the pontine basis, which notably houses large pontine nuclei and pontocerebellar fibers, which help modulate movement.

Medulla

• In the medulla, label the medullar pyramids, which carry descending motor fibers into the spinal cord.

CSF

• Next, shade the CSF flow that tracts through the posterior aspect of the brainstem.
• In the midbrain, label the cerebral aqueduct (of Sylvius).
• In the pons and medulla, label the 4th ventricle.

Outside of the Brainstem

Surrounding the brainstem:

• Posteriorly draw the cerebellum, the major balance center.
• Superiorly, draw the thalamus, the sensory relay center.
• Then, draw the hypothalamus, the central autonomic nervous system command center.
• From anterior to posterior, specify the pituitary body, a key hormone center; one of the paired mammillary bodies, involved in memory, and the pineal gland, the site of melatonin production and release, which helps settle us into sleep.
• Now, laterally, draw the temporal lobe, which can compress the midbrain during brain herniation.

General Construct

• Now, let's create a general construct for 5 of the major groups of nuclei and tracts and show where the typically lie from anterior to posterior. As we go, keep a table of these categories and specify key examples of them.

From anterior to posterior, along the brainstem, lie the:

Major motor tracts

• the corticobulbar tracts (which innervate the cranial nerves, corticospinal tracts (which innervate the spinal motor neurons)

Supplementary motor nuclei

• red nuclei, substantia nigra pontine nuclei, inferior olivary nuclei – we'll learn these in detail elsewhere.

Major sensory tracts

• Medial lemniscus and spinothalamic tracts (from the body), trigeminothalamic tract (from the face)

Supplementary tracts:

• Central tegmental, rubrospinal, and reticulospinal tracts (which we'll learn these in detail elsewhere).

Cranial nerve nuclei

• Cranial nerve nuclei 3 through 12 (11 lies in the cervical spinal cord).

Axial Composite

• Now, let's switch gears and draw an axial composite of the brainstem: a consolidation of the different brainstem levels into a single general organizational pattern.
• Let's use the radiographic (ie, MRI and CT) perspective, since it's what's used clinically to evaluate patients.
• Show the anterior/posterior orientational plane.
• Then, draw an ovoid outline of the brainstem.
• Label the cerebrospinal fluid (CSF) space.
• Divide the brainstem in two halves: one for the Nuclei, the other for the Tracts.
• Now, separate the brainstem from anterior to posterior into its basis, tegmentum, and tectum.

Basis

Based on our prior diagram, try to guess what the basis comprises:

• Descending white matter tracts and certain supplementary motor nuclei.

Tegmentum

And the tegmentum?

• The rest.

Tectum

• The tectum is the roof of the brainstem; it's only functionally relevant in the midbrain.
  • In the midbrain, the tectum is the quadrigeminal plate, whereas in the pons and medulla, by at least one commonly held definition, the tectum is limited to the nonfunctioning medullary velum.
  • Note, however, that select authors include the superior cerebellar peduncles as part of the pontine tectum, as well.

Functional Groups

Now, let's label the functional groups from anterior to posterior.

• On the tracts side, add a cerebral peduncle (of the midbrain), and label the major motor tracts.
• Then, the major sensory tracts.
• Followed by the supplementary tracts.
• Include the cerebellar peduncles off the posterolateral aspect of the brainstem.
• On the nuclei side, label the supplementary motor nuclei.
• Then, in the posterior tegmentum, label the cranial nerve nuclei.
• Next, interspersed in the tegmentum, label the neurobehavioral cells, which include the periaqueductal gray area, locus coeruleus in the pons, and the raphe nuclei; they have diffuse behavioral functions.
• Next, label the broad reticular formation across the tegmentum: this histologically indistinct area comprises highly specific nuclei and tracts.
• Lastly, in the very posterior midbrain label the major sensory nuclei (the gracile and cuneate nuclei), which lie only within the medulla.