bdi
TRANSCRIPT
Beck Depression Inventory 1
The Beck Depression Inventory in 28 Countries: A Meta-Analysis
Dianne A. van Hemert
Fons J. R. van de Vijver
Ype H. Poortinga
Tilburg University, the Netherlands
Corresponding author:Dianne A. van HemertDepartment of PsychologyTilburg UniversityP.O. Box 901535000 LE TilburgThe NetherlandsPhone: +31 13 466 3005Fax: +31 13 466 2370Email: [email protected]
Beck Depression Inventory 2
Running head: THE BECK DEPRESSION INVENTORY IN 28 COUNTRIES
The Beck Depression Inventory in 28 Countries: A Meta-Analysis
Beck Depression Inventory 3
Abstract
The Beck Depression Inventory (BDI) is one of the most widely used instruments to
assess depression. Studies using the BDI in normal populations from 28 countries
were collected. Depression showed the same correlates at individual and country
level, which suggests that depression has the same meaning at the two levels. BDI
scores were negatively correlated with economical and political variables and with
indicators of societal equality. Splitting the sample in two subsets of more and less
affluent countries resulted in significant differences on various correlations with the
BDI. For example, BDI correlated significantly different with suicide rate and
Hofstede’s Masculinity for more and less affluent countries. Finally, after controlling
for GNP, correlations with well-being, Confucian Work Dynamism and Human-
Heartedness from the Chinese Value Survey, and Schwartz’s Autonomy value were
significant.
Keywords:
Depression
Beck Depression Inventory
Subjective well-being
Happiness
Country indicators
Functional equivalence
Beck Depression Inventory 4
The Beck Depression Inventory in 28 Countries: A Meta-Analysis
The present study focuses on negative affect across individuals and countries.
It is studied whether depression in normal populations, as measured by the Beck
Depression Inventory (BDI; Beck et al., 1961), has a similar meaning at individual
level and country level of analysis. This similarity is a prerequisite for interpreting BDI
scores at country level. Further, hypotheses are tested about correlates of
depression at country level.
In 1961, Aaron Beck and his colleagues (Beck et al., 1961) published the BDI
to measure the ‘behavioral manifestations of depression’. The BDI is not based on a
theory but on clinical observation of symptoms displayed by depressive patients
(Steer et al., 1986). These symptoms include disturbed mood (sadness, loneliness,
apathy) and a negative self-concept and self-punitive wishes. Further, depressive
persons can suffer from physical and vegetative symptoms such as anorexia,
insomnia, and loss of libido. Depressed individuals can also experience changes in
activity level: They show either retardation or agitation (Beck, 1967). The BDI
consists of 21 items describing symptoms and categories reflecting overt behavioral
manifestations of depression. The categories reflect both psychological and somatic
symptoms. The BDI is one of the most widely used depression self-rating scales.
More than 2,000 empirical studies have employed the BDI (Richter et al., 1998).
Although originally developed as a measure for clinical populations, it is now also
widely used as a measure of depression in non-clinical samples. This takes the form
of epidemiological research and research studying the correlates of depression, like
demographical and psychological variables. It should be kept in mind that there is a
difference between population depression scores as a continuous variable and the
prevalence of depression in a population, treating depression as a categorical
Beck Depression Inventory 5
disorder. In the first instance the extent of depression can be taken as a continuous
variable with a mean level that is a characteristic of a population as a whole. In the
second instance there is a proportion of individuals scoring above a threshold.
According to Rose (1992), ‘’the visible part of the iceberg (prevalence) is a function of
its total mass (the population average)’’ (p. 72).
BDI scores of normal individuals can be aggregated to obtain country level
data. However, in order to be able to interpret such data, one has to know whether
the meanings of individual-level and country-level BDI scores are equivalent. This is
a question of functional equivalence (Van de Vijver & Leung, 1997). One way to
examine similarity of meanings is to make use of external variables that are part of
the nomological networks of depression across levels. In this method, correlations of
context variables with BDI scores are compared at individual and country level. This
strategy focuses on functional equivalence, as it refers to the functional context of the
concept (see also Van Hemert et al., submitted). An example of different correlations
at individual and country level was described by Myers and Diener (1996). Within
most nations there is hardly a relationship between income and happiness; although
Americans earn on average twice as much today as they did in 1957, they have not
become happier. At the same time people in rich countries are generally happier than
people in less prosperous countries.
To conceptionalize country-level correlations, it is useful to turn to the notions
of happiness and subjective well-being. Generally, three aspects of subjective well-
being are distinguished: positive affect, lack of negative affect, and satisfaction with
life (Diener, 1994; Myers & Diener, 1995). It seems reasonable to assume that
depression in normal populations is inversely related to subjective well-being and
happiness. Therefore, theories about cultural differences in these concepts can be at
Beck Depression Inventory 6
the basis of cross-cultural hypotheses about correlates of depression cross-culturally.
A first theory, labeled livability theory by Veenhoven (1995), states that happiness is
influenced by objective living conditions. These are broadly defined, ranging from
education and income to equality, stability and freedom. Maslow's (1970) need-
gratification theory underlies this perspective (Oishi et al., 1999). The comparison
theory claims that happiness is dependent on comparison with other times' or other
people's conditions (Veenhoven, 1995). This theory stresses relative living conditions
as contrasted to absolute living conditions. Two types of comparison can be
distinguished: Social comparison involves comparison with other people and lifetime
comparison involves comparison with other times in life. The folklore theory
(Veenhoven, 1995) states that happiness is a reflection of the national character of a
country and is unrelated to the actual quality of life in that country.
