The Relationship Between Neurocognitive Functioning and Occupational Functioning in Bipolar Disorder: A Literature Review


Literature Reviews

The Relationship Between Neurocognitive Functioning and Occupational
Functioning in Bipolar Disorder: A Literature Review

Walace Duartea, Rodrigo Becerra*a, Kate Cruisea

[a] School of Psychology and Social Sciences, Edith Cowan University, Joondalup, Western Australia, Australia.

Abstract
Neurocognitive impairment in Bipolar Disorder (BD) has been widely reported, even during remission. Neurocognitive impairment has been
identified as a contributing factor towards unfavourable psychosocial functioning within this population. The objective of this review was to
investigate the association between neurocognitive impairment and occupational functioning in BD. A literature review of English-language
journal articles from January 1990 to November 2013 was undertaken utilising the PsychINFO, Scopus and Web of Knowledge databases.
Studies that made specific reference to occupational outcomes were included, and those that reported on global psychosocial measures were
excluded. Majority of the papers reviewed (20 out of 23) identified an association between neurocognitive impairment (particularly in executive
functioning, verbal learning and memory, processing speed and attention) and occupational functioning. Several methodological issues were
identified. There was a discrepancy in the measures used to assess neurocognitive function across studies and also the definition and
measurement of occupational functioning. The clinical features of the samples varied across studies, and confounding variables were
intermittently controlled. The review focused on English-language papers only and hence there is a bias toward the Western labour market.
These limitations therefore influence the generalizability of the interpreted findings and the reliability of comparisons across studies.
Neurocognitive impairment in BD appears to play a role in occupational outcomes. The findings of this review highlight the challenges for
future research in this area, particularly in the measurement of neurocognitive and occupational functioning. Incorporating neurocognitive
interventions in the treatment of BD, which has traditionally focussed solely on symptomatic recovery, may advance the vocational rehabilitation
of these patients.

Keywords: bipolar disorder, neurocognition, functioning, occupation, employment

Europe's Journal of Psychology, 2016, Vol. 12(4), 659–678, doi:10.5964/ejop.v12i4.909

Received: 2015-01-02. Accepted: 2016-06-21. Published (VoR): 2016-11-18.

Handling Editor: Odin van der Stelt, EJOP Senior Editor, The Netherlands

*Corresponding author at: Edith Cowan University, 270 Joondalup Drive, Joondalup, Western Australia, 6027, Australia. Phone: +61 8 6304 2786. E-mail:
r.becerra@ecu.edu.au

This is an open access article distributed under the terms of the Creative Commons Attribution License
(http://creativecommons.org/licenses/by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the
original work is properly cited.

Bipolar Disorder (BD) is a chronic mood disorder characterised by episodes of elevated mood, typically alternating
with episodes of depression. The DSM-V (American Psychiatric Association, 2013) identifies four subtypes:
Bipolar Disorder I (BD I), Bipolar Disorder II (BD II), Cyclothymia and Bipolar Disorder not otherwise specified.
BD I is characterised by manic or mixed (including psychotic) episodes, normally with major depression. BD II is
characterised by moderate elevations in mood (hypomania) and episodes of major depression. BD affects between
2.5-3.3% of Australian Adults (Zutshi, Eckert, Hawthorne, Taylor, & Goldney, 2011) and has been identified as
one of the most expensive of all mental illnesses. In 2004, the excess cost of BD in Australia was estimated between
$3.97 and $4.95 billion (Fisher, Goldney, Dal Grande, Taylor, & Hawthorne, 2007). BD is associated with a sub-
stantial risk of suicide; with the lifetime for BD at least 15 times that of the general population (American Psychiatric
Association, 2013). More than half those diagnosed with BD have comorbid alcohol use disorders, which further

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increases the risk of suicide and BD is also associated with high rates of comorbid anxiety, ADHD, and impulse
control disorders (American Psychiatric Association, 2013).

The multi-dimensional nature of BD (heterogeneous, episodic, recurrent) pose challenges for effective diagnosis,
treatment and management (Anderson, Haddad, & Scott, 2012). The treatment of BD has traditionally targeted
alleviating the effects of depression and mania. Even when symptomatic recovery is attained, significant functional
impairments often persist (Tohen et al., 2000). It has been suggested that measures of functional outcome provide
a more reliable indicator of response to treatment in BD than clinical measures such as a reduction in symptoms
(Keck, 2004).

Michalak and Murray (2010) define psychosocial functioning as a person’s ability to perform activities of daily living
and to engage in meaningful interpersonal relationships. Impairment in psychosocial functioning is a defining
feature of BD (American Psychiatric Association, 2013) and has been widely reported in the literature, even during
periods of remission (MacQueen, Young, & Joffe, 2001; Sanchez-Moreno et al., 2009). Difficulty maintaining es-
tablished relationships within the family and forming new relationships outside of the family have been reported
among individuals living with BD (Elgie & Morselli, 2007). In addition, individuals living with BD report reduced
quality of life (Michalak, Yatham, & Lam, 2005) and health related quality of life (Dean, Gerner, & Gerner, 2004).
Occupational functioning is an important aspect of psychosocial functioning that is also reduced among individuals
living with BD.

Occupational difficulties that have emerged from the literature include prevalent long term unemployment, difficulty
sustaining employment, reduced work efficiency and absenteeism (Dean et al., 2004). These difficulties appear
to increase over time and in response to multiple periods of acute illness (Zimmerman et al., 2010). Research in-
dicates that individuals living with BD experience significantly higher levels of unemployment compared with both
the general population and those with unipolar depression (Shippee et al., 2011; Waghorn & Lloyd, 2005). In their
review of the literature, Marwaha, Durrani, and Singh (2013) observed that over time, people with BD who remain
employed move into less demanding work roles. Issues around disclosure and stigma in the workplace (Michalak,
Yatham, Maxwell, Hale, & Lam, 2007) add another level of complexity to these concerns.

