Anxiety Disorders 255
Brain Systems
The brain ultimately controls the body’s responses, and thus GAD must involve the
brain in some way. However, researchers are only beginning to identify the precise
ways in which large-scale brain mechanisms are altered to produce GAD (Nutt,
2001). For example, they have found that patients with GAD have more gray and
white matter in the superior temporal gyrus, an area used in hearing and language
comprehension, than do individuals who do not have this disorder. Moreover, this
brain area is strikingly larger in the right hemisphere than the left in patients with
GAD, and the size difference is more extreme for people who have more severe
anxiety (De Bellis et al., 2002). It is possible that this additional cortex leads people
with GAD to form certain associations (such as of being in danger when in common
situations or suffering dangerous consequences after performing common actions)
more easily than do other people, but at present this is only a hypothesis.
The role of the right hemisphere was also evident in an fMRI study in which
adolescent patients with GAD and adolescents in a control group viewed angry and
neutral faces (Monk et al., 2006). The researchers found that a key part of the right
frontal lobe was more strongly activated for the patients than for the controls when
the participants saw angry faces. However, patients who showed greater activation
in this area had less severe anxiety. These results are only suggestive, but might in-
dicate that this area is involved in a coping activity, such as attempting to regulate
bodily responses; in fact, the frontal lobes have many connections to the limbic
system, including connections to the amygdala, which plays a key role in fear (e.g.,
LeDoux, 1996, 2000), and to the autonomic nervous system (Gabbott et al., 2005;
Ghashghaei & Barbas, 2002; Teves et al., 2004).
The connections from the frontal lobes to the autonomic nervous system may
play a particular role in GAD—but, unlike most types of anxiety disorders, GAD
isn’t associated with cranked up sympathetic nervous system activity (Marten et al.,
1993). Instead, GAD is associated with decreased arousal that arises from an
unusually responsive parasympathetic nervous system. The parasympathetic ner-
vous system tends to cause effects opposite to those caused by the sympathetic
nervous system. So, for instance, heightened parasympathetic activity slows heart
rate, stimulates digestion and the bladder, and causes pupils to contract (Barlow,
2002a). When an individual with GAD perceives a threatening stimulus, his or her
subsequent worry temporarily reduces any arousal (Borkovec & Hu, 1990), sup-
presses negative emotions (see Figure 7.2), and produces muscle tension (Barlow,
2002a; Pluess, Conrad, & Wilhelm, 2009). These facts are in stark contrast to Earl
Campbell’s symptoms, which suggest that he did not have GAD.
Neural Communication
Although the frontal lobes of patients with GAD are normal in size, the dopamine in
the frontal lobes of these patients does not function normally (Stein, Westenberg, &
Liebowitz, 2002). In fact, numerous studies suggest that a wide range of
neurotransmitters, including gamma-aminobutyric acid (GABA), serotonin, and
norepinephrine, may not function properly in people with GAD (Nutt, 2001). These
neurotransmitters affect, among other things, people’s response to reward, their
motivation, and how effectively they can pay attention to stimuli and events.
Genetics
Studies of the genetics of GAD have produced solid evidence that GAD has a ge-
netic component. The heritability estimate for GAD is at least 15–20% (Hettema,
Prescott, & Kendler, 2001) and possibly almost 40% (Scherrer et al., 2000) and the
disorder is equally heritable for men and women (Hettema, Prescott, & Kendler,
2001). However, much of this disorder may rest on a tendency to become anxious,
which can be manifested in a number of different ways. For example, much of the
genetic basis of GAD is shared with panic disorder (Chantarujikapong et al., 2001;
Scherrer et al., 2000) and with posttraumatic stress disorder (Chantarujikapong
et al., 2001). Moreover, if one family member has GAD, other family members are
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