There is growing interest in the recognition and treatment of bipolar depression. Reference Goodwin, Anderson, Arango, Bowden, Henry and Mitchell1,Reference Baldessarini, Vieta, Calabrese, Tohen and Bowden2 Although genetic epidemiological studies have confirmed increased rates of major depressive disorder among the relatives of people with bipolar affective disorder, Reference Blacker and Tsuang3-Reference Goodwin and Jamison5 no report has compared the clinical characteristics of depression between these individuals and their relatives with bipolar disorder within the same pedigrees. Confirming differences in these subgroups could be highly informative, first in the debate over phenomenological differences between bipolar disorder and major depression, Reference Mitchell and Malhi6-Reference Mitchell, Goodwin, Johnson and Hirshfeld8 and second regarding which cases of major depressive disorder in bipolar disorder pedigrees have more ‘genetic’ or ‘sporadic’ aetiologies. Reference Blacker and Tsuang3,Reference McMahon, Stine, Chase, Meyers, Simpson and DePaulo9 Given the overlapping presentations of the two forms of depression, the predominance of depressive features among people with bipolar disorder Reference Judd, Schettler, Akiskal, Maser, Coryell and Solomon10 and the implications of misdiagnosis, Reference Bowden11,Reference Dunner12 the usefulness of a method for distinguishing between the two conditions based on clinically observable depressive features is clear. Recently published guidelines from the International Society for Bipolar Disorders (ISBD) Diagnostic Task Force have argued for a dimensional rather than categorical distinction between bipolar depression and major depressive disorder, Reference Mitchell, Goodwin, Johnson and Hirshfeld8,Reference Ghaemi, Bauer, Cassidy, Malhi, Mitchell and Phelps13 leading to the development of a ‘probabilistic’ approach to the diagnosis of bipolar depression. Reference Mitchell, Goodwin, Johnson and Hirshfeld8 A range of depressive features and symptoms more likely to be associated with a diagnosis of bipolar disorder type 1 were identified from the literature in the development of those guidelines (see Appendix), with the presence of five or more specific features being proposed as indicative of bipolar depression, although this cut-off has yet to be empirically validated. In a similar vein, focusing on the finding of a greater prevalence of major depressive disorder among relatives of bipolar disorder probands and the implications of this for linkage studies, Blacker et al estimated that 65-74% of these relatives with major depressive disorder had genetically determined illness. Reference Blacker and Tsuang3,Reference Blacker, Lavori, Faraone and Tsuang14 They proposed developing an index of ‘genetic bipolarity’ for these individuals, based on a combination of potentially discriminating phenomenological and longitudinal characteristics (not dissimilar to that proposed in the ISBD guidelines). To assess the nature of depressive episodes in both bipolar disorder and major depressive disorder within bipolar disorder pedigrees, we examined a data-set of participants in a molecular genetics study of bipolar disorder. We also tested the utility of the ISBD probabilistic approach in identifying bipolar depression in this sample, Reference Mitchell, Goodwin, Johnson and Hirshfeld8 and sought to identify subgroups within the major depressive disorder cases which could represent sporadic v. genetically driven forms of illness, i.e. a potential phenotype for underlying bipolarity.
Method
Participants were recruited through the Australian Bipolar Disorder Molecular Genetics Study, Reference McAuley, Blair, Liu, Fullerton, Scimone and Van Herten15 undertaken at the University of New South Wales in collaboration with the Prince of Wales Medical Research Institute, the Garvan Institute of Medical Research and Macquarie University in Sydney, Australia. A total of 1128 individuals were recruited in medium-to-large unilineal multigenerational bipolar pedigrees. Initial data on family and illness history were obtained from the proband using the Family Interview for Genetic Studies, Reference Maxwell16 and each participating family member was subsequently assessed using the Diagnostic Interview for Genetic Studies (DIGS) version 2.0. Reference Nurnberger, Blehar, Kaufmann, York-Cooker, Simpson and Harkavy-Friedman17 Interviews were conducted by experienced medical practitioners, psychologists and psychiatric nurses who received training in the use of each instrument. Best-estimate Research Diagnostic Criteria and DSM-IV diagnoses were made by senior research psychiatrists after independent evaluation of DIGS interviews, family informant data and medical records. 18 The study was approved by the human research ethics committee of the University of New South Wales, and complies with the guidelines of the Australian National Health and Medical Research Council. The sample used did not overlap with the bipolar disorder and major depressive disorder samples described in previous studies by our group, which investigated phenomenological differences between the two forms of depression. Reference Parker, Roy, Wilhelm, Mitchell and Hadzi-Pavlovic19,Reference Mitchell, Wilhelm, Parker, Austin, Rutgers and Malhi20
Inclusion criteria
Inclusion in the analysis was restricted to participants with a best-estimate DSM-IV diagnosis of bipolar type 1 disorder, bipolar type 2 disorder or major depressive disorder, the last diagnosis requiring a history of at least two major depressive episodes. For the original molecular genetics study, written informed consent was obtained after complete description to the participants.