Factors that have been associated with impaired psychosocial functioning in BD include current symptomatology,
particularly depressive symptoms (Bauer et al., 2001; Martino et al., 2009; Simonsen et al., 2010), previous hos-
pitalisations and mixed episodes (Rosa et al., 2009), number of medications taken (Martínez-Arán et al., 2007)
and genetics (Levy & Manove, 2012). Neurocognitive impairment is another factor that has emerged from the re-
search and is thought to undermine psychosocial functioning in BD (Baune, Li, & Beblo, 2013; Tabarés-Seisdedos
et al., 2008).

Although diagnostically known as a mood disorder, BD patients also experience neurocognitive impairment
(Robinson et al., 2006). Reviews of the literature suggest that the cognitive deficit in BD is present among both
younger and older patients (Cahill, Green, Jairam, & Malhi, 2007; Delaloye et al., 2009) and occurs across subtypes
[i.e., in both BD I and BD II: (Bora, Yücel, Pantelis, & Berk, 2011)] with increased impairment evident in BD I (Sole
et al., 2012; Torres, Solé, Vieta, & Martínez-Arán, 2012). Neurocognitive impairment has been reported during
both acute mood and euthymic states (Andreou & Bozikas, 2013; Depp et al., 2012a; Kurtz & Gerraty, 2009;
Wingo, Harvey, & Baldessarini, 2009), with significant deficits identified for attention, processing speed, memory
and executive functioning (Torres, Boudreau, & Yatham, 2007).

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It is reasonable to suggest that neurocognitive functioning subserves not only complex, abstract processing but
also daily basis processing; therefore deficits in this area would have ramifications for occupational functioning.
For example, memory is utilised in skill acquisition, and attention is required for job performance. This suggests
that a substantial component of successful occupational outcomes rest upon satisfactory neurocognitive perfor-
mance.

Reviews to date have looked at the relationship between neurocognitive impairment and psychosocial functioning
in general, incorporating research articles that have primarily utilised global measures of functioning (Depp et al.,
2012a; Wingo et al., 2009). Two recent reviews focussed on the predictors of employment in BD. Gilbert and
Marwaha (2013) identified cognitive deficits, depression and level of education as predictors of employment in
BD. A meta-analysis conducted by (Tse, Chan, Ng, & Yatham, 2014) identified a relationship between cognitive
performance and favourable employment outcomes in BD, and mediating effects of years of education, course
of illness, and symptomatology. Executive functioning and verbal memory were highlighted as particularly relevant
cognitive domains underlying occupational functioning (Gilbert & Marwaha, 2013; Tse et al., 2014).

The following literature review will focus exclusively on the association between neurocognitive impairment in BD
and occupational functioning, incorporating a larger body of literature on this topic. The term occupational func-
tioning has been used so as to not only include studies that focus on employment, but also other related functions
that contribute to employment, such as work skills and pre-employment activities. It is expected that by examining
occupational outcomes this will provide a broader perspective in this area of functioning in BD.

Employment has been identified as a vital contributor for the wellbeing and quality of life for those with BD (Eklund,
Hansson, & Ahlqvist, 2004; Nordt, Müller, Rössler, & Lauber, 2007). This highlights the importance of occupational
activity for individuals living with BD, and highlights the potential for occupational functioning as a target for inter-
vention. It is anticipated that the findings from this review will contribute to the knowledge in this field, and inform
practitioners working directly in the rehabilitation of BD patients.

Methods

A search of the PsychINFO, Scopus and ISI Web of Sciences databases was conducted for relevant English-
language, peer-reviewed original journal articles, dating from January 1990 to November 2013. Research into
neurocognitive functioning within the BD population appears to have received more rigorous attention over the
last 10-15 years (Kurtz & Gerraty, 2009) and therefore the aforementioned time frame was selected.

A combination of the following three sets of terms were used in the search, joined by "AND" operators. The first
set identified the BD population; "Bipolar Disorder", "Bipolar I", "Bipolar II", "Affective Disorder", "Mood Disorder",
"Mania" or "Manic Depression". The second set identified the neurocognitive component; "Neurocogniti*", "Neu-
ropsych*", "Cogniti*", "Executive" or "Intellect*". The third group identified occupational functioning; "Vocation",
"Employ*", "Work", "Job", "Occupation*" or "Function*".

Results of this search were first screened for relevance via the title, then by inspection of the abstract. References
lists were also searched for relevant articles. Any uncertainty regarding the relevance of an article was taken to
the second author for a decision on inclusion or otherwise. A total of 46 articles were identified by this process.

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These 46 articles were then examined for specific reference to the relationship between neurocognitive factors
and occupational functioning. Twenty-one articles were excluded, mainly as a result of the use of global measures
of functioning (for example; Global Assessment of Function and the Social Adjustment Scale) and also a result
of failure to specifically identify occupational functioning.

The effect sizes for significant results are reported in Table A1. For studies where effect size data were not
available, effect sizes were calculated and converted to Cohen’s d or f2 (for regression). The standardised mean
difference (d) was calculated for studies involving between groups designs. For studies involving Chi-square and
correlational outcome data, χ2 and r values were converted to d. Cohen’s d was calculated for studies utilising
regression analysis that provided β values in conjunction with the standard deviation of the dependent variable
and sample size. For regression where R2 values were reported, R2 was converted to f2.

Results

Twenty-three articles were selected for inclusion in the current review (see Table A1). With no papers published
before 2004, and 17 since 2010, it is clear that research into the association between neurocognitive functioning
and occupational functioning in BD is a relatively new field that is gaining increasingly more interest.

The majority of studies (16) utilised outpatient participants and were primarily conducted in the USA (12) and
Spain (9), with single representations from England, Canada, Ireland and Norway. The following section will ex-
amine the assessment of neurocognitive functioning, the measurement of occupational functioning, and then the
relationship between these two factors.

Neurocognitive Assessment
The majority of studies (20) administered a battery of objective neurocognitive measures, primarily covering the
domains of executive functioning, verbal memory, attention, and processing speed. Exceptions included Gilbert
et al. (2010) who used a self-report assessment and a clinical interview to collect information regarding memory
and concentration and Altshuler et al. (2007) who used a structured interview to assess executive functioning.
Schoeyen and colleagues (2013) utilised a neurocognitive test battery to measure participants Full Scale IQ and
premorbid intellectual functioning, arguing that the various neurocognitive domains reflect general intellectual
ability. O'Shea et al. (2010) administered ecologically valid cognitive tests (daily, real-life tasks) to measure their
participant’s attention, memory and executive functioning.