In general, subjective well-being and happiness have been found to depend
on absolute (objective) quality of life (Diener et al., 1993; Veenhoven, 1995),
supporting the livability theory. Arrindell et al. (1997) related country scores on
subjective well-being to a number of country-level characteristics. Subjective well-
being was found to be higher in wealthy countries with a high level of civil rights.
Diener et al. (1995) reported positive correlations between subjective well-being and
economical and political variables, as well as variables related to equality and
individualism, in 55 nations. Similar findings were reported by Veenhoven (1999),
who examined happiness in 43 countries. He also found happiness to be related to
educational variables, variables concerning media availability, and Schwartz's
Autonomy. Inglehart (1997, 2000) found stability of democracy and to a lesser
degree level of democracy to go together with well-being. Further, a strong
relationship (r = .74; p < .01) was found between subjective well-being and wealth.
Beck Depression Inventory 7
Inglehart added that above a threshold of about US$6,000 (in 1991 dollars) there
was hardly a relationship. Diener and Diener (1995) reported similar findings.
With respect to the comparison theory, Hagerty (2000) found that a more
positively skewed national income is associated with lower happiness. As for lifetime
comparison, Easterlin (1995) discusses evidence for a positive link between
economical growth and the increase of happiness. However, studies by Diener et al.
(1993) and Veenhoven (1995) did not find support for the idea that well-being is
dependent on relative quality of life (for instance through social comparison).
Some evidence has been found to support the folklore theory. In the study by
Arrindell et al. (1997) the Neuroticism and Psychoticism scales from the Eysenck
Personality Questionnaire (EPQ-N respectively EPQ-P) were negatively correlated
with subjective well-being (r = -.41, p < .05 respectively r = -.40, p < .05).
Furthermore, of the well-known dimensions of Hofstede (1980) uncertainty avoidance
and power distance were negatively correlated with subjective well-being, while a
high level of individualism went together with high subjective well-being. Although no
significant correlation was found with masculinity for the total sample, in poorer
countries masculinity and subjective well-being were positively correlated whereas in
richer countries the opposite was found.
Additionally, studies on depression and well-being suggest that depression
might also be positively correlated with marital status (Diener et al., 2000;
Mastekaasa, 1994; Myers, 1992; Myers & Diener, 1995; Veenhoven, 1983),
religiosity (Myers, 1992; Myers & Diener, 1995; Van den Eeden & Braam, 1999), and
employment (Myers, 1992).
No studies are available that relate (continuous) depression scores to other
psychological or contextual measures at country level. Yet, there are several studies
Beck Depression Inventory 8
of such relationships at the individual level. In the following discussion we review
individual-level studies using context variables which will be used later on in the
country-level analyses. Several authors reported a negative correlation of depression
with socioeconomic status (Gibbs, 1985) and with level of education (Oliver &
Burkham, 1979; Williamson, 1989), as would be predicted from livability theory. As
for personality, numerous authors report a significant, positive correlation between
BDI scores and EPQ-N (e.g., Heaven & Shochet, 1995; Meites et al., 1980;
Tashakkori et al., 1989; Saklofske et al., 1995; Salamero et al., 1994; Ulusahin &
Ulug, 1997; Williams et al., 1998). The Marlowe-Crowne Social Desirability Scale was
significantly negatively correlated (r = -.36; p < .01) with the BDI scores in a study by
Carr et al. (1996). This finding is in agreement with results of Tashakkori et al. (1989)
who found more depressive participants to have lower scores on the Lie scale from
the Eysenck Personality Questionnaire (EPQ-L), which is considered to measure
social desirability or social conformity. Tanaka-Matsumi and Kameoka (1986) also
found negative correlations between BDI scores and social desirability scales.
Sometimes BDI scores were found to be negatively related to extraversion, as
measured by EPQ-E (Carrillo et al., 1996; Ulusahin & Ulug, 1997) and positively
correlated with EPQ-P (Saklofske et al., 1995; Tashakkori et al., 1989). Costa and
McCrae (1980) presented a model of personality influences on subjective well-being,
according to which extraversion enhances subjective well-being through positive
affect, whereas neuroticism is related to negative affect, thereby negatively
influencing subjective well-being or happiness. Similar findings were reported by
DeNeve and Cooper (1998) in their meta-analysis of personality traits and subjective
well-being.
Beck Depression Inventory 9
The present study examines two questions. The first involves the equivalence
of depression in normal populations as measured by the BDI at individual and
country level. Correlations with context variables at individual and country levels are
compared to assess equivalence. Positive evidence with respect to this first question
is conditional for the second part of the study. This second part examines the
correlates of depression at country level. Based on the theories and literature
discussed, the following country-level hypotheses are tested.
General hypotheses:
1. Subjective well-being and happiness are negatively related to depression1.
2. Prevalence rates of (clinical) depression are positively related to
depression.
3. Suicide rate is positively related to depression.
Livability theory:
4. More affluent countries show lower depression scores. (According to the
livability theory affluence pertains to economical well-being, as well as
education and political stability.)
Comparison theory:
5. Equality of income distribution is negatively related to depression (social
comparison).
6. Economical growth is negatively related to depression (lifetime
comparison).
Folklore theory:
7. National character traits explain a significant portion of variance in
depression.
Demographic hypotheses:
Beck Depression Inventory 10
8. The percentage of married people is negatively related to depression.
9. Religiosity is negatively related to depression.
10.Unemployment is positively related to depression.
