Cerebrum - Neuroanatomy Transcription

CHAPTER 7

SUBDIVISIONS OF THE CEREBRUM

Cerebrum        – largest part of the brain

-          Situated in the anterior and middle cranial fossae of the skull, occupying its whole cavity

-          May be divided into two parts:

o   Diencephalon – forms central core

o   Telencephalon – forms cerebral hemispheres

DIENCEPHALONS

-          Consists of the third ventricle and its boundaries

-          Extends posteriorly where third ventricle is continuous with the cerebral aqueduct, and anteriorly as far as the interventricular foramina

-          Midline structure with symmetrical right and left halves

Gross Features

Inferior surface

-          Only area exposed to the surface in the intact brain

-          Formed by the hypothalamic and other structures, including (from anterior to posterior):         

o   Optic chiasma – with optic tract on either side

o   Infundibulum – with tuber cinereum

o   Mammillary bodies

Superior surface

-          Concealed by the fornix

o   Fornix – thick bundle of fibers that originates in the hippocampus of the temporal lobe and arches posteriorly over the thalamus to join the mammillary body

-          Actual superior wall is formed by the roof of the third ventricle

o   Consists of ependyma

o   Covered superiorly by a vascular fold of pia mater, called tela choroidea of the third ventricle

-          From the roof of the third ventricle a pair of vascular processes, the choroid plexuses of the third ventricle, project downward from the midline cavity of the third ventricle

Lateral Surface

-          Bounded by the internal capsule of white matter

-          Consists of nerve fibers that connect the cerebral cortex with other parts of the brainstem and spinal cord

Medial Surface

-          Since the diencephalons is divided into symmetrical halves by the slitlike third ventricle, it also has a medial surface

-          Formed in its superior part by the medial surface of the thalamus and in its inferior part by the hypothalamus 

-          These two areas are separated from one another by a shallow sulcus, the hypothalamic sulcus

-          Stria medullaris thalami

o   Bundle of nerve fibers

o   Afferent fibers to the habenular nucleus

o   Forms a ridge along the superior margin of the medial surface of the diencephalons

The diencephalons can be divided into four parts:

1. Thalamus
2. Subthalamus
3. Epithalamus
4. hypothalamus

Thalamus

-          Large ovoid mass of gray matter that forms the major part of the diencephalon

-          It is a region of great functional importance

-          Serves as a cell station to all the main sensory systems (except the olfactory pathways)

-          Situated on each side of the third ventricle

Anterior end of thalamus

-          Narrow and rounded

-          Forms the posterior boundary of the interventricular foramen

Posterior end of thalamus

-          Expanded to form the pulvinar, which overhangs the superior colliclus and the superior brachium

-          Lateral Geniculate Body  

o   Forms a small elevation on the under aspect of the lateral portion of the pulvinar

Superior surface of the thalamus

-          Covered medially by the tela choroidea and the fornix

-          Laterally covered  by the ependyma and forms part of the floor of the lateral ventricle,

-          Lateral part is hidden by the choroids plexus of the lateral ventricle

Inferior surface

-          Continuous with the tegmentum of the midbrain

Medial surface of the thalamus

-          Forms the superior part of the lateral wall of the third ventricle

-          Usually connected to the opposite thalamus by a band of gray matter, the interthalamic connection (interthalamic adhesion)

Lateral surface of the thalamus

-          Separated from the lentiform nucleus by the very important band of white matter called, internal capsule

• The thalamus
• Very important cell station
• Receives the main sensory tracts 9excpet olfactory pathway)
• Station where much of the information is integrated and relayed to the cerebral cortex and many other subcortical regions
• Key role in the integration of visceral and somatic functions

Subthalamus

-          Lies inferior to the thalamus

-          Situated between the thalamus and tegmentum of the midbrain

-          Craniomedially, it is related to hypothalamus

-          Complex structure

-          Among the collection of nerve cells found in the subthalamus are the:

o   Cranial ends of the red nuclei and the substantia nigra

-          Shape of a biconvex lens

-          Nucleus connected with the corpus striatum and involved in the control of muscle activity

-          Contains many important tracts that pass up from the tegmentum to the thalamic nuclei. Ex. Cranial ends of the medial, spinal, and trigeminal lemnisci

Epithalamus

-          Consists of :

o   Habenular nuclei and their connections

o   Pineal gland

Habenular nucleus

-          Small group of neurons situated just medial to the posterior surface of the thalamus

-          Afferent fibers received from the amygdaloid nucleus in the temporal lobe through stria medullaris thalami

-          Other fibers pass from hippocampal formation through the fornix

-          Some reach habenular nucleus of opposite side forming habenular commissure