Measures of Occupational Functioning
The methods used to assess occupational functioning varied widely between studies. Most commonly, participants
were categorised based on employment status (full-time, part-time or otherwise). Another method was to measure
occupational functioning or adaptation, using a particular instrument or by categorising participants into a "good"
or "poor" group based on occupational adaption. Finally, a small group used miscellaneous methods, beyond
these broad descriptions.

Nine studies (Altshuler et al., 2007; Depp et al., 2012b; Dickerson et al., 2004; Dickerson et al., 2010; Gilbert et
al., 2010; Mora, Portella, Forcada, Vieta, & Mur, 2013; Mur, Portella, Martínez-Arán, Pifarre, & Vieta, 2008; Mur,
Portella, Martínez-Arán, Pifarre, & Vieta, 2009; Ryan et al., 2013) measured occupational functioning by categorising

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participants into groups based on their employment status. Of these studies, the most common method involved
creating a ‘working vs not working’ dichotomy (Altshuler et al., 2007; Depp et al., 2012b; Dickerson et al., 2010;
Gilbert et al., 2010; Mur et al., 2009; Ryan et al., 2013). Other studies created a third grouping with the inclusion
of a "part-time" or "retired/disabled" group (Dickerson et al., 2004; Levy, Medina, & Weiss, 2013; Mora et al., 2013;
Mur et al., 2008). Definitions also varied within this employment status category, with Ryan et al. (2013) and
Dickerson et al. (2010) describing their "working" group as having attained full-time employment, whilst others
(Altshuler et al., 2007; Depp et al., 2012b; Gilbert et al., 2010; Mora et al., 2013; Mur et al., 2008; Mur et al., 2009)
including participants who were part-time employed.

A variety of formal assessment measures were also employed among studies to assess occupational functioning,
including: the Longitudinal Interval Follow-up Evaluation-Range of Impaired Functioning Tool (Godard, Grondin,
Baruch, & Lafleur, 2011), the Life Functioning Questionnaire (Bearden et al., 2011), the Vocational Status Index
(Wingo, Baldessarini, Holtzheimer, & Harvey, 2010), Functioning Assessment Short Test (Bonnín et al., 2010),
and the Social and Occupational Functioning Assessment Scale (O'Shea et al., 2010).

Martínez-Arán et al. (2004) examined occupational functioning, but by dividing participants into two groups - good
or poor - based on whether they worked at a good/acceptable level of functioning or otherwise. However, in sub-
sequent papers (Martínez-Arán et al., 2007; Tabarés-Seisdedos et al., 2008; Torrent et al., 2006), these researchers
measured occupational outcomes by way of occupational adaptation. They divided participants into "good" or
"poor" occupational adaptation groups, determined by a good/acceptable level of functioning most of the time,
versus those not working or exhibiting difficulties in their jobs.

Six papers employed other means of assessing occupational outcomes. Burdick, Goldberg, and Harrow (2010)
measured work disability with the Strauss-Carpenter work functioning rating scale; Bowie et al. (2010) examined
work skills using the Specific Level of Functioning Scale; Schoeyen et al. (2013) used receipt of a disability pension
to represent poor occupational outcomes; Bonnín et al. (2014) divided work participants into "good" or "poor" work
adjustment based on their participation in full- or part-time employment, or otherwise; and Murtagh et al. (2010)
considered participants work history for the last three years to create two groups - those that had worked for at
least six months during that time and those that had not.

The Relationship Between Neurocognitive Functioning and Occupational Functioning
Twenty studies identified a relationship between neurocognitive functioning and occupational functioning in BD.
The major finding reported among these studies was that neurocognitive impairment was associated with diminished
occupational functioning.

Just over half (12) of these studies utilised euthymic participants, and the same number of studies also excluded
individuals with recent substance abuse or dependence. Eight studies controlled for the effects of medication.
Nineteen of these studies incorporated solely BD populations (with or without healthy controls), whilst four included
other diagnostic categories such as schizophrenia (Bowie et al., 2010; Godard et al., 2011; Murtagh et al., 2010;
Tabarés-Seisdedos et al., 2008). Only Torrent et al. (2006) differentiated between BDI and BDII; noting that the
relationship between neurocognitive and occupational functioning was evident for both subtypes.

Of the 23 articles, 14 were cross-sectional, six were longitudinal and two were post-hoc design. Longitudinal
studies ranged from three months (Levy, Medina, & Weiss, 2013) to 15 years (Burdick et al., 2010). The most
common neurocognitive domains implicated in this relationship were: executive functioning (12), verbal learn-

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ing/memory (8), processing speed (5) and attention (5). Depp et al. (2012b) and Bowie et al. (2010) did not iden-
tify specific domains, instead reporting on overall neurocognitive functioning.

Bowie et al. (2010) noted that the relationship between neurocognitive functioning and work skills in BD was indirect
and was mediated by adaptive and social competence. The authors defined adaptive competence as the instru-
mental skills important for functioning independently, and social competence as the linguistic and verbal behaviours
essential for communication.

Of the three papers that did not find an association between neurocognitive functioning and occupational functioning,
Dickerson et al. (2010) noted that the processing speed domain approached significance for work adjustment in
their study, whilst Wingo et al. (2010) reported that their participants differed on various neurocognitive measures,
though not to a significant level. Schoeyen et al. (2013) failed to find a relationship between overall neurocognitive
functioning, as measured by IQ, and receipt of a disability benefit.