Method
Data Collection
PsycInfo (formerly known as PsycLit) was searched for reports, using the
keywords BDI and Beck and Depression (time period covered: 1960- July 1999). Two
strategies were used to find additional studies. First, several authors of obtained
references were asked by letter or e-mail to provide all reports they had available on
the Beck Depression Inventory. Second, by looking at references in literature already
identified another part of the data set was found. Studies were included in the data
set if mean scores on the BDI and sample sizes were reported. If available, the
standard deviation of BDI score distribution, the internal consistency of the BDI
measured by Cronbach’s alpha, and the mean and standard deviation of the age
distribution were recorded. There was an important restriction concerning the type of
sample used; clinical samples and all other groups were excluded that were
expected to produce scores deviating from a representative sample in a national
population. Studies reporting ethnic diverse samples were only included if no
significant differences in means were reported between the ethnicities. This
restriction was needed because ethnic differences within a country were not the
focus of our study. Each separate group of participants in a single report, for instance
men and women or different age groups, was regarded as an independent study.
Two problems arose in the data collection. The first problem concerned the
different versions of the BDI. In 1979, a revised version of the BDI (copyrighted in
1978) was published (Beck et al., 1979). Instead of asking participants to report on
Beck Depression Inventory 11
their feelings at the moment of administration, the revised version asks to report on
the “past week including today”. Also, the wording of several items was changed.
Although the number and global meaning of the 21 items remained the same, and
high correlations between the versions were found, significant differences in means
have been reported (Beck & Steer, 1984; Lightfoot & Oliver, 1985). The 1961 version
generally shows lower means. Most articles did not explicitly state what version was
used. To obtain this information various strategies were followed. First, if the version
was specified in the list of references, either 1961 or from 1978, this was used as an
indicator of the version. Nevertheless, Beck et al. (1988) acknowledge that “there is
no feasible way of determining which version researchers have actually employed
from the descriptions presented in the majority of studies”. They add that most
researchers cite the 1961 reference, although some of them actually used the 1978
version. Second, when no reference was given it was assumed that other studies by
the same author(s) and from the same country used the same version. In some
countries, different versions have been used. In countries in which several samples
were studied the ambiguous studies were eliminated, in others the year was decisive:
All studies published before 1981 were regarded to concern the 1961 version, the
others were considered to have used the 1978 version. A short form (Beck & Beck,
1972) was also introduced, consisting of 13 items from the original BDI. Gould (1982)
and Reynolds and Gould (1981) found this short version for patients to be reliable
and valid, and highly correlated with the standard from. Studies using this version
were also included. Generally, it was clear when this version was used.
The second problem in forming the data sets concerned translations and
adaptations in non-English speaking countries. Translations were not always literal.
Beck et al. (1988) also mentioned this problem. Some translations involved deleting
Beck Depression Inventory 12
or adding items or modifying the content of existing items. Thus, several studies had
to be ignored in setting up the data set. In one case, the deletion only concerned one
item (Tashakkori et al., 1989). Here the mean total score was adjusted by adding
one-twentieth of the total score.
Data Sets
<Table 1>
Three data sets were composed. The first data set included the studies using
the 1961 version of the BDI. It consisted of 72 studies, providing data for 117
separate samples. Twenty-five countries were represented in this data set. Table 1
shows all countries in this data set with their means, standard deviations, and
reliabilities. The second data set contained the studies using the 1978 version of the
BDI (Table 2). Thirty-seven studies, with 56 samples from 13 countries made up this
data set. Finally, 13 studies using the short version of the BDI formed the third data
set (Table 3). It consisted of 33 samples and included 8 countries.
<Table 2>
<Table 3>
Publication years ranged from 1974 to 1999 in the 1961-version data set, from
1988 to 1999 in the 1978-version data set, and from 1984 to 1997 in the short-
version data set. Medians were 1993, 1995, and 1985 for the 1961-version, 1978-
version and short-version data set, respectively.
Many studies did not specify the number of men and women in their samples
or did not report the BDI scores for both genders separately. Thus, in the 1961-
version data set 43% of the studies either had mixed samples or did not provide
information on distribution of the sexes. It could be established for 19% of all
participants that they were men and for 28% that they were women. For the 1978-
Beck Depression Inventory 13
version data set the corresponding figures were 7% men and 13% women. In 71% of
the studies in this data set, either the samples were mixed or no separate information
on sex was mentioned. Finally, the short-version data set contained 15% men and
16% women; 36% of the samples were mixed or had an unknown gender
distribution.
Age ranged from 15.00 to 74.10 years in the 1961-version data set, from 15.90
to 74.04 years for the 1978-version data set and from 17.27 to 84.50 years in the
short-version data set. Participants were on average 22.99 (SD = 11.21) year in the
1961-version data set, 25.42 (SD = 8.66) year in the 1978-version data set and 39.57
(SD = 21.12) year in the short-version data set. Data on age were available in 83%
and 89% of the studies in the 1961-version and the 1978-version data sets
respectively, and in all studies of the short-version data set.
Correlations across versions were calculated by correlating the means
(weighted for sample size) of all data sets at country level: r = .64 (ns) between the
1961-version and the 1978-version data sets ; r = .79 (p < .05) between the 1961-
version and the short-version data sets; and r = .42 (ns) between the 1978-version
and the short-version data sets. Compared with the correlation of .94 between the
1961 and the 1978 version reported by Lightfoot and Oliver (1985), correlations are
low. However, it should be noted that correlations were calculated at country level
instead of individual level. Unfortunately the data were not suited for individual-level
analyses.
