- •Preface
- •Contents
- •1 Elements of the Nervous System
- •2 Somatosensory System
- •3 Motor System
- •4 Brainstem
- •5 Cerebellum
- •6 Diencephalon and Autonomic Nervous System
- •7 Limbic System
- •8 Basal Ganglia
- •9 Cerebrum
- •10 Coverings of the Brain and Spinal Cord; Cerebrospinal Fluid and Ventricular System
- •Further Reading
- •Index
- •Abbreviations
- •1 Elements of the Nervous System
- •Elements of the Nervous System
- •Information Flow in the Nervous System
- •Synapses
- •Neurotransmitters and Receptors
- •Functional Groups of Neurons
- •Glial Cells
- •Development of the Nervous System
- •2 Somatosensory System
- •Peripheral Nerve, Dorsal Root Ganglion, Posterior Root
- •Peripheral Regulatory Circuits
- •Central Components of the Somatosensory System
- •Posterior and Anterior Spinocerebellar Tracts
- •Posterior Columns
- •Anterior Spinothalamic Tract
- •Lateral Spinothalamic Tract
- •Other Afferent Tracts of the Spinal Cord
- •Central Processing of Somatosensory Information
- •Somatosensory Deficits due to Lesions at Specific Sites along the Somatosensory Pathways
- •3 Motor System
- •Central Components of the Motor System and Clinical Syndromes of Lesions Affecting Them
- •Motor Cortical Areas
- •Corticospinal Tract (Pyramidal Tract)
- •Corticonuclear (Corticobulbar) Tract
- •Other Central Components of the Motor System
- •Lesions of Central Motor Pathways
- •Peripheral Components of the Motor System and Clinical Syndromes of Lesions Affecting Them
- •Clinical Syndromes of Motor Unit Lesions
- •Complex Clinical Syndromes due to Lesions of Specific Components of the Nervous System
- •Spinal Cord Syndromes
- •Vascular Spinal Cord Syndromes
- •Nerve Root Syndromes (Radicular Syndromes)
- •Plexus Syndromes
- •Peripheral Nerve Syndromes
- •Syndromes of the Neuromuscular Junction and Muscle
- •4 Brainstem
- •Surface Anatomy of the Brainstem
- •Medulla
- •Pons
- •Midbrain
- •Olfactory System (CN I)
- •Visual System (CN II)
- •Eye Movements (CN III, IV, and VI)
- •Trigeminal Nerve (CN V)
- •Facial Nerve (CN VII) and Nervus Intermedius
- •Vagal System (CN IX, X, and the Cranial Portion of XI)
- •Hypoglossal Nerve (CN XII)
- •Topographical Anatomy of the Brainstem
- •Internal Structure of the Brainstem
- •5 Cerebellum
- •Surface Anatomy
- •Internal Structure
- •Cerebellar Cortex
- •Cerebellar Nuclei
- •Connections of the Cerebellum with Other Parts of the Nervous System
- •Cerebellar Function and Cerebellar Syndromes
- •Vestibulocerebellum
- •Spinocerebellum
- •Cerebrocerebellum
- •Cerebellar Tumors
- •6 Diencephalon and Autonomic Nervous System
- •Location and Components of the Diencephalon
- •Functions of the Thalamus
- •Syndromes of Thalamic Lesions
- •Thalamic Vascular Syndromes
- •Epithalamus
- •Subthalamus
- •Hypothalamic Nuclei
- •Afferent and Efferent Projections of the Hypothalamus
- •Functions of the Hypothalamus
- •Sympathetic Nervous System
- •Parasympathetic Nervous System
- •Visceral and Referred Pain
- •7 Limbic System
- •Anatomical Overview
- •Internal and External Connections
- •Microanatomy of the Hippocampal Formation
- •Amygdala
- •Functions of the Limbic System
- •Types of Memory
- •8 Basal Ganglia
- •Preliminary Remarks on Terminology
- •The Role of the Basal Ganglia in the Motor System: Phylogenetic Aspects
- •Connections of the Basal Ganglia
- •Function and Dysfunction of the Basal Ganglia
- •Clinical Syndromes of Basal Ganglia Lesions
- •9 Cerebrum
- •Development
- •Gross Anatomy and Subdivision of the Cerebrum
- •Gyri and Sulci
- •Histological Organization of the Cerebral Cortex
- •Laminar Architecture
- •Cerebral White Matter
- •Projection Fibers
- •Association Fibers
- •Commissural Fibers
- •Functional Localization in the Cerebral Cortex
- •Primary Cortical Fields
- •Association Areas
- •Frontal Lobe