Discussion

The aim of this paper was to investigate the association between neurocognitive and occupational functioning in
BD. Of the papers reviewed, most (20) identified a relationship between impaired neurocognitive functioning and
reduced occupational functioning in BD. This is consistent with the findings of a recent systematic review and a
meta-analysis which considered predictors of employment in BD (Gilbert & Marwaha, 2013; Tse et al., 2014). The
current review identified a number of neurocognitive domains that appear to be particularly sensitive to changes
in occupational functioning including: executive functioning, verbal memory, processing speed and attention. Al-
though over half (14) of these papers were cross-sectional, seven longitudinal studies identified that the relationship
between neurocognitive impairment and reduced occupational functioning was stable over time, and that neu-
rocognitive assessment may provide prognostic information regarding occupational functioning in BD.

Although the relationship between neurocognitive impairment and reduced occupational functioning appears to
be stable over time, the current review indentified that certain cognitive domains are more sensitive to changes
in occupational functioning in longitudinal studies compared to cross-sectional studies. For example, reduced
performance on measures of verbal and working memory were found to be more strongly associated with reduced
occupational functioning overtime, and the strength of these effects were considered to be medium to large for
both verbal and working memory. Reduced performance on measures of verbal memory were also implicated in
reduced occupational functioning in cross-sectional studies suggesting that verbal memory is an important cognitive
domain over both short and long periods. Although working memory appeared to be an aspect of executive
function implicated in longitudinal studies, measures of executive function associated with cross-sectional studies
were somewhat variable. For example, verbal fluency and inhibition were more sensitive to changes in occupa-
tional functioning among follow-up studies and the strength of the effect varied substantially. One study reported
a small to medium effect size for verbal fluency (Ryan et al., 2013), whereas another study reported a large effect
size (Godard et al., 2011). Differences in methodology may underlie such discrepancies, and further information
regarding the strength of the relationship between measures of executive function and occupational functioning
is required, given that effect sizes could not be calculated for a number of studies.

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Clinical Variables
A number of studied identified residual depression as an important predictive factor of employment among BD
populations (Gilbert & Marwaha, 2013; Tse et al., 2014). Out of the studies reviewed, approximately half (12)
utilised euthymic participants in an attempt to control for the effects of depression. It should be noted though that
studies varied in how euthymic populations were defined. Generally (in 8 instances), a Hamilton Depression
Rating Scale score below 8 and a Young Mania Rating Scale (YMRS) score below 6 were used to characterise
euthymic states, usually stipulated over the last 3-6 months (7). There were variations from this, for example, in
two cases a YMRS score below 8 was used, and in another two cases euthymia was prospectively verified over
a period of 6 months. Although establishing a standard definition of euthymia remains a challenge (a meta-analysis
of cognitive deficits in euthymic BD patients identified 23 different descriptions [Robinson et al., 2006]), Torres et
al. (2007) suggest that minimal mood rating scores should be employed. In light of the potential effects of mood
on occupational functioning in BD, future research in this area should ideally include euthymic populations, defined
by stringent criteria.

A brief discussion is warranted regarding factors that can influence neurocognitive functioning in BD. There is
debate as to whether psychotropic medication, particularly anti-psychotics, polymedication regimes and high
dosages have an impact on cognitive function with some authors stating that the side effects of medication influence
cognitive functioning (Balanzá-Martínez et al., 2010; Torres, Solé, Vieta, & Martínez-Arán, 2012); whilst other
authors argue that the effects of medication on cognitive functioning in BD are minimal (Kurtz & Gerraty, 2009;
Robinson et al., 2006; Torres et al., 2007). Given the heterogonous nature of BD, medication regimes will vary
widely, therefore attempts to control for the effects of medication will ensure that the potential for neurocognitive
side-effects are minimised.

Another factor which has the potential to impact on cognitive function, and hence the relationship between neu-
rocognitive and occupational functioning, is comorbid substance abuse. Balanzá-Martínez et al. (2010) noted in
their review that neurocognitive functioning in BD is not only impaired by current and recent alcohol use, but even
following a period of abstinence from alcohol. In the current review, those studies that excluded participants based
on drug and alcohol dependence or abuse (13) varied in their defined periods of abstinence, with periods ranging
from 12 months to no current substance abuse/dependence issues (3). The longer participants can abstain from
alcohol and illicit drugs, the less likely these substances will have an effect on neurocognitive functioning. However,
it is noted that there is a high level of comorbidity between BD and substance abuse and/or dependence, alcohol
in particular (American Psychiatric Association, 2013) and excluding or controlling for current substance use may
influence the generalizability of research findings in the area. Future research in the area may benefit from reporting
the results with and without statistically correcting for substance use in order to examine the impact of comorbid
substance abuse more closely.

Wingo et al. (2009) identified other factors known to influence neurocognitive functioning in BD including age,
education, premorbid IQ, and course of illness or chronicity factors. History of psychosis was identified as factor
contributing to poor neurocognitive function (Wingo et al., 2009) and also poor occupational functioning (Levy et
al., 2013). There appears to be a complex relationship between these mediating factors and the outcome variables
for neurocognitive and occupational functioning. For example, Wingo et al. (2010) reported that the relationship
between neurocognitive and functional outcomes was reduced after adjusting for education and residual mood
symptoms. Similarly, Schoeyen et al. (2013) failed to find a correlation between either premorbid or current IQ
with receipt of either a full-time or part-time disability benefit (an indicator of poor occupational functioning), though

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a significant association emerged when clinical variables such as the number of hospitalisations for depressive
episodes and illness duration were considered.

Methodological Issues and Limitations
Neurocognitive Assessment

The first methodological issue relates to the assessment of neurocognitive functioning. The domains of cognitive
functioning assessed varied across studies, for example executive functioning (16 studies), verbal learning/mem-
ory (16), attention (15) and processing speed (11) were the most commonly measured domains. Six studies in-
cluded a measure of visual memory, and two included a measure of motor control and co-ordination.

