142 Chapter 4 Neurons, Hormones, and the Brain
letters and sounds (Tang et al., 2006). In the words
of one researcher, “Much like the changing tide can
erode a footprint in the sand, so too can changed ex-
perience over time reshape brain activations. In this
sense, the brain can be seen as a ‘cultural sponge’ of
sorts, absorbing the regularities of our surrounding
physical and social environments” (Ambady, 2011).
Plasticity is especially dramatic in cases of
people with brain damage who have experienced
remarkable recoveries—such as individuals who
cannot recall simple words after a stroke but are
speaking normally within months, or who cannot
move an arm after a head injury but regain full use
of the limb after physical therapy. Their brains
have apparently rewired themselves to adapt to
the damage (Liepert et al., 2000).
Plasticity is also apparent in some people who
have been blind or deaf from birth or early child-
hood. In the period of rapid development after
birth, connections form not only between the eyes
and the visual cortex but also between the eyes and
the auditory cortex. Likewise, connections formYou are about to learn...
• why the brain is considered to be “plastic.”
• some findings and fallacies about sexPsychology in the News
the Flexible Brain
Many people think of the brain as if it were some
fixed and unchanging organ, the same in everyone
and essentially the same at birth as at age 8, 18,
28, or 98. It is true that because we are all human
and most of us share common early experiences—
learning to talk, walk, deal with school and with
family members—our brains are fundamentally
similar in their basic organization. Yet we also
have differing experiences as a result of grow-
ing up rich or poor, male or female, nurtured or
neglected, and these experiences occur within a
particular culture that shapes our values, skills,
and opportunities. Such differences can affect the
brain’s wiring and how it is used.experience and the Brain Lo 4.15
Our brains are not fully formed at birth. During
infancy, synapses proliferate at a great rate (see
Figure 4.12). Neurons sprout new dendrites, cre-
ating not just new synapses but also more com-
plex connections among the brain’s nerve cells
(Diamond, 1993; Greenough & Anderson, 1991;
Greenough & Black, 1992; Rosenzweig, 1984).
New learning and stimulating environments pro-
mote this increased complexity. Then, during
childhood, synaptic connections that are useful for
helping the child respond to the environment are
strengthened, whereas those that are not useful
wither away, leaving a more efficient neural net-
work. In this way, each brain becomes optimized
for its environment. This plasticity, the brain’s
ability to change in response to new experiences,
is most pronounced in infancy and early child-
hood, but it has a resurgence in adolescence and
continues throughout life, even into old age.
Many of the experiences that affect us—and
our brains—depend on the culture we live in, as
children and adults. When two cultures value
different skills among their members, when they
emphasize different approaches to acquiring com-
mon skills, or when they encourage bilingualism,
people’s brains may reflect those differences. The
patterns of brain activity during mathematical pro-
cessing are different in native Chinese speakers than
in native English speakers. Both groups can learn
that 2 + 2 = 4, but their brains will take different
routes to get there, because of the different ways
that the Chinese and English languages processplasticity The brain’s
ability to change and
adapt in response to
experience, by reorganiz-
ing or growing new neural
connections.
At birth3 months6 months 15 monthsFigure 4.12 getting Connected
Neurons in a newborn’s brain are widely spaced, but
they immediately begin to form new connections. These
drawings show the marked increase in the number of
connections from birth to age 15 months.