Analysis and Testing of Hypotheses
Functional equivalence across levels was evaluated by comparing correlations
between context variables and depression scores at individual and country level. As
no data at the individual level were available, information about the nature of
Beck Depression Inventory 14
correlations with the BDI at individual level had to be drawn from existing literature on
the subject. Country-level correlations were derived from the total data set collected
for the present study.
To test the hypotheses as formulated in the introduction several indicators at
country level were used.
General Hypotheses
Subjective well-being. Diener’s subjective well-being was derived from Diener
et al (1995). This measure combines scores from several surveys and is available for
25 countries. Inglehart’s (1997) measure of subjective well-being was derived from
questions concerning happiness and satisfaction with life as a whole (23 countries).
Happiness. Veenhoven (1999) reported data on happiness from the World
Database of Happiness (update 1996). His measure of happiness was used for 27
countries.
Prevalence rates. The World Health Organization (1999) reported 1998 data
on burden of disease by cause and by WHO Region for several neuropsychiatric
disorders. The disorders included unipolar major depression and bipolar affective
disorder. Percentages of sufferers could be calculated for the following regions:
Africa, America (subdivided in 'high income' and 'low and middle income'), Eastern
Mediterranean, Europe (subdivided in 'high income' and 'low and middle income'),
South-East Asia (subdivided in 'India' and 'other low and middle income'), and
Western Pacific (subdivided in 'high income', 'China', and 'other low and middle
income'). By assigning region scores to countries, data were available for all
countries.
Beck Depression Inventory 15
Suicide rates. Death rates per 100,000 inhabitants by suicide were collected
using the Demographic Yearbook 1987 (United Nations, 1990a). Data were available
for 25 countries.
Livability Theory
Affluence. An overall score on Affluence (similar to Georgas et al., submitted)
was derived from factor analyzing (for the countries involved in the present study) all
variables constituting five ecosocial factors as used by Georgas and Berry (1995):
Ecological factor (temperature and precipitation), Economical factor, Educational
factor, Mass communication factor (number of telephones, newspapers, etc.) and
Population factor (mortality and birth rates). The scores on the resulting single factor
were used as a measure of Affluence. Where data on the indicators were not
available for a country in the data set, they were added by using the Demographic
Yearbook 1987 (United Nations, 1990a), the UNESCO Statistical Yearbook 1990
(United Nations, 1990b) and the historical weather data web site (Washington Post,
n.d.). Data on Affluence were available for all 30 countries.
Gross National Product. Data on the GNP per capita were obtained from the
Georgas and Berry (1995) database.
Political Rights and Democracy. We combined four variables concerning
political rights and democracy into one dimension. Humana (1986) collected data
from several United Nations instruments and constructed the Human Rights Index for
rights and freedoms in 40 categories (28 countries). The indices for Political Rights
and for Civil Liberties in the year 1984 to 1985 were available for 29 countries
(Freedom House, n.d.). Vanhanen’s (1997) Index of Democratization over the year
1980 is a weighted combination of two indicators of dimensions of democracy,
namely Competition (smaller parties’ share of the votes) and Participation
Beck Depression Inventory 16
(percentage of total population who voted in the election). This index was available
for 29 countries. We factor analyzed all four variables. A one-factor solution was
found with an eigenvalue 3.33, explaining 83.24% of variance. Factor scores on this
Political Rights and Democracy factor were used for further analyses (27 countries).
Civil rights. For 24 countries Gupta’s measure for observance of civil rights, as
cited by Diener et al (1995), was used. The original sign was reversed so as to obtain
a higher score for more observance of civil rights.
Additional measures of democracy. Inglehart’s (1997) measure of the level of
democracy in 1990, as well as the measure for stability of democracy (expressed in
number of years of continuous democracy) were available for 23 countries.
Deaths from political violence. As a measure of political instability the data by
Taylor and Jodice (1983) on deaths of political violence between 1948 and 1977
were used. This measure was corrected for population size, and available for all
countries but one.
Comparison Theory
Gini index. The Gini index expresses the degree of income inequality in a
society. Indices for 21 countries, ranging from 1986 to 1995, were collected from the
World Development Report (World Bank, 1999). A higher value denotes more
inequality.
Economic growth. Average annual growth of the Gross Domestic Product
(GDP) between 1980 and 1987 was retrieved from the World Development Report
1989 (World Bank, 1989) and available for 27 countries.
Folklore Theory
Eysenck Personality Questionnaire. Studies reporting means on the four
scales of the Eysenck Personality Questionnaire (EPQ; Eysenck & Eysenck, 1975)
Beck Depression Inventory 17
were collected across 38 countries. The four scales are the EPQ-P (Psychoticism),
the EPQ-E (Extraversion), the EPQ-N (Neuroticism), and the EPQ-L (Social
Desirability). The data set includes 153 studies, providing data for 333 separate
samples, and is described in more detail in Van Hemert et al. (submitted). Data on
the EPQ scales were available for 24 countries in the BDI data set.
Hofstede’s measures. Data for 27 countries were available on Hofstede’s
(1980, 2001) work-related values Individualism, Masculinity, Power Distance, and
Uncertainty Avoidance.
Values from Chinese Value Survey. The Chinese Culture Connection (1987)
reported factor scores of 22 countries (overlapping with 13 countries in the present
data set) on four dimensions of the Chinese Value Survey. The four dimensions
included Integration ('broadly integrative, socially stabilizing emphasis', but not
familial bonding), Confucian Work Dynamism (hierarchical work ethic), Human-
Heartedness ('gentleness, compassion', but also a 'legalistic approach'), and Moral
Discipline (moral self-control and moderation ('following the middle way')).