The majority (21) of studies reviewed utilised a battery of standardised objective neurocognitive tests; however
the assessments comprising each ‘battery’ varied widely across studies. For example, the Trail Making Test B
(TMT-B) (11 papers), Controlled Oral Word Association Task (FAS) (11) and the Wisconsin Card Sorting Test
(WCST) (11) were the most commonly used assessments of executive functioning, however, only four studies
(Bonnín et al., 2010; Bonnín et al., 2014; Ryan et al., 2013; Tabarés-Seisdedos et al., 2008) used all three measures
in the same study. There was also inconsistency surrounding the cognitive domains that certain assessments
were alleged to be measuring. For example, although the TMT-A is widely used as a measure of processing speed
and the TMT-B task is thought to provide a measure of cognitive flexibility, and hence a measure of executive
function, the TMT-B task was used as both a measure of attention and executive function among the studies re-
viewed. Future research would benefit from a standardised battery of neuropsychological assessment and efforts
have been made to develop a standard neurocognitive assessment battery specifically for BD research (Yatham
et al., 2010). Yatham and colleagues identified executive functioning, verbal learning/memory, attention/vigilance,
visual learning, working memory, and speed of processing as important cognitive domains to be investigated in
BD research and proposed the use of the TMT-B, WCST, and Stroop Colour Word Association Tests as the most
valid measures of executive functioning. Yatham et al. (2010) note that a standard battery of neurocognitive as-
sessments for BD, offer researchers not only the opportunity to meaningfully interpret and compare results across
studies, but also the ability to pool and analyse results over a larger sample size (e.g. meta-analysis). The authors
emphasise though that in the absence of psychometric validation and further research, these are only introductory
steps towards compiling a standard neurocognitive assessment battery for BD.

The association between neurocognitive functioning and occupational functioning also emerged in a small group
of research which utilised non-standardised neurocognitive assessments (Altshuler et al., 2007; Gilbert et al.,
2010; O'Shea et al., 2010). O'Shea et al. (2010) and Gilbert et al. (2010) offer particularly unique perspectives on
this matter. O'Shea et al. (2010) administered ecologically valid neurocognitive tests, indicating that there is no
definitive relationship between successful daily functioning and the results of standardised cognitive tests. Gilbert
et al. (2010) used a self-report assessment of neurocognition, specifically targeting concentration. Both Gilbert et
al. (2010) and O'Shea et al. (2010) suggested that utilising ecologically valid measures of neurocognitive functioning
that reflects performance in a specific context or area of functioning (e.g., occupational functioning), may help to
improve predictions of employment trajectory. Burdick, Endick, and Goldberg (2005) report in their study that al-
though self-reported cognitive impairments failed to correlate with objective neurocognitive assessments, the
former measures do provide practitioners with valuable information, particularly regarding treatment adherence.
Further research into the ecological (face) validity of neurocognitive assessments, and the utilisation of either
subjective or objective measures, in light of occupational activity, is warranted.

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Occupational Functioning

The second methodological issue concerns the definition and measurement of occupational functioning, which
varied widely between papers reviewed. Classifying occupational status as ‘working’ or ‘not working’ provided the
strongest indicator of occupational functioning across studies and consequently was the most common measure
employed by studies in this review. Variations within this dichotomous approach were noted, with part-time work
sometimes excluded from the ‘working’ group (Dickerson et al., 2010; Ryan et al., 2013). Occupational functioning
was also measured using a range of instruments, with one group of researchers measuring occupational adaptation,
whilst others considered work disability, work skills, and even participant progress towards engagement in voca-
tional services as measures of occupational functioning. Schoeyen et al. (2013) offered a novel perspective by
using receipt of a part- or full-time disability benefit as a measure of poor occupational functioning. This method
poses some important limitations, for example, some participants may have been working and receiving a (partic-
ularly part-time) disability benefit. Tse and colleagues (2014) suggest that other indicators of occupational func-
tioning should be considered, such as absenteeism, job satisfaction and whether a job matches the person’s
qualifications or skills. All these indicators reflect the breadth of occupational outcomes, and highlight the extent
of occupational impairment in BD. This diversity in the way in which occupational functioning is defined and
measured limits the opportunity for comparison between studies.

Information regarding occupational functioning was collected by variety of methods including self-report, clinician-
report and performance-based measures. All methods of measurement are limited in some form, for example,
self-report bias, inter-rater variability in clinician-based measures, and the narrow representation of functioning
in performance-based measures (Baune et al., 2013). In their review of psychosocial outcomes in BD, MacQueen
et al. (2001) noted that functional impairments were less when participants were defined as employed or not, than
when self-reported effects of illness on psychosocial functioning were identified. The authors go onto explain that
performance-based measures can miss more subtle deficits in the participants functioning, and also ignores the
participants view of their own level of functioning. Depp et al. (2012b) on the other hand, reported in their meta-
analysis that real world outcomes, such as employment and performance-based measures of functioning
demonstrated stronger associations with cognitive abilities than self-report and clinician-rated measures. Further-
more, Wingo et al. (2009) report that indicators such as employment may provide a more objective measure of
real-world functional performance. In summary, although there are limitations to the various methods of measuring
occupational functioning, an objective performance-based indicator such as employment status may provide a
real-world measure of occupational functioning, which also facilitates comparisons made between studies.

A potential bias regarding occupational functioning is noted with regards to the inclusion criteria for this review.
Limiting the search to English-language studies restricts cross-cultural comparisons, and also tends to reflect
Western labour markets. This may pose different consequences for occupational functioning (e.g. employment
opportunities) to other economies.

Methodological Limitations
Sample size and therefore statistical power varied across studies, with only 12 papers involving samples greater
than 100 participants. Differences in sample size and characteristics make it difficult to generalize interpretations
across studies. The clinical samples comprising each study also carried widely. Some studies did not distinguish
between BD I and BD I and others incorporated other diagnoses such as schizophrenia. It is therefore difficult to
generalise across studies given the heterogeneous nature of BD. The majority of the studies reviewed were cross-

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Duarte, Becerra, & Cruise 667

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sectional, and this also limits the long term generalisations and inferences regarding causal directions for the re-
lationship between cognitive and occupational functioning in BD.