- •Coverings of the Brain and Spinal Cord
- •Dura Mater
- •Arachnoid
- •Pia Mater
- •Cerebrospinal Fluid Circulation and Resorption
- •Arteries of the Anterior and Middle Cranial Fossae
- •Arteries of the Posterior Fossa
- •Collateral Circulation in the Brain
- •Dural Sinuses
- •Venous Drainage
- •Cerebral Ischemia
- •Arterial Hypoperfusion
- •Particular Cerebrovascular Syndromes
- •Impaired Venous Drainage from the Brain
- •Intracranial Hemorrhage
- •Intracerebral Hemorrhage (Nontraumatic)
- •Subarachnoid Hemorrhage
- •Subdural and Epidural Hematoma
- •Impaired Venous Drainage
- •Spinal Cord Hemorrhage and Hematoma
- •Further Reading
- •Index
10 402
10Coverings of the Brain and Spinal Cord; Cerebrospinal Fluid and Ventricular System
The brain and spinal cord are covered by three layers (meninges) of mesodermal origin: the tough dura mater is outermost, followed by the arachnoid and, lastly, the pia mater. The pia matter lies directly on the surface of the brain and spinal cord. Between the dura mater and the arachnoid is the (normally only virtual) subdural space; between the arachnoid and the pia mater is the subarachnoid space. The subarachnoid space contains the cerebrospinal fluid (CSF).
The cerebrospinal fluid is formed in the choroid plexuses of the four cerebral ventricles (right and left lateral ventricles, third ventricle, and fourth ventricle). It flows through the ventricular system (internal CSF space) and then enters the subarachnoid space surrounding the brain and spinal cord (external CSF space). It is resorbed in the arachnoid granulations of the superior sagittal sinus and in the perineural sheaths of the spinal cord. An increased volume of cerebrospinal fluid (because of either diminished resorption or—less commonly—increased production) manifests itself in increased CSF pressure and enlargement of the ventricles (hydrocephalus).
Coverings of the Brain and Spinal Cord
The three meninges (dura mater, arachnoid, pia mater) are depicted in Figs. 10.1 and 10.2. The dura mater is also called the pachymeninx (“tough membrane”), while the arachnoid and pia mater are collectively called the leptomeninges (“delicate membranes”).
Dura Mater
The dura mater consists of two layers of tough, fibrous connective tissue.
Outer and inner layers. The outer layer of the cranial dura mater is the periosteum of the inside of the skull. The inner layer is the actual meningeal layer; it forms the outer limit of the very narrow subdural space. The two dural layers separate from each other at the sites of the dural sinuses. Between the superior and inferior sagittal sinuses, a double fold of the inner dural layer forms the falx
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Coverings of the Brain and Spinal Cord · 403 10
Superior sagittal |
Arachnoid |
sinus |
granulations |
Cranial dura mater
Epidural space
Subdural space
Subarachnoid space
Pia mater of the brain
Cerebral cortex
Cranial arachnoid
Fig. 10.1 Meninges of the brain (schematic drawing, coronal view)
Epidural space with veins and fat
Spinal dura mater
Spinal arachnoid
Subarachnoid space
Periosteum
Pia mater of the spinal cord
Denticulate ligament
Fig. 10.2 Meninges of the spinal cord (schematic drawing, transverse view)
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10 404 · 10 Coverings of the Brain and Spinal Cord; Cerebrospinal Fluid and Ventricular System
cerebri, which lies in the midsagittal plane between the two cerebral hemispheres; the falx cerebri is continuous with the tentorium, which separates the cerebellum from the cerebrum. Other structures formed by a double fold of inner dura mater are the falx cerebelli separating the two cerebellar hemispheres, the diaphragma sellae and the wall of Meckel’s cave, which contains the gasserian (trigeminal) ganglion.
