256 Chapter 13
What is consciousness?
- Consciousness is a spectrum of mental activity that includes
state of arousal and sleep. - Signals from the reticular activitating system (RAS) of the
reticular formation in the brain stem arouse and activate the
cerebral cortex.
taKe-hoMe Message
reticular formation A net-
work of brain stem neurons
that processes sensory
information and sends
related signals to other
parts of the CNS.
Consciousness
scalp during an EEG (electroencephalogram). The patterns
show up as tracings like those in Figure 13.21B.
Most of the time you spend sleeping is “slow-wave
sleep.” During this stage, your heart rate, breathing, and
muscle tone change very little and you can be easily roused.
Approximately every 90 minutes, however, a sleeper nor-
mally enters a period of REM (rapid-eye-movement) sleep,
in which the eyelids flicker and the eyeballs move rapidly
back and forth. Sleepers dream during REM sleep, and it is
much harder to wake up during this time. Most research
subjects awakened from REM sleep report they were expe-
riencing vivid dreams.
You may know from personal experience that a sleep-
deprived person tends to feel cranky and have diffi-
culty concentrating. Sleep is important for the brain, but
researchers don’t know exactly why. Although neural
activity changes during sleep, the brain clearly is not rest-
ing. Sleep may be a time when the brain does tasks such
as consolidating memories and firming up connections
involved in learning.
n Consciousness is a spectrum of brain states such as
alertness and stages of sleep.
The spectrum of consciousness ranges from being wide
awake and fully alert to drowsiness, sleep, and coma.
All states of consciousness depend on the reticular
formation, a two-part network of interconnected neurons
that runs through the brain stem (Figure 13.21A). It receives
and processes incoming sensory information, then sends
signals to other parts of the CNS. One part of the formation,
called the RAS (for reticular activat-
ing system) sends signals upward
to the thalamus that stimulate it
to arouse and activate the cerebral
cortex. Depending on how much
the cortex is stimulated, it responds
in ways that determine the level of
consciousness, including sleeping and waking. The central
role of the RAS in this brain function is why brain stem
damage often results in coma.
The second part of the reticular formation receives
signals from the hypothalamus and relays them to spinal
cord neurons. These signals govern skeletal muscle activ-
ity that helps maintain balance, posture, and muscle tone.
The reticular system also filters incoming signals, helping
the brain distinguish between important and unimportant
ones. It is this filtering that enables you to sleep through
many sounds but to waken to specific ones, such as a cat
meowing to be let out or a baby crying.
The patterns for full alertness and other states of con-
sciousness can be detected by electrodes placed on the
Figure 13.21 Several states of consciousness occur in the brain. a Location of the reticular formation in the brain stem.
B EEG patterns for various stages of consciousness. (© Cengage Learning)
Cerebellum
Midbrain
Pons
Medulla
Reticular
formation^012345
Time (sec)
Awake
(beta waves)
Eyes closed, relaxed
(alpha waves)
Dozing
(theta waves)
Deep sleep
(delta waves)
a B
13.9
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