Schwartz’s Values. Schwartz (1994) provided data on values in 19 countries
of our sample. Factor analysis by Georgas et al. (submitted) yielded two bipolar
factors, labeled Autonomy and Hierarchy. Scores on these two dimensions were
used as indicators.
Demographic Hypotheses
Marital Status. Percentages of married females and males between 25 and 44
years old were taken from the Georgas and Berry (1995) database. Data were
available for 27 countries.
Religiosity. An analysis was done on a part of the 1990-1991 World Values
survey (Inglehart, 1993, 1997). This study included 47,871 participants from 39
Beck Depression Inventory 18
countries. It provided data on religion, including a range of topics related to religion,
like the meaning of life, religious services, the role of churches and praying. We
selected six items to fit in a scale measuring religiosity. Examples of items are “Do
you find that you get comfort and strength from religion?”, “How important is God in
your life?”, and “How often do you pray to God outside of religious services?”. The six
items yielded a one-factor solution in factor analysis at country level, with an
eigenvalue of 5.39 (89.8% of variance explained). Cronbach’s alpha was .85. Data
on religion were available for 21 countries.
Unemployment. The percentage of unemployment in 1987 was available for
23 countries (United Nations, 1993).
Results
Descriptives
Means, standard deviations, and values of Cronbach’s alpha for the different
versions of the BDI in every country appear in Table 1, Table 2, and Table 3.
Moderate levels of depression according to Beck and Steer (mean score between 17
and 29; cited by Apostolou et al., 1999) were found in Israel and Kuwait, whereas
mild levels of depression (mean score between 10 and 16) were found in India, Iran,
Hong Kong, Australia, Japan, and Turkey. Cronbach’s alpha was higher than .80 in
all countries but former West-Germany.
In order to be able to calculate correlations between BDI scores and country
characteristics, mean scores were aggregated at country level (weighted by sample
size) and then standardized within each of the three data sets. Subsequently the
three data sets were combined into one total data set. Again scores were aggregated
to country level to obtain one final score per country. A boxplot of standardized BDI
mean scores at country level revealed two outliers, Kuwait and Israel (Figure 1), both
Beck Depression Inventory 19
showing a z-score higher than 2.0. These countries (also) scored above the
threshold of 17 for mild depression as defined by Beck and Steer (Apostolou et al.,
1999). The Kuwait data were based on three samples from two studies (N = 274),
which were both published after the Gulf War. Possibly the influence of post-war
stress was visible in these studies (Al-Issa & Ismail, 1994; Lester & Abdel-Khalek,
1998). The Israel data (N = 574) were based on only one study in a Palestine sample
(Abdallah, 1997). Particularly in this group, the political situation is likely to enhance
feelings of unsafety and depression. The outliers used the 1961 version of the BDI,
but different translations. Kuwait and Israel were deleted from the data set, and
standardizations were carried out again in all three data sets before combining them
into the total data set, that was used for further analysis.
<Figure 1>
Correlations at Individual and Country Level: Establishing Functional Equivalence
<Table 4>
To establish functional equivalence of depression at individual and country
level, the relationships of BDI scores with other variables were examined at both
levels. The nature of correlations at both levels with selected context variables is
shown in Table 4. The individual level data were derived from studies discussed
before, complemented with information from Beck et al. (1988). The country level
data were derived from the total data set of the present study. Correlations with
income and education showed the same pattern across levels, but suicide rate and
alcohol use did not. Although the correlations with the EPQ scales showed the same
pattern at individual level and country level except for EPQ-L, none of the country
level correlations with EPQ scales reached significance. The small number of
countries might explain the absence of significant correlations at this level. Notable
Beck Depression Inventory 20
differences between individual level and country level occur for suicide rate and
alcohol use. The overall similarities seem to suggest that functional equivalence of
the BDI can be assumed.
Correlations with Country Level Variables: Hypothesis Testing
Pearson correlations and significance levels were calculated both in the
regular way and with a bootstrapping procedure. For each correlation coefficient
10,000 bootstrapped samples were drawn with replacement from the original data
set. The advantage of this procedure is not having to rely on the bivariate normality of
the data and applicability to small samples.
General Hypotheses
<Table 5>
Measures of both subjective well-being and happiness showed negative
correlations with depression scores (Table 5). Thus, the first hypothesis was
supported. Although both depression prevalence rates correlated positively with BDI
scores, only one reached significance. Thus, the second hypothesis remains open.
Suicide rate was negatively related to depression, a rather unexpected finding, that
contrasts with other reports (Lester, 1988, 1986). This disconfirms the third
hypothesis.
Livability Theory
In general a higher level of Affluence was related to a lower level of
depression. This finding is in agreement with prior findings on the relationship
between subjective well-being and GNP per capita (e.g., Diener et al., 1993). Political
variables also showed a homogeneous picture: Political Rights and Democracy, civil
rights, and the stability of democracy all correlated negatively with the BDI mean
score. These findings indicate that the livability theory (fourth hypothesis) was
Beck Depression Inventory 21
supported. A factor analysis of all variables testing the livability theory resulted in a
one-factor solution with an eigenvalue of 7.20, explaining 79.98% of variance. The
significant negative correlation between BDI score and factor scores on this Livability
factor (Table 5) confirms this conclusion.
Comparison Theory
The correlation between the Gini index, indicating equality of income
distribution, and BDI scores was not significant, contrary to expectation. Hypothesis 5
could not be confirmed. However, the correlation between economical growth and
depression was significant in the bootstrap procedure: Hypothesis 6 was confirmed.
