because only so many ions can be inside the cell
body, sodium ions leave. To restore itself to nega-
tive polarity the cell body activates a burst of
energy to “pump” more sodium ions out, at an
exchange rate of three sodium ions out for every
two potassium ions in.
Meanwhile, back at the synaptic terminals
another conversion is taking place. The synaptic
terminals contain tiny storage pockets called vesi-
cles that hold NEUROTRANSMITTER molecules. The
electrical impulse causes the synaptic vesicle to
release a neurotransmitter molecule. The neuro-
transmitter molecule crosses the synapse and
binds with a NEURORECEPTORon a dendrite of the
receiving neuron. The binding either causes or
blocks an action.
The longer the neurotransmitter molecules
remain in the synapse the more neuroreceptors
they can bind. As a safety mechanism, the neuro-
transmitter’s presence in the synapse stimulates
the synaptic vesicles to reuptake (recycle) the
remaining neurotransmitter, containing the
potential for binding. Further stimuli are then
necessary to continue. The neuron sending a mes-
sage is the presynaptic neuron; the neuron receiv-
ing a message is the postsynaptic neuron. Some
neurologic conditions affect the functioning of
presynaptic neurons and others affect the func-
tioning of postsynaptic neurons.
NEURONAL PATHWAYS:
THE BRAIN’S ENDLESS CAPACITY TO LEARN
The adult BRAIN contains 60 to 200 trillion
synapses. Synapses represent the networks of
axons that neurons develop to form neuronal
pathways, the routes by which neurons commu-
nicate with one another in expedited fashion.
Even though all the neurons the brain will ever
have are present at birth, the brain has an end-
less capacity to create new neuronal pathways
and thus “grow” its ability to learn.Many medications work by inhibiting (block-
ing) or expediting the reuptake process to extend
or shorten, respectively, the time the neurotrans-
mitter is active. Selective serotonin reuptake
inhibitors (SSRIs), for example, are ANTIDEPRESSANT
MEDICATIONSthat work by blocking serotonin reup-
take. Serotonin is a neurotransmitter that facili-
tates neuron communication in areas of the brain
related to mood. The acetylcholinesterase
inhibitors, medications to treat ALZHEIMER’S DIS-
EASE, work by blocking the enzyme that breaks
down the neurotransmitter acetylcholine. This
action extends the presence of acetylcholine in the
synapses, increasing neuroreceptor binding.
Acetylcholine facilitates neuron communication in
areas of the brain that process cognitive functions
and memory. Medications may also masquerade
as neurotransmitters to bind with neuroreceptors.
Therapies for PARKINSON’S DISEASE, a degenerative
condition that results from depletion of the neuro-
transmitter DOPAMINEin the brain, are among the
most effective applications of this approach.Health and Disorders of the Nervous System
The most significant health risks the nervous sys-
tem faces occur before birth. The most vulnerable
period in nervous system development takes place
before most women have missed a menstrual
period or suspect they are pregnant. Within the
first three weeks after conception, the rudimen-
tary nervous system, the neural tube, forms and
rapidly differentiates into the brain and spinal
cord. Numerous factors, environmental and
genetic, can disrupt this process to cause cephalic
disorders (structural defects of the brain) or SPINA
BIFIDA(structural defects of the spinal cord). CERE-
BRAL PALSYis the most common developmental dis-
turbance of the nervous system.FOLIC ACID AND NEURAL DEVELOPMENT
Folic acid is crucial for proper development of
the NERVOUS SYSTEMearly in PREGNANCY, especially
at the time of CONCEPTION through the first
trimester. Numerous studies show that taking
folic acid supplements before and during preg-
nancy can prevent 70 percent of NEURAL TUBE
DEFECTS. Health experts recommend that all
women of childbearing age take 400 micrograms
of folic acid supplement daily regardless of
whether they are trying actively to become preg-
nant.From birth through midlife, injury becomes the
most worrisome threat to the nervous system.
Young people are especially vulnerable to TRAU-
MATIC BRAIN INJURY(TBI) and SPINAL CORD INJURY; 80The Nervous System 217