Blood supply of the dura mater. The dural arteries are relatively large in caliber because they supply the bony skull as well as the dura mater. The largest is the middle meningeal artery, whose branches are distributed over the entire lateral convexity of the skull. This artery is a branch of the maxillary artery, which is, in turn, derived from the external carotid artery; it enters the skull through the foramen spinosum. The anterior meningeal artery is relatively small and supplies the midportion of the frontal dura mater and the anterior portion of the falx cerebri. It enters the skull through the anterior portion of the cribriform plate. It is a branch of the anterior ethmoidal artery, which is, in turn, a branch of the ophthalmic artery; it therefore carries blood from the internal carotid artery. The posterior meningeal artery enters the skull through the jugular foramen to supply the dura mater of the posterior cranial fossa.
The middle meningeal artery makes an anastomotic connection in the orbit to the lacrimal artery, a branch of the ophthalmic artery. The ophthalmic artery branches off of the internal carotid artery near the internal aperture of the optic canal. Thus, in some cases, the central retinal artery can obtain blood by way of the middle meningeal artery, even if the ophthalmic artery is proximally occluded.
Spinal dura mater. The two layers of the dura mater adhere tightly to each other within the cranial cavity but separate from each other at the outer rim of the foramen magnum. The outer dural layer continues as the periosteum of the spinal canal, while the inner layer forms the dural sac enclosing the spinal cord. The space between the two layers is called the epidural or extradural space, even though it is, strictly speaking, inside the dura mater. It contains loose connective tissue, fat, and the internal venous plexus (Fig. 10.2, Fig. 11.20, p. 442). The two layers of the spinal dura matter join where the spinal nerve roots exit from the spinal canal through the intervertebral foramina. The lower end of the dural sac encloses the cauda equina and terminates at the S2 level (Fig. 3.22, p. 86f.). Its continuation below this level is the filum of the dura mater, which is anchored to the sacral periosteum by the fibrous coccygeal ligament.
Orbital dura mater. A similar division of the two layers of the dura mater is found in the orbit, which the dura mater reaches from the cranial cavity by ex-
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Coverings of the Brain and Spinal Cord · 405 10
tension along the optic canal. The outer dural layer is the periosteal lining of the bony orbit. The inner dural layer surrounds the optic nerve, together with its pia mater and arachnoid, as well as the perioptic subarachnoid space in between. This space communicates with the subarachnoid space of the cranial cavity. The inner dural layer is continuous with the sclera as the optic nerve enters the globe.
Papilledema. The dural sheath of the optic nerve can be stretched if elevated intracranial pressure is transmitted to the perioptic subarachnoid space. Retrobulbar stretching of the dural sheath is a major factor in the development of papilledema. Another cause of papilledema is acute intracranial subarachnoid hemorrhage (due to a ruptured aneurysm or vascular malformation) with blood extending into the perioptic subarachnoid space.
Innervation. The dura mater above the tentorium is innervated by branches of the trigeminal nerve, its infratentorial portion by branches of the upper cervical segmental nerves and the vagus nerve. Some of the dural nerves are myelinated, while others are unmyelinated. Their endings evidently respond to stretch, because mechanical stimulation of the dura can be consciously felt, and is often painful. The afferent fibers accompanying the meningeal arteries are particularly sensitive to pain.
Arachnoid
The arachnoid of both the brain and the spinal cord is a thin, delicate, avascular membrane closely applied to the inner surface of the dura matter. The space between the arachnoid and the pia mater (the subarachnoid space) contains the cerebrospinal fluid. The arachnoid and the pia mater are connected to each other across this space by delicate strands of connective tissue. The pia mater adheres to the surface of the brain along all of its foldings; thus, the subarachnoid space is narrower in some places, and wider in others. Enlargements of the subarachnoid space are called cisterns. The cranial and spinal subarachnoid spaces communicate directly with each other across the foramen magnum. Most of the arterial trunks supplying the brain, and most of the cranial nerves, run in the subarachnoid space.
Cisterns. The subarachnoid cisterns of the head have individual names, e. g., the cerebellomedullary cistern, also called the cisterna magna. The more important named cisterns are depicted in Fig. 10.4, p. 408.
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