In sum, social comparison does not appear to be associated with depression, but
lifetime comparison does.
Folklore Theory
None of the EPQ scales correlated significantly with BDI score. Hofstede’s
measures were related both positively (Masculinity and Power Distance) and
negatively (Individualism) to BDI scores, largely replicating earlier mentioned findings
by Arrindell et al. (1997). The Chinese Integration value correlated negatively to BDI,
and the Confucian Work Dynamism dimension showed a significant positive
correlation, but only when bivariate normality was assumed. Finally, Schwartz’s
Autonomy factor was negatively related to BDI. This finding is in agreement with
results reported by Sagiv and Schwartz (2000), who found values concerning
achievement, self-direction and stimulation to be positively correlated with the
affective component of subjective well-being across three cultural groups. It is difficult
to conclude whether this evidence does or does not support the rather unspecific
predictions of the folklore theory.
Demographic Hypotheses
Beck Depression Inventory 22
None of the demographic hypotheses were confirmed. Percentages of married
females and males were positively correlated with the level of depression,
contradicting expectations. Correlations with religiosity and the percentage of
unemployed persons were not significant.
In sum, it can be concluded that wealthy, egalitarian, individualistic, and
politically stable countries appear to be less depressed. These findings mainly
support the livability theory.
Further Exploration of Country-Level Correlations
In general, country-level variables tend to be correlated with GNP. To explore
which other factors are relevant, relationships between depression and country level
indicators were further explored by (1) splitting the sample into more and less affluent
countries and (2) calculating partial correlations controlling for GNP per capita. More
affluent countries (N = 14) were defined as having a GNP per capita (data from 1987)
higher than the median of the distribution (9,210 US$). Less affluent countries (N =
14), consequently, had a GNP lower than 9,210 US$. The difference between the
two subsample correlations was tested for statistical significance by evaluating the
difference between the z-values of the correlation coefficients of both subsamples
(Hays, 1988, p. 591). For five variables a significant (p = .05) difference was found
between correlations of the two subsamples. A significant difference between more
and less affluent countries appeared in the correlation between suicide rate and
depression. Whereas a negative significant correlation was found for affluent
countries (r = -.70), a non-significant (but positive) correlation of .22 was found for
less affluent countries. Also, the difference in correlations between the Gini index and
depression was significant. In affluent countries income inequality was positively
correlated with depression (the more unequal, the more depressive; r = .46), in less
Beck Depression Inventory 23
affluent countries the opposite was true (r = -.48). Hofstede’s Masculinity score also
showed different correlations (p = .05) in the two subsamples; in affluent countries a
high level of masculinity went together with a high level of depression (r = .77),
whereas in less affluent countries the opposite was the case (r = -.42). This finding is
congruent with Arrindell et al.'s (1997) results on subjective well-being, reported
before. Human-Heartedness correlated positively with BDI scores for affluent
countries (r = .84), whereas in less affluent countries a negative (although non-
significant) correlation of -.27 was found. Correlations with Moral Discipline also
differed significantly for the two subsamples (p = .05). Both correlations were positive
(resp. r = .12 and r = .79). A relationship between wealth and depression could not
be established in either subsample, in contrast to findings on subjective well-being in
poor and rich countries (Inglehart, 1997).
Briefly summarized, in more affluent countries depression levels correlated
positively with the Gini index, Neuroticism, Masculinity, Human-Heartedness, and the
percentage of married males, while negative correlations were found with variables
related to happiness, prevalence of depression, political rights, livability and with
suicide. Less affluent countries only showed significant correlations of depression
with the percentage of married females (positive) and Autonomy (negative). Thus,
Inglehart’s (1997) finding, that only for less affluent countries GNP shows a
relationship with well-being, could not be replicated.
Partial correlations, controlling for GNP, left only four significant correlations.
Inglehart’s well-being (r = -.53, p < .01), Confucian Work Dynamism (r = .64, p < .05),
Human-Heartedness (r = .60, p < .05), and Schwartz’s Autonomy (r = -.56, p < .05)
correlated with mean BDI score.
Discussion
Beck Depression Inventory 24
In the present study differences between countries in the level of depression,
as measured by the Beck Depression Inventory, were investigated. Two research
questions were addressed. First, the equivalence of BDI scores across different
levels of analysis was examined. Patterns of correlations with context variables were
compared at individual level and country level. In general, meanings of depression
appeared to be reasonably similar at individual and country level. Differences
occurred for suicide rate and alcohol use. Myers (1992) reported a similar
inequivalence: Countries with higher levels of well-being also have higher suicide
rates, while obviously individuals attempting suicide experience relatively low levels
of well-being. It is not clear what the factors are behind these findings. However, both
suicide and alcohol use (death by liver cirrhosis) correlated significantly with GNP per
capita (resp. r = .59, p < .01, and r = .46, p < .05). This points to several possibilities.
First, suicide may be more visible in richer countries. Also, suicide may be more
accepted as a way to solve problems. Alcohol use may be related to GNP because
alcohol is more easily available in wealthier countries. Alternatively, other ways to
deal with problems are more common in poorer countries. Differences in correlations
with the EPQ scales were quite small, except for the EPQ-L. Van Hemert et al.
(2001) studied equivalence of the four EPQ scales at individual level and at country
level, and found unsatisfactory equivalence for both the EPQ-P and the EPQ-L.
Therefore, it may well be that differences in meaning of the EPQ-L at individual and
country level contributed to the difference in correlations with BDI scores. Further,
small sample sizes at country level may have prevented correlations from reaching
significance. A negative answer to this first question would imply that the second
question would be difficult to analyze. We concluded that overall the evidence was
Beck Depression Inventory 25
sufficiently positive on functional equivalence across levels to allow analysis of the
second question.