Future Directions and Implications
Despite these limitations the research at hand does seem to suggest that neurocognitive impairment is associated
with (and may predict) diminished occupational functioning in BD, and this has important implications for rehabil-
itation practitioners. Given that most jobs require a degree of memory and attention, it follows that interventions
targeting neurocognitive functioning may help to improve occupational functioning. Harvey et al. (2010) suggested
that cognitive remediation interventions (cognitive training and exercises aimed at improving neurocognitive
functioning), which have been successfully implemented with schizophrenia patients for the last four decades,
may also assist BD populations. Indeed, in the first study of its kind utilising a homogenous BD sample, Deckersbach
et al. (2010) reported that cognitive remediation, in combination with CBT aimed at depressive symptoms, resulted
in improved occupational functioning, which was also associated with improvements in executive functioning.
More recently, Torrent et al. (2013) evaluated the efficacy of a functional remediation program among a sample
of euthymic patients with BD. This intervention involved exercises to improve memory, attention, and executive
function in order to enhance daily routine. These authors reported that the intervention was associated with signif-
icant improvements in functional outcomes compared to treatment as usual, however functional remediation was
no more effective than psycho education. A randomised controlled trial conducted by Demant et al. (2013) also
demonstrated significant improvements neurocognitive and functional outcome measures as a result of undertaking
a group-based cognitive remediation program. In their review of studies where cognitive remediation was used
with schizo-affective and affective disorders, Anaya et al. (2012) note that effect sizes were comparable with those
obtained from the research on schizophrenia. Although limited, these findings suggest that targeting neurocognitive
deficits through cognitive remediation can play an effective part in the treatment of BD. This appears particularly
promising for the occupational outcomes of BD patients.

In summary, the current review identified a relationship between impaired neurocognitive and occupational func-
tioning in BD. Specifically that neurocognitive impairment in the domains of executive functioning, verbal memory,
and processing speed and attention impedes occupational functioning in BD. A comparison of longitudinal and
cross-sectional studies indicated that the relationship between neurocognitive impairment and reduced occupa-
tional functioning persists over time. Reduced performance on verbal and working memory emerged as important
factors for predicting occupational functioning over time, whilst performance on measures of executive functioning
were more variable with regards to cross-sectional studies. Clinical variables including residual depression, clas-
sification of euthymia and BD diagnoses, medication, premorbid IQ, history of psychosis, illness factors including
number of hospitalizations, and co morbid substance abuse and/or dependence were identified as important
variables for consideration when evaluating the relationship between neurocognitive and occupational functioning.

There were a number of methodological limitations associated with the variety of neuropsychological assessments
employed across studies and the definition and measurement of occupational status that make it difficult to gen-
eralise across studies. In lights of these limitations, assessment of neuropsychological function among BD popu-
lations is argued to provide important information with regards to occupational functioning, and information for
clinicians with regards to rehabilitation options for improving functional outcomes including occupational functioning.

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Funding
The authors have no funding to report.

Competing Interests
The authors have declared that no competing interests exist.

Acknowledgments
The authors have no support to report.

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Appendix

About the Authors

Mr Walace Duarte is a Clinical Psychologist Registrar who completed a Masters in Clinical Psychology at Edith Cowan Uni-
versity. He has a background in employment services and mental health, community mental health, and drug and alcohol
services. Contact: Faculty of Computing, Health and Science Edith Cowan University, 270 Joondalup Drive, Joondalup Perth,
WA 6027, Australia.

Dr Rodrigo Becerra is a senior Lecturer at Edith Cowan University and a senior Clinical Psychologist at Alma Street Centre,
Fremantle Hospital, Perth, WA. He is the Director of the Psychopathology Research group at Edith Cowan University and
specializes emotions and psychopathology. Contact details: School of Psychology and Social Science (Room 30.129). Faculty
of Computing, Health and Science Edith Cowan University, 270 Joondalup Drive, Joondalup Perth, WA 6027, Australia.

Dr Kate Cruise is undertaking a Masters in Clinical Psychology with Edith Cowan University. Her research background involves
the assessment of neuropsychological and psychosocial functioning of clinical populations including Bipolar Disorder and
Parkinson ’s disease. Contact details: School of Psychology and Social Science. Faculty of Computing, Health and Science
Edith Cowan University, 270 Joondalup Drive, Joondalup Perth, WA 6027, Australia.

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2016, Vol. 12(4), 659–678
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http://dx.doi.org/10.5172%2Fjamh.4.2.129
http://dx.doi.org/10.1111%2Fj.1399-5618.2010.00808.x
http://dx.doi.org/10.1111%2Fj.1399-5618.2009.00665.x
http://dx.doi.org/10.1111%2Fj.1399-5618.2010.00830.x
http://dx.doi.org/10.1111%2Fj.1399-5618.2010.00869.x
http://dx.doi.org/10.1111%2Fj.1399-5618.2011.00907.x
http://www.psychopen.eu/


Table A1

Details of Neurocognitive and Occupational Research for BD

Results [Effect Size (ES) d or f2]

Effects of

Medication

Controlled

Occupational

Functioning

Measure

Neurocognitive Domains

MeasuredStudy typeSampleStudy

EXIT composite scores predicted work status

(d = .77)

YesEmployment status;

employed vs

unemployed

Structured interview (EXIT);

executive functioning

(perseveration, response

Cross-sectional

study

Total (BD I/II) N = 213

MAge = 43.33

Male = 91%

Altshuler et al. (2007)

set-switching, generation de

novo of stories, generation of

word lists, interference)

Occupationally Recovered BD participants

performed better on: Episodic Memory

YesOccupational

functioning (Life

Neurocognitive assessment

battery; processing speed,

Longitudinal

study

Total (EBD I) N = 79

MAge = 36.6

Male = 53%

Bearden et al. (2011)

(CVLT total, immediate, delayed, recognition

d = .80); Visual Scanning (Span of

Functioning

Questionnaire)

Occupationally

Recovered vs

Unrecovered

working memory/attention,

episodic memory, visual

scanning, executive functioning Apprehension: d = .05); Attention/Working

Memory (LNS forward and reorder, DSCPT

vigilance: d = 1.05); Executive Function

(WCST category completion and

perseverative errors: d = .49); Speed of

Processing (TMT-A: .19)

Executive Function (WAIS-III: Digits

Backwards) correlated with occupational

functioning at 4-year follow-up (d = .78).