-          Axons pass to the interpeduncular nucleus in the roof of the interpeduncular fossa, tetcum of midbrain, thalamus and reticular formation of midbrain

-          Center for integration of olfactory, visceral and somatic afferent pathways

PINEAL GLAND (BODY)

-          small, conical, structure attached to pineal stalk to the diencephalons

-          projects backward so that it lies to the midbrain

-          the base possesses a recess continuous with the cavity of the third ventricle

-          superior part of the base of the stalk contains habenular commissure

-          inferior part contains posterior commissure

-          seen to be incompletely divided into lobules by connective tissue septa extending into the substance of the gland from the capsule

-          2 types of cells found in the gland:

o   pinealocytes

o   glial cells

-          brain sands- concretions of calcified material progressively accumulating within the pineal gland with age

-          no nerve cells

-          adrenergic sympathetic fibers derived from the superior cervical sympathetic ganglia enter the gland and run in association with the blood vessels and pinealocytes

-          influence activities of pituitary gland, islets of langerhans of pancreas, parathyroids, adrenals, and gonads

Functions of pineal gland

-          pineal secretions actions are mainly inhibitory and either directly inhibit production of hormones or indirectly inhibit secretion of releasing factors by hypothalamus

-          Pineal gland DOES NOT POSSESS A BBB

-          Pineal activity exhibits a circadian rhythm influenced by light

-          Gland has been found to be most active during darkness

-          Probable nervous pathway from the retina

o   1^st: runs to suprachiasmatic nucleus of hypothalamus

o   2^nd tegmentum of midbrain

o   3^rd pineal gland to stimulate its secretions

§  may include reticulospinal tract, sympathetic outflow of thoracic part of spinal cord, superior cervical sympathetic ganglion and postganglionic nerve fibers that travel to pineal gland and blood vessels

-          Melatonin and enzymes present in high concentrations

o   Released into blood and CSF of third ventricle and pass to anterior lobe of pit. Gland and inhibit release of gonadotrophic hormone

o   In humans: Plasma melatonin level rises in darkness and falls during the day

-          Regulation of reproductive function

HYPOTHALAMUS

-          Part of the diencephalons that extends from the region of the optic chiasma to the caudal border of the mammillary bodies

-          Lies below the hypothalamic sulcus on the lateral wall of the third ventricle

-          Strategically well placed close to the limbic system, the thalamus, the ascending and descending tracts, and the hypophysis

-          Microscopically, the hypothalamus is composed of small nerve cells arranged in groups or nuclei

-          Physiologically, there is hardly any activity in the body that is not influenced by the hypothalamus

-          Controls and integrates the functions of the ANS and ES and plays vital role in body homeostasis

-          Involved in such activities as regulation of body temperature, body fluids, dives to eat and drink , sexual behavior, and emotion

Relations of the hypothalamus

-          Anterior to hypothalamus is an area that extends forward from the optic chiasma to the lamina terminalis and anterior commissure, referred tp as the preoptic area

-          Caudally, it merges into the tegmentum of the midbrain

-          Superior to the hypothalamus lies the thalamus and inferolaterally is the subthalamic region

-          When seen from below it is related to the following structures, from anterior to posteriot:

o   Optic chiasma

o   Tuber cinereum

o   Infundibulum

o   Mammillary bodies

OPTIC CHIASMA

-          Flattened bundle of nerve fibers situated at the junction of the anterior wall and floor of the third ventricle

-          Superior surface attached to lamina terminalis

-          Inferiorly related to hypophysis cerebri, from which it is separated by the diaphragma sellae

-          Anterolateral corners of chiasma are continuous with optic nerves and posterolateral corners with optic tracts

-          Optic recess of the third ventricle, a small recess lies on its superior surface

-          Fibers originating from the nasal half of each retina cross the median plane at the chiasma to enter the optic tract of the opposite side

TUBER CINEREUM

-          convex mass of gray matter

-          continuous inferiorly with the infundibulum

-          Infundibulum

o   hollow and continuous with the posterior lobe of the hypophysis cerebri

-          Median eminence

o   Raised part of the tuber cinereum to which is attached the infundibulum

o   Neurohypophysis is formed by:

§  Median eminence

§  Imfundibulum

§  Posterior lobe (pars nervosa) of hypophysis cerebri

MAMMILLARY BODIES

-          2 small hemispherical bodies situated side by side posterior to the cinereum

-          possess a central gray core of gray matter invested by a capsule of myelinated nerve fibers