Second, an attempt was made to explain country differences in BDI score in
terms of contextual factors. As for the concepts of depression and subjective well-
being, BDI scores were negatively correlated with subjective well-being measures.
Furthermore, prevalence rates of clinical depression were positively correlated with
depression score levels. The relatively low level of correlations can be explained by
considering the nature of the populations involved. As self-reported depression
inventories rely on the voluntary participation of individuals, extremely depressed
participants are likely to be missed in questionnaire studies of non-clinical samples.
Mean depression scores were lower in affluent countries, that is countries with
a high GNP, a high level of education, and a high level of information available
through media. Also, countries with a low level of depression were more egalitarian,
more democratic, and had more civil, human, and political rights. All these findings
confirm the livability theory, explaining happiness through objective living conditions
like income and education. This theory gets most support from the present results.
These findings are in line with results reported by Veenhoven (1995, 1999), Diener et
al. (1995), and Arrindell et al. (1997).
For the comparison theory, claiming that happiness is dependent on
comparison with other times' or other people's conditions, little support was found, as
only economic growth was related to depression. This latter finding is not in
agreement with Diener and Oishi (2000), who concluded from an examination of
Veenhoven’s surveys that people in countries with high economic growth did not
report more happiness.
Beck Depression Inventory 26
Also for the folklore theory, stating that happiness is a reflection of the national
character of a country, only mixed evidence was found. Some variance could be
explained by national character of a country, but mostly this was a function of GNP.
Some value indices, Confucian Work Dynamism, Human-Heartedness and
Schwartz's Autonomy, were related to depression when GNP was controlled for. An
obvious difficulty with folklore theory is the lack of precision of the predictions that
can be derived from it. Any significant correlation provides supporting evidence, even
independent of sign.
In general, several reasons can be named for the sometimes unclear results.
First, many of the samples in the data set consisted only of students. Possibly, these
samples are not representative. In poor countries students are relatively rich, in rich
countries they are relatively poor (Diener et al., 1993). Apart from their extreme
economic position (either relatively rich or relatively poor), student samples tend to
be uniform in many other aspects. This argument was supported by Veenhoven
(1995), who found the correlation between average happiness and GNP per capita to
be larger in a general population than in a student population. Second, besides
differences in means a shift in symptoms could take place, with more somatic and
psychological symptoms scoring higher in one country than another. No raw data
were available to do analyses on this point. A third reason is the presence of cultural
bias. Bias can limit the validity of findings considerably (cf. Van de Vijver & Leung,
1997). For example, item bias should be taken seriously in cross-cultural
administration of instruments. Byrne and Campbell (1999) illustrated this by showing
that BDI item scores can vary across countries even when the factorial structure is
equivalent cross-culturally. Unfortunately, the lack of raw scores at item level in the
present data set did not allow for an investigation of item bias. Another source of bias
Beck Depression Inventory 27
could emerge from the composition of the sample. It is clear that western, affluent
countries are overrepresented in the present study. Splitting the sample in more and
less affluent countries partly controls for this, but at the same time implies a
restriction of range. A third kind of bias pertains to the indicators. Some indicators like
GNP and suicide rate are proxies for psychological variables with partly unknown
ramifications.
In summary, depression scores seemed sufficiently equivalent at the individual
level and country level to allow country-level analyses with individual-level data.
Cross-national differences in depression among normal samples were found to be
connected to mainly economical and political variables. These connections could be
best explained in terms of livability theory. At the same time, these variables did not
explain all variance in depression. Psychological variables at the level of nations
should be explored further to obtain a more differentiated picture of processes related
to levels of depression across countries.
Beck Depression Inventory 28
Acknowledgement
The authors would like to thank Jim Georgas from the University of Athens for
providing the data on the Affluence indicator.
Beck Depression Inventory 29
Footnote
1Depression refers to country-level mean scores on the BDI
Beck Depression Inventory 30
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Beck Depression Inventory 41
Table 1
Study Characteristics of the 1961-Version Data Set