NoOccupational

functioning

(Functioning

Neurocognitive assessment

battery; estimated IQ, attention,

verbal learning and memory,

executive functioning

Longitudinal

study

Total N = 32

MAge = 43.5

Male = 53.1%

EBD I (n = 24)

EBD II (n = 8)

Bonnín et al. (2010)

Assessment Short

Test)

Executive functioning (WAIS-III Digits

Backwards) predicted poor work adjustment

(f2 = .38)

NoWork adjustment;

good versus poor

Neurocognitive assessment

battery; IQ, processing speed

index, working memory and

attention, verbal learning and

memory, executive functioning

Cross-sectional

study

Total (EBD I) N = 85

MAge = 40.11

Male = 48%

Bonnín et al. (2014)

Adaptive and Social Competence mediated

the relationship between Neurocognitive

Composite Score and work skills (f2 = .42)

NoWork skills (The

Specific Level of

Functioning Scale)

Neurocognitive assessment

battery; processing speed, verbal

declarative and working memory,

verbal fluency, attention,

executive functioning

Cross-sectional

study

Total N = 291

MAge = 49.15

Male = 57%

BD I (n = 130)

SZ (n = 161)

Bowie et al. (2010)

Verbal memory (CVLT total) predicted

occupational outcome at 15 year follow-up

(d = .74)

YesWork disability

(Strauss-Carpenter

work functioning

rating scale)

Neurocognitive assessment

battery; processing speed, verbal

learning and memory, verbal

fluency, accessing of general

knowledge, executive functioning

Longitudinal

study

Total (BD I) N = 33

MAge = 40.2

Male = 54%

Burdick et al. (2010)

Neurocognitive Composite Score predicted

with employment status (d = .74)

NoOccupational status;

unemployed versus

employed

Neurocognitive assessment

battery; attention, psychomotor

speed, verbal and working

memory, executive functioning

Cross-sectional

study

Total (BD I) N = 229

MAge = 46.85

Male = 50%

Depp et al. (2012b)

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Results [Effect Size (ES) d or f2]

Effects of

Medication

Controlled

Occupational

Functioning

Measure

Neurocognitive Domains

MeasuredStudy typeSampleStudy

Verbal memory(RBANS list learning and

story memory) contributed to employment

status (d = .82)

YesEmployment status;

no work versus

part-time work versus

full-time work

Neurocognitive assessment

battery (RBANS); immediate

memory, visuospatial and

constructional, language,

attention, delayed memory

Cross-sectional

study

Total N = 117

MAge = 41.4

Male = 30%

BD I (n = 87)

BD II (n = 29)

BDnos (n = 1)

Dickerson et al. (2004)

No relationship emerged between

occupational status and neurocognitive

functioning.

NoOccupational status;

full-time employment

versus unemployed

Neurocognitive assessment

battery; processing speed, verbal

memory, verbal fluency, visual

Prospective

longitudinal study

Total N = 52

MAge = 30.5

Male = 15%

BD I (n = 38)

BD II (n = 12)

BDnos (n = 2)

Dickerson et al. (2010)

memory, executive functioning,

visual spatial ability, premorbid

intelligence

Self-Reported concentration and memory

problems predicted employment status (ES

could not be calculated)

YesEmployment status;

working versus not

working

Clinical Interview & self report

(Bipolar Disorder Visit Form &

Mood Spectrum Self-Report

Post-hoc analysisTotal (BD I) N = 148

MAge = 44.17

Male = 37%

Gilbert et al. (2010)

Questionnaire); memory and

concentration

Attention (CogitEx II Simple RT; d = 1.14),

Executive Function (D-KEFS Verbal Fluency

NoWork functioning

(Longitudinal Interval

Neurocognitive assessment

battery; visual functions, verbal

Cross-sectional

study

Total N = 30

MAge = 47.45

Male = 33%

BD I (n = 8)

BD II (n = 6)

MDD (n = 16)

Godard et al. (2011)

Test d = 1.11) and verbal memory (CVLT-II

retrieval d = 1.12) associated with work

functioning

Follow-up

Evaluation-Range of

Impaired Functioning

Tool)

learning and memory, attention,

executive functioning

Verbal memory (CVLT immediate and

delayed) and executive functioning

NoOccupational

functioning; good

versus poor

Neurocognitive assessment

battery; estimated premorbid IQ,

verbal learning and memory,

Cross-sectional

study

Total N = 138

MAge = 41.1

Male = 42%

BDD (n = 30)

BDMH (n = 34)

EBD (n = 44)

HC (n = 30)

Martínez-Arán et al. (2004)

(COWAT) associated with occupational

functioning

(ES could not be calculated)

nonverbal learning and memory,

attention/ concentration and

mental tracking, executive

functioning

Verbal memory (CVLT immediate and free

recall); Executive Function (COWAT; TMT-B)

associated with occupational adaptation.

(ES could not be calculated)

YesOccupational

adaptation; good

versus low

Neurocognitive assessment

battery; estimated premorbid IQ,

verbal learning and memory,

executive functioning

Cross-sectional

study

Total N = 112

MAge = 39

Male = 38%

EBD I (n = 59)

EBD II (n = 18)

HC (n = 35)

Martínez-Arán et al. (2007)

Attention (CPT-II hit RT), Verbal Memory

(CVLT immediate and delayed recall),

NoOccupational status;

active versus inactive

versus retired

Neurocognitive assessment

battery; processing speed,

attention, verbal memory, visual

memory, executive functioning

Longitudinal

study

Total N = 54

MAge = 41.55

Male = 48%

EBD (n = 28)

HC (n = 26)

Mora et al. (2013)

Executive Function (TMT-B; Stroop Colour

Word Test) associated with occupational

functioning at 6 year follow-up

(ES could not be calculated)

Processing speed (TMT-A: d = 1.15) and

Executive Function (Stroop colour and Word

NoOccupational status;

active versus inactive

versus retired

Neurocognitive assessment

battery; processing speed,

attention, verbal memory, visual

memory, executive functioning

Longitudinal

study

Total N = 66

MAge = 41.2

Male = 51.5%

EBD (n = 33)

HC (n = 33)

Mur et al. (2008)