Statistical analysis
For this study we combined participants with bipolar disorder types 1 and 2 into a single category as there were relatively few with type 2 disorder. Continuous variables were non-normally distributed, and comparisons were made using the Mann-Whitney U-test. Categorical data were compared using Pearson's χ2 test. All symptoms significantly associated with diagnosis at the bivariate level were included in binary logistic regression models, to identify whether weighted combinations of symptoms could differentiate bipolar disorder from major depression. Each symptom was entered as a single predictor, and then in a multivariate model to assess independent associations with diagnosis after accounting for the effects of other symptoms. Results are reported as age- and gender-adjusted odds ratios for a diagnosis of bipolar disorder. All analyses were carried out using Stata version 10 on Windows XP.
To assess the utility of the probabilistic approach in identifying bipolar depression, we included nine clinical features and symptoms from the current data-set that had previously been included in the operational criteria for the probabilistic approach (see Appendix). Reference Mitchell, Goodwin, Johnson and Hirshfeld8 The DIGS featured items that related to hypersomnia, hyperphagia, weight gain, psychomotor retardation, delusions and hallucinations, pathological guilt, mixed features, early onset and multiple episodes. As all participants had a family history of bipolar disorder, we were unable to include this as a potential distinguishing feature. The number of positive ‘bipolar’ features was summed for each participant, ranging from 0 to 9. For each possible score we compared sensitivity and specificity against a diagnostic standard (best-estimate diagnosis), and plotted receiver operating characteristics curves.
To identify subgroups among the major depressive disorder cases that might correspond to either ‘genetic’ or ‘sporadic’ depression, propensity scores were calculated for each participant, which were the estimated probabilities of bipolar v. unipolar group membership from the previously described bivariate logistic regression. The propensity score, ranging from 0 to 1, is an index of the probability of ‘caseness’, or a diagnosis of bipolar disorder, with a higher score indicating a greater likelihood that the individual has the disorder. We predicted that major depressive disorder cases with an underlying bipolar genetic liability would more closely resemble the ‘true’ bipolar disorder cases than the major depressive disorder cases with a ‘sporadic’ depression, and therefore have higher propensity scores. Consistent with the probabilistic approach, these cases would be more likely to show clinical and phenomenological features typically associated with bipolar depression, based on the stronger underlying genetic component to their illness. After calculating propensity scores, we carried out a hierarchical cluster analysis, using between-groups linkage, to identify any groupings within the major depressive disorder cases, and compared clinical feature and symptom profiles between clusters.
Results
Of the 1128 participants, 423 (37.5%) met initial diagnostic criteria. Of these, 57 had never had a major depressive episode (i.e. they reported only manic episodes) or provided incomplete data on depressive episodes for the DIGS interview. Of the final 366 participants included in the analysis, 202 (55.2%) had been diagnosed with DSM-IV bipolar type 1 disorder, 44 (12.0%) with bipolar type 2 disorder and 120 (32.7%) with major depressive disorder. All participants with major depressive disorder had at least one first-degree relative with type 1 bipolar disorder.
Sociodemographic characteristics
The sociodemographic characteristics of the sample are reported in Table 1; no significant difference was observed between the two diagnostic groups in age or gender ratio.
Longitudinal characteristics
Data on the illness course and clinical characteristics of bipolar disorder and major depressive disorder participants are shown in Table 1. Bipolar disorder was significantly associated with a greater number of lifetime depressive episodes, with a higher proportion of participants with bipolar disorder (48.4%) reporting at least five lifetime depressive episodes compared with the major depressive disorder group (26.4%). No difference was found in either age at onset or duration of the most severe depressive episode.
