Researching Abnormality 169
Research Challenges in Understanding
Abnormality
Let’s examine your hypothesis about the relationship between experiencing a
childhood loss and feeling depressed after a breakup in adulthood. How can we use
the neuropsychosocial approach to understand why breaking up can lead some peo-
ple to become depressed? We could investigate neurological mechanisms by which
early loss, associated with helplessness, might make people more vulnerable to later
depression, perhaps through enduring changes to brain structure or function. We
could investigate psychological effects resulting from early loss, such as learned
helplessness, cognitive distortions, or problems with emotional regulation. We could
investigate social mechanisms, such as the way the loss altered subsequent attach-
ments to and relationships with others or how economic hardships arising from the
early loss created a higher baseline of daily stress. And, crucially, we could propose
ways in which these possible factors might interact with one another. For exam-
ple, perhaps daily fi nancial stress not only increases the degree of worrying about
money, but also such worrying in turn changes neurological functioning as well as
social functioning (as preoccupying fi nancial worries alter social interactions).
Whatever type of factors researchers investigate, each type comes with its own
challenges, which affect the way a study is undertaken and which limit the conclu-
sions that can be drawn from a study’s results. Let’s examine the major types of
challenges to research on the nature and causes of abnormality from the neuropsy-
chosocial perspective.
Challenges in Researching Neurological Factors
DSM-IV-TR does not consider neurological factors when assigning diagnoses, but
many researchers are exploring the possible role of neurological factors in causing
psychological disorders. This research is yielding new insights into why some of us, in
some circumstances, develop psychological problems. In fact, current fi ndings about
neurological factors are coming to play an increasingly large role in treatment.
With the exception of genetics, almost all techniques that assess neurological fac-
tors identify abnormalities in the structure or function of the brain. Thisassessment is
done directly (e.g., with neuroimaging) or indirectly (e.g., with neuro psychological test-
ing or measurements of the level of stress hormones in the bloodstream). Such abnor-
malities are associated (correlated) with specifi c disorders or symptoms. For instance,
people with schizophrenia have larger than normal ventricles (the fl uid- containing
cavities in the brain) and other areas of the brain are correspondingly smaller
(Vita et al., 2006). Like all correlational studies, the studies that revealed the enlarged
ventricles cannot establish causation. That is, these results cannot establish whether:
- schizophrenia arises because of the effects of this brain abnormality;
- episodes of psychosis somehow create larger ventricles (in essence, schizophrenia,
over time, creates the brain abnormality);
- the brain abnormality existed before symptoms of schizophrenia developed; or
- the brain abnormality arises from some other factor, such as the effects of medica-
tions for schizophrenia. (We will revisit these possible causes in Chapter 12, when
we discuss schizophrenia in more detail.)
Another limitation of research using neuroimaging is that we do not yet have a
complete understanding of what different parts of the brain do. Thus, researchers
cannot be sure about the implications of structural abnormalities (e.g., enlarged ven-
tricles) or functional abnormalities (e.g., why specifi c areas that are normally activated
during a task are not activated when a person with a particular disorder performs the
task). For example, the parietal lobes are involved in attention, in representing spatial
information, in performing arithmetic, and in many other activities; simply knowing