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The following is a review of basic descriptive terminology; note that the derivation, abbreviation, combining form, synonym, or explanation is given parenthetically.

The central nervous system (CNS) consists of the brain (encephalo) (Figure 1.1) and spinal cord (myelo). It contains collections of neuronal cell bodies or somata in layers (laminae), nuclei, and columns of gray matter (polio). Tracts, sheets, and pathways of dendritic (afferent) and particularly axonal (efferent) processes of these cell bodies make up the white matter (leuko). These processes make up most of the CNS along with their fatty, myelin (myelino) coats. In tall, large animals, some of these neuronal fibers extend 2–3 m, and many exit and enter the CNS via the cranial and spinal nerves of the peripheral nervous system (PNS).

Figure 1.1 Basic areas of the brain can be readily recognized on this diagram of a median section of a horse brain. The terminology used in this book is shown. Wherever possible the authors use the terminology of Nomona Anatomica Veterinaria;

however, some license is taken with respect to forebrain, which here refers to the prosencephalon plus diencephalon, as clinically, lesions in these collective regions generally present the same syndromes. It is important to recognize these various areas when sending brain sections for histopathologic examination.

Structurally, the forebrain (prosencephalon) is composed of the cerebral hemispheres (most of the telencephalon), thalamus and hypothalamus (diencephalon), hippocampus, basal nuclei, and the limbic system, all situated in the rostral fossa of the neurocranium. The middle fossa contains the midbrain (mesencephalon). Caudally, the hindbrain (rhombencephalon) is composed of the cerebellum and pons (together with the metencephalon) and the medulla oblongata (myelencephalon) that all reside in the caudal fossa. Both the cerebrum (cerebro) and cerebellum (cerebello) have their own outer (cortical) and inner (medullary) portions, composed particularly of gray matter (neuronal cell bodies) and white matter (neuronal fibers), respectively. The remainder of the brain comprising the midbrain, pons, and medulla oblongata makes up the brainstem. This contains white matter pathways passing to and from brain and spinal cord regions, and gray matter, mostly contained in nuclei as relay centers and sensory and motor nuclear areas for the body, including the cranial nerve nuclei.

The spinal cord is the conduit between the brain and the peripheral spinal (non‐cranial) nerves and their innervated structures of the body. Thus, it contains all the afferent and efferent neuronal fibers connecting to and from the brain as superficial white matter tracts. It has a cervicothoracic (brachial) enlargement (intumescence) and a lumbosacral (pelvic) enlargement at the levels of the thoracic and the pelvic limbs, respectively. These swellings are the result of a higher density of neuronal cell bodies at these sites, collected in the butterfly‐shaped, central gray matter and supplying the sensory and motor spinal nerves for the limbs.

To avoid some confusion, vertebral levels are labeled as C7, T3, L4, S5, Ca6 (caudalis as opposed to coccygeal), etc., and spinal cord segments are labeled as C₈, T₃, L₄, S₅, Ca₆, etc.

Clinically, the autonomic nervous system functions independently and involuntarily from the rest of the nervous system, receiving afferent input from the environment via the basic and special senses to maintain the body’s internal milieu. The parasympathetic component has a brainstem and sacral outflow to the head and body, whereas the sympathetic component has a thoracolumbar outflow.

The entire CNS is protected within the bony neurocranium of the head and in the vertebral canal within the vertebral column. It is covered by meninges consisting of the thick (pachy) dura mater and thin (lepto) arachnoid and pia mater. Between the latter two membranes, is cerebrospinal fluid (CSF), produced by the choroid plexuses of the lateral and fourth ventricles. This fluid also fills the cavities within the brain (ventricles) and spinal cord (spinal canal), which are lined by ciliated ependymal cells.

Because we refer to vertebral structures very often, it is worth reviewing the recommended correct nomenclature as in Nomina Anatomica Veterinaria http://www.wava‐amav.org/wava‐documents.html

Columna Vertebralis

Corpus vertebrae

Extremitas cranialis (Caput vertebrae)

Extremitas caudalis (Fossa vertebrae)

Crista ventralis

Arcus vertebrae

Pediculus arcus vertebrae

Lamina arcus vertebrae

Foramen vertebrale

Canalis vertebralis

Spatium interarcuale

Foramen intervertebrale

Incisura vertebralis cranialis

Incisura vertebralis caudalis

Foramen vertebrale laterale

Sulcus n. spinalis

Processus spinosus

Processus transversus

Processus costalis

Processus articularis cranialis

Processus articularis caudalis

Processus accessorius

As well as meningeal cells, ependymal cells, neurons (somata and their axons and dendrites), and blood vessels, several other types of supporting, protective, and nutritive glial (glue) cells (neuroglia) make up a large part of the volume of the CNS. The largest of these glial cells are the astrocytes with their star‐shaped processes. These cells basically act to support the CNS, which has little cytoskeletal framework. They also act as pseudofibroblasts and can lay down collagen in response to injury to the CNS. Originally, the processes of other small glial cell types were thought to be few (oligo); these cells being named oligodendrocytes. We now know that their processes are extensive and extend to and maintain all the myelin sheaths covering CNS axons. The small microglial cells appear to be the tissue macrophages of the mononuclear phagocytic system within the CNS, responding along with migrating inflammatory cells from the circulation when there are inflammatory processes occurring in CNS tissues.

The neuronal processes in the peripheral nervous system (PNS) with their myelin sheaths are called nerve fibers and make up the nerve roots, nerve plexuses, and peripheral nerves. Some neurons, particularly those in the autonomic nervous system and the sensory neurons, have their cell bodies in aggregations known as ganglia. Also, several networks of interwoven nerves (plexuses) occur in the PNS, the largest of which are the brachial plexus supplying the thoracic limbs and the lumbosacral plexus for the pelvic limbs.

The cells that ensheathe PNS nerve fibers are Schwann cells. These assist in maintaining a framework for nerves, as well as producing the abutting layers of myelin that surround all the larger fibers, allowing quite rapid saltatory (leaping, jumping) conduction of electrical impulses. The PNS has a fibrous connective tissue cytoskeleton that consists of the epineurium that wraps around a whole nerve, the perineurium that surrounds a bundle or fascicle of fibers, and the endoneurium that separates the individual nerve fibers.