Treatment and suicidal behaviour
Patterns of help-seeking and treatment did not vary significantly across the groups, with the majority of participants seeking help from a mental health professional or being prescribed medication during their most severe depressive episode (Table 2). Rates of hospital admission during the most severe depressive episode were significantly higher among those with bipolar disorder (46.3%) compared with major depressive disorder (26.7%). Rates of any lifetime suicide attempt were comparable among those with bipolar disorder (32.5%) and major depressive disorders (28.3%). There was no significant difference across the diagnostic
Unipolar (MDD) (n = 120) | Bipolar type 1/2 (n = 246) | Test statistic | |
---|---|---|---|
Gender,a n (%) | |||
Male | 37 (30.8) | 88 (36.1) | 0.98b |
Female | 83 (69.2) | 156 (63.9) | |
Age, years: median (IQR) | |||
At interview | 50 (30.5–63) | 48 (36–57) | 0.35c |
At first mood episode | 20.5 (16–28) | 20 (16–29) | –0.26c |
At first depressive episode | 20.5 (16–28) | 22 (17–31) | –1.05c |
At most severe episode | 28 (21–41) | 33 (25–42) | –1.64c |
Number of lifetime depressive episodes, n (%) | |||
Five or more episodes | 23 (26.4) | 77 (48.4) | 11.27b ** |
Duration of most severe depressive episode, n (%) | |||
Less than 3 months | 70 (64.8) | 127 (55.2) | 3.15b |
3 to 6 months | 18 (16.7) | 55 (23.9) | |
More than 6 months | 20 (18.5) | 48 (20.9) |
IQR, interquartile range; MDD, major depressive disorder.
a Total does not equal 366 because of missing data.
b Chi-squared test.
c Mann-Whitney test.
* P < 0.05
** P < 0.01
*** P < 0.001.
Unipolar (MDD) (n = 120) | Bipolar type 1/2 (n = 246) | Test statistic | |
---|---|---|---|
Treatment, n (%) | |||
Sought help from professional | 94 (78.3) | 208 (84.5) | 2.16a |
Prescribed medication | 84 (70.0) | 188 (76.4) | 1.74a |
Received ECT | 15 (12.5) | 49 (19.9) | 3.08a |
Any treatment | 96 (80.0) | 211 (85.8) | 1.99a |
Hospitalised for depression | 32 (26.7) | 114 (46.3) | 13.02a *** |
Suicide history | |||
Ever attempted suicide, n (%) | |||
Yes | 34 (28.3) | 80 (32.5) | 0.66a |
Number of attempts,c n (%) | |||
One | 23 (67.6) | 38 (48.7) | 3.53 |
Two | 4 (11.8) | 17 (21.8) | |
Three or more | 7 (20.6) | 23 (29.5) | |
Age at first suicide attempt, years: median (IQR) | 17 (16–23) | 24.5 (17–33) | –1.74b |
ECT, electroconvulsive therapy; IQR, interquartile range; MDD, major depressive disorder.
a Chi-squared test.
b Mann–Whitney test.
c Total does not equal 80 because of missing data.
* P < 0.05, ** P < 0.01
*** P < 0.001.
groups in the number of reported attempts or age at first suicide attempt.
Symptom profile during most severe depressive episode
Table 3 shows the prevalence of each depressive symptom for the major depressive disorder and bipolar disorder groups. In the bivariate analysis the bipolar disorder group was characterised by a significantly greater prevalence (compared with major depressive disorder) of psychomotor retardation, difficulty in thinking or concentrating, early morning wakening, morning worsening, delusions, hallucinations and the presence of three or more concurrent mixed features.
Where a significant bivariate association was found, each symptom was entered into a logistic regression model with diagnosis as the outcome variable. Age- and gender-adjusted odds ratios are reported in Table 4. Compared with the major depressive disorder group, bipolar depression was characterised by significantly higher rates of psychomotor retardation (OR = 2.14), difficulty thinking (OR = 2.44), early morning wakening (OR = 1.68), morning worsening (OR = 1.75), delusions (OR = 2.23) and hallucinations (OR = 3.85). Mixed features were not significantly associated with bipolar disorder. Each item was then included in a multivariate model to assess the independent association between specific symptoms and diagnostic category after controlling for the effect of other symptoms (Table 4). After adjusting for age, gender and the other items, only psychomotor retardation (OR = 1.63) remained a significant predictor of a bipolar disorder diagnosis compared with major depressive disorder.