Test: d = .87) associated with work status at

2 year follow-up

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Results [Effect Size (ES) d or f2]

Effects of

Medication

Controlled

Occupational

Functioning

Measure

Neurocognitive Domains

MeasuredStudy typeSampleStudy

Significantly greater Executive Function

(Stroop Colour and Word Test:d =.80),

YesOccupational status;

active versus inactive

Neurocognitive assessment

battery; processing speed, verbal

Cross-sectional

study

Total N = 44

MAge = 42.9

Male = 50%

EBD I (n = 30)

EBD II (n= 14)

Mur et al. (2009)

processing speed (TMT-A: d = .77) for active

vs inactive participants

memory, visual memory,

attention, inhibition, executive

functioning

Executive functioning (WMS LNS)

associated with work status

(ES could not be calculated)

NoWork status; worked

in the last 3 years

Neurocognitive assessment

battery; current IQ, episodic

memory, face recognition,

Post hoc analysisTotal N = 77

MAge = 42

Male = 63%

BD (n = 13)

SZ (n = 45)

SA (n = 17)

PD (n = 1)

DD (n = 1)

Murtagh et al. (2010)

working memory, attention, social

awareness, word fluency

Attention (TEA) was associated with

occupational functioning

(ES could not be calculated)

NoOccupational

functioning (The

Social and

Ecologically valid cognitive test

battery; attention, memory,

executive functioning.

Cross-sectional

study

Total N = 58

MAge = 53

Male = 48.2%

EBD (n = 29)

HC (n = 29)

O'Shea et al. (2010)

Occupational

Functional

Assessment Scale)

Verbal Fluency (COWAT: d = .38) and

Processing Speed Intereference Resolution

YesWork status; working

versus not working

Neurocognitive assessment

battery; visual memory, auditory

Cross-sectional

study

Total N = 299

Mean age = 38.43

Male = 57%

EBD (n = 156)

HC (n = 143)

Ryan et al. (2013)

(Stroop Colour and Word test: d = .11)

associated with work status

memory, emotion processing,

fine motor dexterity, verbal

fluency & processing speed,

conceptual reasoning and

set-shifting, processing speed

with interference resolution,

inhibitory control

Occupational outcome not associated with

premorbid, current, or decline in, IQ

NoReceipt of disability

benefit

Neurocognitive assessment

battery; IQ, premorbid intellectual

functioning

Cross-sectional

study

Total N = 226

MAge = 33.9

Male = 38%

BD I (n = 144)

BD II (n = 70)

BDnos (n = 12)

Schoeyen et al. (2013)

Neurocognitive Composite Score strongest

predictor of occupational adaptation at one

year follow-up (d = .57)

NoOccupational

adaptation; good

versus low

Neurocognitive assessment

battery; executive functioning

and problem solving, verbal

Longitudinal

study

Total N = 115

MAge = 38.7

Male = 62%

BD I (n = 43)

SZ (n = 47)

HC (n = 25)

Tabarés-Seisdedos et al.

(2008)

working memory, verbal memory,

visual memory, visual-motor

processing/speed of processing,

vigilance, motor speed,

language/vocabulary

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Results [Effect Size (ES) d or f2]

Effects of

Medication

Controlled

Occupational

Functioning

Measure

Neurocognitive Domains

MeasuredStudy typeSampleStudy

Executive functioning (TMT-B) predicted

occupational adaptation in BD II

(ES could not be calculated)

NoOccupational

adaptation; good

versus low

Neurocognitive assessment

battery; estimated premorbid IQ,

verbal learning and memory,

Cross-sectional

study

Total N = 106

MAge = 40.9

Male = 41%

EBD I (n = 38)

EBD II (n = 33)

HC (n = 35)

Torrent et al. (2006)

attention/ concentration and

mental tracking, executive

functioning

No relationship between neurocognitive

functioning and occupational functioning

YesOccupational

functioning

Neurocognitive assessment

battery; estimated premorbid IQ,

Cross-sectional

study

Total N = 65

MAge = 40.1

Male = 50.8%

EBD I (n = 42)

EBD II (n = 23)

Wingo et al. (2010)

(Vocational Status

Index)

verbal learning and memory,

attention and concentration,

executive functioning

Note. Bipolar Disorder (BD), Bipolar Disorder Depressed (BDD), Bipolar Disorder Manic or Hypomanic (BDMH), Bipolar Disorder not otherwise
specified (BDnos), Bipolar Disorder with Psychosis (BD I wP), Bipolar Disorder without Psychosis (BD I woP), Euthymic Bipolar Disorder
(EBD), Major Depressive Disorder (MDD), Schizophrenia (SZ), Schizoaffective Disorder (SA), Psychotic Depression (PD), Delusional Disorder
(DD), Healthy Controls (HC), California Verbal Learning Test (CVLT), Cognitive and Executive Function (Cogit Ex II), Controlled Oral Word
Association Test (COWAT), Continuous Performance Test (CPT-II), Degraded Stimulus Continuous Performance Test (DSCPT), Delis-Kaplan
Executive Function System (D-KEFS), Executive Interview (EXIT), Repeatable Battery for the Assessment of Neuropsychological Status
(RBANS), Test of Everyday Attention (TEA),Trail Making Test Part A/B (TMT-A, TMT-B), Wechsler Adult Intelligence Scale (WAIS-III),
Wechsler Memory Scale (WMS), Wisconsin Card Sorting Test (WCST).

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Europe's Journal of Psychology
2016, Vol. 12(4), 659–678
doi:10.5964/ejop.v12i4.909

Neurocognitive and Occupational Functioning in BD 678

http://www.psychopen.eu/
http://www.zpid.de/en

	Neurocognitive and Occupational Functioning in BD
	(Introduction)
	Methods
	Results
	Neurocognitive Assessment
	Measures of Occupational Functioning
	The Relationship Between Neurocognitive Functioning and Occupational Functioning

	Discussion
	Clinical Variables
	Methodological Issues and Limitations
	Methodological Limitations
	Future Directions and Implications

	(Additional Information)
	Funding
	Competing Interests
	Acknowledgments

	References
	Appendix
	About the Authors