Number of BDIa
Country Resp. Samples Mean SD Alpha
Australia 225 3 7.57 6.50 --
Bulgaria 691 1 9.14 -- --
Canada 2140 13 8.85 5.84 0.82
China 100 1 6.68 4.18 --
Denmark 217 1 5.00 0.40 --
Finland 285 4 2.59 1.17 --
Germany West 42 1 5.30 -- 0.60
Greece 37 1 4.89 5.40 --
Iceland 187 2 5.77 5.50 --
India 490 3 10.71 7.02 0.88
Iran 405 1 11.35 -- 0.82
Ireland 359 3 7.32 6.57 0.85
Israel 574 2 17.75 10.02 0.91
Italy 445 6 8.16 6.46 --
Kuwait 274 3 16.59 9.27 --
Netherlands 359 3 4.62 4.98 0.82
New Zealand 844 4 7.64 7.03 0.88
Nigeria 180 1 7.30 7.90 --
Norway 100 1 5.92 5.33 --
Spain 1524 3 7.34 7.09 --
Sweden 3913 5 6.18 6.37 0.89
Beck Depression Inventory 42
United Kingdom 4481 14 7.25 5.85 --
USA 5456 34 6.75 6.37 0.85
Hong-Kong 2780 7 11.44 8.29 0.86
Total mean 26108 117 7.98 6.50 0.86
aAll numbers are weighted by sample size
Beck Depression Inventory 43
Table 2
Study Characteristics of the 1978-Version Data Set
Number of BDIa
Country Resp. Samples Mean SD Alpha
Argentina 608 2 8.46 7.26 0.86
Australia 1343 3 9.55 7.50 0.86
Brazil 3203 6 8.47 6.69 0.83
Canada 139 3 7.53 4.61 --
Greece 98 1 8.17 6.69 0.86
Japan 116 2 10.99 8.04 --
Mexico 1012 12 7.64 7.58 --
Netherlands 10 1 1.00 1.10 --
Spain 2407 5 6.44 5.81 0.83
Turkey 1514 4 13.06 7.88 --
United Kingdom 47 1 4.60 4.20 --
USA 1602 13 8.56 6.63 0.86
Hong-Kong 675 3 10.86 7.90 0.86
Total mean 12774 56 8.81 6.88 0.85
aAll numbers are weighted by sample size
Beck Depression Inventory 44
Table 3
Study Characteristics of the Short-Version Data Set
Number of BDIa
Country Resp. Samples Mean SD Alpha
Australia 1659 5 3.45 4.25 0.88
Canada 499 2 7.28 6.07 --
Finland 1070 4 2.69 2.88 0.73
France 376 3 2.85 2.50 --
Germany West 60 1 3.72 3.24 --
Iran 305 1 8.03 3.29 0.83
Netherlands 156 1 2.80 3.50 --
New Zealand 1091 16 2.50 3.09 0.81
Total mean 5216 33 3.67 3.68 0.84
aAll numbers are weighted by sample size
Beck Depression Inventory 45
Table 4
Correlations Between BDI Score and Context Variables Within Countries and
Between Countries
Context variables Individual levela Country levelb
Income (SES) - -.46*
Educationc - -.54**
Suicide + -.46*
Alcohol used + -.25
Anxietye + -.02
EPQ-P + .29
EPQ-E - -.05
EPQ-N + .23
EPQ-L - .23
aResults are based on literature reviewed in the introduction section, and studies
reported by Beck et al. (1988)
bResults are based on analyses from the present study
cAt country level measured by the Education factor (Georgas & Berry, 1995),
consisting of the teacher-pupil ratio in the first level, the gross enrollment in the
second and the third level, and the percentage of adult illiterates
dAt country level measured by death rate through liver cirrhosis (United Nations,
1990a)
eAt country level measured by mean scores on the question ‘How often do you feel
nervous or tense at work?’ (Hofstede, 1976) as cited in Lynn (1981), with reversed
sign
Beck Depression Inventory 46
*p < .05 **p < .01
Beck Depression Inventory 47
Table 5
Correlation Coefficients and Significance Levels (Regular and After Bootstrapping) Between Standardized BDI Scores and Context
Variables for More Affluenta and Less Affluent Countries
BDI
Context variables N
countries
Total sample More affluent countries
(Nmax = 14) a
Less affluent countries
(Nmax = 14)
General hypotheses
Subjective Well-Being
Diener 24 -.46*† -.42 -.29
Inglehart 23 -.66**†† -.74**†† -.49
Happiness (Veenhoven, 1999) 26 -.24†† -.59*† -.03
Prevalence rates
Unipolar major depression 28 .19 -.52†† -.23
Bipolar affective disorder 28 .33† -.50 .24
Suicide rate 23 -.46*† -.70*†† .22
Beck Depression Inventory 48
Livability theory
Affluence 28 -.50**†† -.18 -.31
Gross National Product 28 -.46*†† -.14 -.18
Political Rights and Democracy 25 -.46*†† -.73**†† -.33
Civil rightsb 23 -.46*† -.62*†† -.40
Level of democracy 23 -.29 .15 -.04
Stability of democracy 23 -.46*† -.28 -.12
Death by political violence (corrected) 28 -.02 .12 -.16
Factor score Livability 20 -.40† -.62*† -.11
Comparison theory
Gini Index 20 .17 .46† -.48
Economic growth 25 .34† .45 .34
Folklore theory
Eysenck Personality Questionnaire
Psychoticism (EPQ-P) 23 .29 .33 .13
Extraversion (EPQ-E) 23 -.05 .18 -.19
Beck Depression Inventory 49
Neuroticism (EPQ-N) 23 .23 .49† -.11
Social Desirability (EPQ-L) 22 .23 -.10 -.10
Hofstede's Measures
Individualism 26 -.45†† -.07 -.26
Masculinity 26 .38† .77**†† -.42
Power Distance 26 .50**†† .40 .30
Uncertainty Avoidance 26 .07 .36 -.26
Chinese Values
Integration 13 -.67*† -.41 -.68
Confucian Work Dynamism 13 .64* .33 .76
Human-Heartedness 13 .48 .84**†† -.27
Moral Discipline 13 .40 .12 .79
Schwartz’s Values
Autonomy factor 18 -.62**†† -.36 -.72*††
Hierarchy factor 18 .35 .44 .05
Demographic hypotheses
Beck Depression Inventory 50
Percentage of married females 25 .65**†† .41 .74**††
Percentage of married males 25 .52**† .40† .43
Religiosity (Inglehart, 1997) 21 .29 .36 .10
Percentage unemployed 22 -.12 .07 -.36
aMore affluent countries have a GNP (1987) higher than 9210 US$, less affluent countries have a GNP lower than 9210 US$
bOriginal sign changed
*p < .05 **p < .01 (conventional significance test)
† p < .05 †† p < .01 (significance in bootstrap prcedure)
Beck Depression Inventory 51
Figure Caption
Figure 1. Boxplot of standardized mean BDI scores