Probabilistic approach to the diagnosis of bipolar depression
To assess the usefulness of the probabilistic approach, we focused on nine clinical features and symptoms that have previously been associated with a bipolar diagnosis, Reference Mitchell, Goodwin, Johnson and Hirshfeld8 for which relevant data were available in the version of the DIGS used for this data-set (see Appendix). The number of positive features endorsed by each
Prevalence, % | |||
---|---|---|---|
MDD (n = 120) | Bipolar type 1/2 (n = 246) | χ2 | |
Symptoms | |||
Depressed mood | 95.0 | 96.7 | 0.67 |
Anhedonia | 95.0 | 92.3 | 0.94 |
Appetite loss | 55.8 | 63.8 | 2.17 |
Appetite gain | 14.2 | 13.8 | 0.01 |
Weight loss | 42.5 | 45.9 | 0.38 |
Weight gain | 10.0 | 15.0 | 1.77 |
Initial insomnia | 54.2 | 57.7 | 0.41 |
Middle insomnia | 56.7 | 55.7 | 0.03 |
Early morning wakening | 43.3 | 54.9 | 4.30* |
Hypersomnia | 35.8 | 45.9 | 3.36 |
Psychomotor agitation | 46.7 | 50.8 | 0.55 |
Psychomotor retardation | 38.3 | 55.7 | 9.72*** |
Less interest in all pleasurable things | 91.7 | 92.7 | 0.12 |
Fatigue or loss of energy | 84.2 | 89.0 | 1.73 |
Pathological guilt | 63.3 | 72.8 | 3.39 |
Worthlessness | 75.8 | 79.7 | 79.7 |
Difficulty thinking or concentrating | 80.8 | 91.1 | 7.82** |
Suicidal ideation | 54.2 | 63.4 | 2.89 |
Suicide attempt | 22.5 | 29.7 | 2.10 |
Morning worsening | 38.3 | 52.4 | 6.43* |
Delusions | 12.5 | 23.2 | 5.82* |
Hallucinations | 2.5 | 8.9 | 5.26* |
Mixed symptomsa | |||
Any mixed symptoms | 24.2 | 25.2 | 0.05 |
Three or more mixed symptoms | 6.7 | 13.8 | 4.06* |
MDD, major depressive disorder.
a The Diagnostic Interview for Genetic Studies assessed the following mixed symptoms during depression episodes: overactive; more talkative/pressured speech; racing thoughts/speech hard to follow; grandiosity; decreased need for sleep; distractibility; risky or indiscreet behaviour.
* P < 0.05
** P < 0.01
*** P < 0.001.
participant was calculated, and operating characteristics (sensitivity and specificity) were plotted for each possible cut-off (ranging from 0 to 9), with sensitivity decreasing as the number of items included increased. Using a cut-off of three or more items, the probabilistic approach correctly classified 65% of all participants, with a sensitivity of 73% and a specificity of 48%. Increasing the cut-off to four or more items saw sensitivity decrease (48%) and an increase in specificity (72%), with 56% of participants correctly classified. With a more stringent criterion of five or more items, sensitivity dropped to 22%, with specificity reaching 90%. Positive predictive value increased with the number of items, from 74% with three items to 78% with four items and 82% with five items. Participants reporting three or more symptoms were significantly more likely to have been diagnosed with bipolar disorder (OR = 2.77), as were people reporting four or more symptoms (OR = 2.60) and five or more symptoms (OR = 2.88). The area under the curve was 0.63, indicating that the approach was moderately successful in distinguishing between major depressive disorder and bipolar depression.
Identifying subgroups within major depressive disorder
The propensity scores (probabilities from the logistic regression) for each of the 120 major depressive disorder cases were entered into a hierarchical cluster analysis, with a two-cluster solution
Bivariate analysisa OR (95% CI) | Multivariate analysisb OR (95% CI) | |
---|---|---|
Early morning wakening | 1.68* (1.07–2.64) | 1.37 (0.85–2.21) |
Psychomotor retardation | 2.14** (1.35–3.38) | 1.63* (1.01–2.67) |
Difficult thinking or concentrating | 2.44** (1.28–4.63) | 1.51 (0.75–3.02) |
Morning worsening | 1.75* (1.11–2.77) | 1.58 (0.97–2.59) |
Delusions | 2.23* (1.18–4.22) | 1.70 (0.87–3.34) |
Hallucinations | 3.85* (1.12–13.21) | 2.26 (0.63–8.17) |
Mixed episodec | 2.23 (0.99–5.03) | 2.33 (0.99–5.48) |
a Each symptom was entered in a separate logistic regression model, adjusted for age and gender.
b All seven symptoms were entered into a single logistic regression model, adjusted for age and gender.
c Defined by the presence of three or more concurrent hypomanic or manic symptoms within a major depressive episode.
