vagus nerves (vagusmeans “wanderer”) branch exten-
sively to the larynx, heart, stomach and intestines, and
bronchial tubes.
The functions of the cranial nerves are summarized
in Table 8–4.
THE AUTONOMIC
NERVOUS SYSTEM
The autonomic nervous system (ANS) is actually
part of the peripheral nervous system in that it consists
of motor portions of some cranial and spinal nerves.
Because its functioning is so specialized, however, the
autonomic nervous system is usually discussed as a
separate entity, as we will do here.
Making up the autonomic nervous system are vis-
ceral motor neuronsto smooth muscle, cardiac mus-
cle, and glands. These are the visceral effectors;
muscle will either contract or relax, and glands will
either increase or decrease their secretions.
The ANS has two divisions: sympathetic and
parasympathetic. Often, they function in opposition
to each other, as you will see. The activity of both divi-
sions is integrated by the hypothalamus, which
ensures that the visceral effectors will respond appro-
priately to the situation.
AUTONOMIC PATHWAYS
An autonomic nerve pathway from the central nervous
system to a visceral effector consists of two motor
neurons that synapse in a ganglion outside the CNS
(Fig. 8–12). The first neuron is called the pregan-
glionic neuron, from the CNS to the ganglion. The
second neuron is called the postganglionic neuron,
from the ganglion to the visceral effector. The ganglia
are actually the cell bodies of the postganglionic
neurons.
SYMPATHETIC DIVISION
Another name for the sympathetic division is thora-
columbar division, which tells us where the sympa-
thetic preganglionic neurons originate. Their cell
The Nervous System 187
BOX8–8 LUMBAR PUNCTURE
Box Figure 8–B Cerebrospinal fluid from a patient with
meningitis. The bacteria are streptococci, found in pairs. The
large cells are WBCs. (500) (From Sacher, RA, and
McPherson, RA: Widmann’s Clinical Interpretation of
Laboratory Tests, ed. 11. FA Davis, Philadelphia, 2000, Plate
52, with permission.)
Alumbar puncture(spinal tap) is a diagnostic
procedure that involves the removal of cere-
brospinal fluid to determine its pressure and con-
stituents. As the name tells us, the removal, using a
syringe, is made in the lumbar area. Because the
spinal cord ends between the 1st and 2nd lumbar
vertebrae, the needle is usually inserted between
the 4th and 5th lumbar vertebrae. The meningeal
sac containing cerebrospinal fluid extends to the
end of the lumbar vertebrae, permitting access to
the cerebrospinal fluid with little chance of damag-
ing the spinal cord.
Cerebrospinal fluid is a circulating fluid and has
a normal pressure of 70 to 200 mmH 2 O. An abnor-
mal pressure usually indicates an obstruction in cir-
culation, which may be caused by infection, a
tumor, or mechanical injury. Other diagnostic
tests would be needed to determine the precise
cause.
Perhaps the most common reason for a lumbar
puncture is suspected meningitis, which may be
caused by several kinds of bacteria. If the patient
does have meningitis, the cerebrospinal fluid will be
cloudy rather than clear and will be examined for
the presence of bacteria and many white blood
cells. A few WBCs in CSF is normal, because WBCs
are found in all tissue fluid.
Another abnormal constituent of cerebrospinal
fluid is red blood cells. Their presence indicates
bleeding somewhere in the central nervous system.
There may be many causes, and again, further test-
ing would be necessary.