-          Posterior to mammillary bodies lies an area of the brain that is pierced by a number of small apertures and is called posterior perforated substance --- transmit the central branches of the posterior cerebral arteries

THIRD VENTRICLE

-          derived from the forebrain vesicle

-          slit-like cleft between the two thalami

-          communicates anteriorly with the lateral ventricles through the interventricular foramina (foramina of Monro) posteriorly with the fourth ventricle through cerebral aqueduct

-          has anterior, posterior, lateral, superior, and inferior walls and lined with ependyma

Anterior wall

-          Formed by a thin sheet of gray matter, lamina terminalis, across which runs the anterior commissure

-          Anterior commisure

o   Round bundle of nerve fibers situated anterior to the anterior columns of the fornix ---they connect the right and left temporal lobes

Posterior wall

-          Formed by the opening into the cerebral aqueduct

-          Superior to this opening is the small posterior commissure

-          Superior to the commissure is the pineal recess—which projects into the stalk of the pineal body

-          Superior to the pineal recess is the small habenular commissure

Lateral wall

-          Formed by the medial surface of the thalamus superiorly and the hypothalamus inferiorly

-          These two structures are separated by the hypothalamic sulcus

-          Lateral wall is limited superiorly by the stria medullaris thalami

-          Joined by the interthalamic connection

Superior wall or roof

-          Formed by the a layer of ependyma that is continuous with the lining of ventricle

-          Superior is a two-layered fold of pia mater called tela choroidea of the third ventricle

-          Vascular tela choroidea projects projects downward on each side of the midline, invaginating the ependymal roof to form the choroids plexuses of the third ventricle

o   Within tela choroidea lie the internal cerebral veins

-          Superiorly the roof of the ventricle is relatd to the fornix and the corpus callosum

Inferior wall or roof

-          formed by the optic chiasma, tuber cinereum, infundibulum, with its funnel-shaped recess, and the mammillary bodies

-          Hypophysis is attached to the infundibulum

-          Posterior to these structures lies the tegmentum of the cerebral peduncles

GENERAL APPEARANCE OF THE CEREBRAL HEMISPHERES

 Cerebral Hemispheres

-          largest part of the brain

-          Separated by a deep midline sagittal fissure, the longitudinal cerebral fissure

o   The fissure contains the sickle shaped fold of dura mater, the falx cerebri and the anterior cerebral arteries

-          Corpus Callosum

o   Connects the hemispheres across the midline

-          Tentorium Cerebelli

o   Second horizontal fold of dura mater

o   separates the cerebral hemispheres from the cerebellum

-          Folds or gyri

o   Increase surface area of the cerebral cortex maximally

o   Where the surface of each cerebral hemisphere is thrown

o   Separated from each other by sulci or fissures

-          Lobes

o   Named accdng to the cranial bones under which they lie

-          Boundaries used for the division of the cerebral hemisphere into frontal, parietal, temporal, and occipital lobes:

o   Central and Parieto-occipital sulci

o   Lateral and calcarine sulci

MAIN SULCI

Central Sulcus

-          of great importance because gyrus that lies anterior to it contains motor cells that initiate movements of the opposite side of the body

-          Posterior to it lies general sensory cortex that receives sensory information from the opposite side of the body

-          Indents the superior medial border of the hemisphere about 0.4 inch (1 cm) behind the midpoint

-          Runs downward and forward across lateral aspect of the hemisphere, and its lower end is separated from the posterior ramus of the lateral sulcus by a narrow bridge of cortex

-          Only sulcus of any length on this surface of the hemisphere that indents superomedial border and lies between two parallel gyri

Lateral Sulcus

-          Deep cleft found mainly on the inferior and lateral surfaces of the cerebral hemisphere

-          It consists of a short stem that divides into three rami

-          The stem arises in the inferior surface and on reaching the lateral surface divides into:

o   Anterior horizontal ramus

o   Anterior ascending ramus

o   And continues as the posterior ramus

-          Insula

o   An area in cortex that lies at the bottom of the deep lateral sulcus

o   Cannot be seen from the surface unless the lips of the sulcus are separated

Parieto-Occipital Sulcus

-          Begins on superior medial margin of the hemisphere about 2 inches (5 cm) anterior to occipital pole

-          Passes downward and anteriorly on the medial surface to meet the calcarine sulcus

Calcarine sulcus

-          Found on the medial surface of the hemisphere

-          Commences under the posterior end of the corpus callosum

-          Arches upward and backward to reach the occipital lobe, where it stops

-          In some brains, however it continues for a short distance onto the lateral surface of the hemisphere

-          Joined at an acute angle by the parieto occipital sulcus about halfway along its length