* P<0.05
** P<0.01
*** P<0.001.
providing the best fit. Cluster 1 consisted of 90 cases, with the remaining 30 cases assigned to cluster 2. We compared depressive symptoms across the two clusters, with several key differences emerging (Table 5). Cluster 1 was characterised by significantly higher rates of anhedonia, hypersomnia, psychomotor retardation, feelings of worthlessness, difficulty thinking/concentrating, morning worsening and delusions. In the cluster 1 group, patients were more likely to have reported five or more major depressive episodes and to have been admitted to hospital during their most severe depressive episode. There was no significant difference in other clinical features or symptoms between the two clusters.
Discussion
A number of robust differences were identified in the phenomenological and longitudinal characteristics of depressive episodes between cases of bipolar disorder and major depressive disorder within these bipolar disorder pedigrees. This is the first
Cluster 1 (n = 90) % | Cluster 2 (n = 30) % | χ2 | |
---|---|---|---|
Symptoms | |||
Anhedonia | 97.8 | 86.7 | 5.9* |
Hypersomnia | 41.1 | 20.0 | 4.4* |
Psychomotor retardationa | 47.8 | 10.0 | 13.6*** |
Less interest in all pleasurable things | 96.7 | 76.7 | 11.8*** |
Worthlessness | 81.1 | 60.0 | 5.5* |
Difficulty thinking or concentratinga | 96.7 | 33.3 | 58.2*** |
Morning worseninga | 50.0 | 3.3 | 20.7*** |
Delusions | 16.7 | 0.0 | 5.7* |
Clinical features | |||
Hospitalised (during most severe MDE) | 31.1 | 13.3 | 3.6* |
Five or more lifetime MDEs | 29.0 | 16.7 | 4.1* |
MDE, major depressive episode.
a These symptoms were included in the calculation of the propensity scores using the full sample, on which the hierarchical cluster analysis was based.
* P < 0.05
** P < 0.01
*** P < 0.001.
report comparing depressive features within such families, and supports growing evidence for substantive differences between bipolar and unipolar depression. First, there were a number of differences in the phenomenology of the most severe lifetime depressive episode across these disorders. In cases of bipolar disorder, patients reported a significantly higher prevalence of early morning wakening, morning worsening, psychomotor retardation, difficulty thinking/concentrating, delusions and hallucinations (after controlling for age and gender). Psychomotor retardation was the most robust feature distinguishing between the two groups, supporting previous reports of psychomotor disturbance as a cardinal feature of bipolar depression, Reference Parker, Roy, Wilhelm, Mitchell and Hadzi-Pavlovic19-Reference Serretti, Mandelli, Lattuada, Cusin and Smerald21 as well as historical clinical descriptions. Reference Goodwin and Jamison5 Psychomotor retardation may have more relevance to bipolar type 1 depression, with Benazzi, for example, finding no difference in rates of retardation between bipolar type 2 disorder and major depressive disorder samples, but rather significantly higher rates of agitation among the group with type 2 bipolar disorder. Reference Benazzi22 In addition, we found a greater prevalence of psychotic features during depressive episodes in the bipolar disorder group, again consistent with numerous prior reports. Reference Forty, Smith, Jones, Jones, Caesar and Cooper23 The increased frequency of early morning wakening in the bipolar group has previously been reported both in patients with a diagnosis of major depressive disorder who were found to have bipolar disorder on longitudinal follow-up, Reference Winokur and Wesner24 and in a number of cross-sectional comparisons with major depressive disorder, Reference Forty, Smith, Jones, Jones, Caesar and Cooper23 although there have been negative reports. Reference Duncan, Pettigrew and Gillin25 Overall, the findings are consistent with bipolar disorder being characterised by both melancholic Reference Parker, Roy, Wilhelm, Mitchell and Hadzi-Pavlovic19 and psychotic features.
Second, in terms of longitudinal course and treatment, bipolar disorder cases had a greater number of lifetime depressive episodes (a finding which has been widely reported), Reference Forty, Smith, Jones, Jones, Caesar and Cooper23,Reference Schaffer, Cairney, Velduizen, Kurdyak, Cheung and Levitt26,Reference Perlis, Brown, Baker and Nierenberg27 and more hospital admissions, again consistent with previous studies. Reference Goes, Sadler, Toolan, Zamioski, Mondimore and MacKinnon28,Reference Bottlender, Jager, Straub and Moller29 There was, however, no difference in rates of help-seeking or in usage of antidepressants or electroconvulsive therapy. Despite consistent prior reports of a younger age at onset for patients with bipolar disorder compared with non-related patients with major depressive disorder, Reference Abrams and Taylor30,Reference Mitchell, Parker, Jamieson, Wilhelm, Hickie and Brodaty31 no significant difference was found in the age at onset of the first depressive episode in this study. As age at onset of depression has been shown to be highly familial, Reference Schurhoff, Bellivier, Jouvent, Mouren-Simeoni, Bouvard and Allilaire32,Reference Somanath, Jain and Janardhan Reddy33 the lack of a significant difference in this study may be due to the shared family history among cases. In a study comparing probands with bipolar or schizoaffective-bipolar disorder and unwell relatives, there was no difference in the age at onset for the first mood episode between the groups. Reference Fisfalen, Schulze, DePaulo, DeGroot, Badner and McMahon34 Although higher rates of mixed features were observed among cases of bipolar disorder in the initial bivariate comparisons, this difference did not remain significant when logistic regression was used. This finding is perhaps surprising, given reports of the high rates of mixed symptoms in bipolar depression, Reference Goldberg, Perlis, Bowden, Thase, Miklowitz and Marangell35 although this may further suggest that some clinical differences traditionally seen between major depressive disorder and bipolar disorder were attenuated in the current sample owing to the shared family history.
Third, this study has been the first to empirically test the utility of a proposed probabilistic approach for distinguishing between bipolar and unipolar depression. Reference Mitchell, Goodwin, Johnson and Hirshfeld8 Depending on the cut-off employed, the positive predictive value ranged from 74% to 82%. These values are consistent with or higher than those reported in numerous studies employing the Mood Disorders Questionnaire to differentiate between bipolar and unipolar cases, which have ranged from 36% to 79%. Reference Hirschfeld, Williams, Spitzer, Calabrese, Flynn and Keck36,Reference Twiss, Jones and Anderson37 In terms of sensitivity and specificity, the optimal cut-off would appear to lie in the range of three to five features; final determination will require validation in independent samples.
Other approaches
Other methods have been proposed for distinguishing between bipolar disorder and major depressive disorder. Solomon et al developed the Screening Assessment of Depression - Polarity (SAD-P), using three clinical features showing the greatest disparity between patients with the two disorders (number of episodes, family psychiatric history and psychotic features). Reference Solomon, Leon, Maser, Truman, Coryell and Endicott38 This screen achieved a sensitivity of 82%, a specificity of 61% and a positive predictive value of 36%. In a study of non-psychotic bipolar depression and major depressive disorder involving outpatients recruited to three large multicentre trials (one of bipolar disorder type 1 and two of major depressive disorder), Perlis et al reported that family history, age at onset, number of episodes and a number of items on the Montgomery-Åsberg Depression Rating Scale and Hamilton Rating Scale for Depression differed between these groups. Reference Perlis, Brown, Baker and Nierenberg27 A stepwise logistic regression was undertaken which correctly classified 87% of patients, with a sensitivity of 69% and specificity of 95%. Excluding family history resulted in considerable loss of sensitivity (43%), highlighting the critical predictive utility of family history in distinguishing between bipolar and major depression. Furthermore, that model has not been tested in independent data-sets.
Identification of subgroups
The third aim of this study was to test if any differentiating features between bipolar depression and major depressive disorder could be used to identify subgroups within the major depressive disorder sample that might delineate ‘genetic’ and ‘sporadic’ populations, i.e. to determine an improved phenotype or case index of underlying bipolarity. Rice has argued that such a ‘caseness’ index would represent - in the absence of a diagnostic ‘gold standard’ - a reasonable balance between the strict binary categories of diagnostic systems (such as DSM) and the clinical reality of more equivocal diagnoses. Reference Rice39 He suggested that this could be used to weight cases in genetic linkage studies based on the probability that they were truly genetically affected, thereby improving validity of classification and increasing the capacity to identify susceptibility genes. Reference MacQueen, Hajek and Alda40 To our knowledge there has only been one report of a study looking for potential subgroups among major depressive disorder cases in bipolar disorder families. McMahon et al examined age at onset in bipolar disorder pedigrees as an index of genetic liability, finding similarities between those with type 1 and type 2 disorders. Reference McMahon, Stine, Chase, Meyers, Simpson and DePaulo9 However, there was no similarity in age at onset with the major depressive disorder cases, for which the authors reported a wide variance in age at onset. McMahon et al interpreted this as indicating that the individuals with major depressive disorder represented a heterogeneous population with both genetic and sporadic cases, but it was not possible to statistically identify distinct subgroups. In two case-control studies, Blacker et al compared illness features between unipolar depression in people with a family history of bipolar disorder and that in relatives of those with major depressive illness, Reference Blacker, Lavori, Faraone and Tsuang14 or those in a control group with non-affected families, Reference Blacker, Faraone, Rosen, Guroff, Adams and Weissman41 but these features showed little discriminatory power in either report. Gershon et al, reporting on depression in relatives of patients with major depressive disorder and bipolar disorder, suggested that greater impairment and multiple lifetime episodes were possible clinical markers of a familial or genetically driven illness, consistent with the higher rates of hospital admission and greater number of lifetime episodes reported here in cluster 1. Reference Gershon, Weissman, Guroff, Prusoff and Leckman42
We predicted that people with major depression with a postulated ‘genetic’ illness would be more likely to report features associated with bipolar depression. Using cluster analysis we identified two groups, one of which included two-thirds of all major depressive disorder cases and was characterised by higher rates of symptoms found to be associated with bipolar depression in both this study and prior reports. Conversely, the other group demonstrated significantly lower rates of these ‘bipolar’ depressive features. Clearly this finding suggestive of a genetic subgroup must be regarded cautiously, requiring replication in independent samples before it can be confidently included in phenotypic definitions for linkage or other genetic analyses.
Limitations of the study
Several limitations should be considered when interpreting the findings of this paper. First, as the study recruited individuals from within bipolar disorder pedigrees, the results may not be generalisable to other populations; the major depressive disorder cases included here are not representative of major depressive disorder in general. Despite this, many findings that have previously been reported in the broader clinical literature on bipolar and unipolar depression were replicated in this genetically defined sample, wherein the shared genetic origins would be expected to diminish the likelihood of demonstrating such differences. Second, the sample size, although consistent with many other comparative studies, was not large enough to enable analysis of the bipolar type 1 and type 2 groups separately. The few studies that have separately examined the two types suggest that there may be important differences between them compared with major depressive disorder. Third, this validation of the probabilistic approach was limited, as not all variables included in the original list operational criteria could be included because of the limitations of the version of the DIGS used in this data-set. Finally, the assessment of depressive features was retrospective, as it was premised on the most severe lifetime episode.
Implications
In conclusion, a number of clinical features previously associated with bipolar depression were replicated in this sample, which was recruited through bipolar disorder pedigrees. This first empirical validation of the probabilistic approach in differentiating between unipolar and bipolar depression is consistent with dimensional distinctions between the two disorders and appears to offer clinical utility in identifying patients with depression who may warrant further assessment for bipolarity. Finally, cluster analysis of the major depressive disorder sample provided evidence suggestive of subgroups that might represent ‘genetic’ and ‘sporadic’ cases - a provocative finding that requires replication in other bipolar disorder pedigree samples.
Funding
This research was funded by Australian National Health and Medical Research Council Program Grant .
Appendix
Criteria for a ‘probabilistic’ approach to the diagnosis of bipolar depression
A greater likelihood of diagnosis of bipolar type 2 disorder should be considered if five or more of the following features are present: |
Symptoms and mental state signs |
Hypersomniaa and/or increased daytime nappingb |
Hyperphagiaa and/or increased weighta |
Other atypical depressive symptoms such as ‘leaden paralysis’b |
Psychomotor retardationa |
Psychotic featuresa and/or pathological guilta |
Lability of moodb/manic symptomsa |
Course of illness |
Early onset of first depression (<25 years of age)a |
Multiple (five or more) prior episodes of depressiona |
Family history |
Family history of bipolar disorder (Adapted from the criteria published by Mitchell et al)8 |
a Data were available from the Diagnostic Interview for Genetic Studies (DIGS) to include this symptom in the probabilistic model.
b No relevant data were available in the DIGS, therefore this symptom was not included in the probabilistic model.
eLetters
No eLetters have been published for this article.