To date, the affective temperamental characteristics of adults with attention-deficit hyperactivity disorder (ADHD) have not been studied. The aim of this study is to explore those temperamental characteristics for adults diagnosed with ADHD as measured by the TEMPS-A and then to compare those results with results for individuals diagnosed with bipolar disorder (BD) and with healthy controls.
Forty adults with ADHD, 40 patients with BD, and 40 healthy controls were enrolled in this study. The groups were matched by age and gender. All patients were assessed using the Structured Clinical Interview for DSM-IV Axis I Disorders (SCID I), the Hamilton Depression Rating Scale, the Hamilton Anxiety Rating Scale, the Young Mania Rating Scale and the Wender Utah Rating Scale. Subjects' temperamental characteristics were examined using the Turkish version of the Temperament Evaluation of Memphis, Pisa, Paris and San Diego-auto questionnaire (TEMPS-A).
Ten subjects (25%) in the ADHD group and 15 subjects (30%) in the bipolar group had at least one dominant temperament. There was no identifiable dominant temperament in the control group. Compared to the control group, the ADHD group scored higher than other groups on all domains of the TEMPS-A: depressive cyclothymic, irritable and anxious. However, the hyperthymic domain was not higher for this group. Adults with ADHD scored higher on the irritable temperament scale as compared to the BD group. The ADHD and BD groups had similar mean scores for each of the other four temperaments.
The adults diagnosed with ADHD in this study had different temperamental characteristics from the control group, and these temperamental characteristics were similar to those of the bipolar patients. Recognizing the role of temperamental characteristics in adults with ADHD may increase our understanding of ADHD.
Attention Deficit-Hyperactivity Disorder (ADHD) is a chronic, developmental psychiatric disorder beginning in childhood and continuing into adulthood with symptoms of inattention, impulsivity and hyperactivity. This disorder can lead to social and academic problems for some individuals in adulthood.
H. S. Akiskal conceptualized affective temperaments as precursor phenotypes for the premorbid course of mood disorders on the basis of Kraepelin's dimensional view of manic depressive insanity. Akiskal
Bipolar disorder (BD) comorbidity rates in adults diagnosed with ADHD have been reported to vary between 9.5% and 27%.
Up to now, the affective temperamental characteristics of adults diagnosed with ADHD have not been studied. Studies on the relationship between ADHD and temperamental characteristics have been limited to studies on ADHD in childhood. Prior studies on ADHD in childhood have suggested that temperamental characteristics in childhood may be correlated with anxiety and mood disorders,
A high rate of Bipolar Disorder (BD) comorbidity
Our study questions are: 1) Do adults diagnosed with ADHD show any specific temperamental characteristics when compared to a healthy control group? 2) Do adults diagnosed with ADHD and those diagnosed with Bipolar Disorder show similar temperamental characteristics?
Subjects diagnosed with ADHD and BD were selected from among outpatients of the Ankara University Faculty of Medicine (Ankara) and Etlik Research and Training Hospital (Ankara) Psychiatry clinics. All subjects were older than 17 years of age and were able to read and write. Patients and controls who agreed to participate in the study gave written informed consent.
Forty adults diagnosed with ADHD, and 40 patients diagnosed with BD who had been euthymic for at least 8 weeks, and 40 healthy controls were enrolled in the study. All groups were matched for age and sex.
The psychiatrists (SE, KO, BC) were trained to administer the Structured Clinical Interview for DSM-IV Axis I Disorders (SCID-I), and assessed the patients with this tool. The ADHD group consisted of forty adults who had been diagnosed with ADHD according to the DSM-IV diagnostic criteria and all were under treatment at the Ankara University Faculty of Medicine, Department of Psychiatry. All patients diagnosed with ADHD were given a second evaluation by a different psychiatrist (BO) who specializes in ADHD. Next, the WURS was administered along with other measurement tools. Since a high proportion of the individuals with ADHD had been diagnosed with comorbid bipolar disorder, only patients who were symptomatically stable before testing were included in the study. All of the participants were under medical treatment for the relevant diagnosis.
The Bipolar Disorder group consisted of forty patients diagnosed with BD according to DSM-IV diagnostic criteria who had also been euthymic for at least 8 weeks. Upon assessment, their HAM-D scores were 7 or lower, and their YMRS scores were 5 or lower. Only patients who met the criteria for bipolar type-I were included in this study.
Healthy controls were chosen from among people with no current or past axis I psychiatric disorder according to DSM-IV criteria, all were 17 or older, and all were able to read and write. This group of subjects was gathered from among hospital employees and their acquaintances. The Ethics Committee of the Ankara University Faculty of Medicine approved this study.
The SCID-I is a semi-structured interview developed to diagnose DSM-IV Axis I disorders and must be administered by a trained interviewer.
The TEMPS-A developed by Akiskal et al.
The WURS was developed for adults diagnosed with ADHD to assess ADHD symptoms in childhood.
HAM-D is a 17 item scale administered by an interviewer measuring the severity of depression symptoms within the past week.
The HAM-A is a 13 item scale administered by an interviewer that measures the severity of general anxiety.
YMRS is an 11 item scale administered by an interviewer to measure the severity of manic symptoms.
Descriptive statistical analyses were done where appropriate. In order to determine group differences, an analysis of variance (ANOVA) was applied to continuous variables (α=0.05). Pairwise comparisons were conducted by post hoc Tukey's HSD tests. We used the Statistical Package for Social Sciences (SPSS) for Windows 18.0 program for this statistical analysis.
These individuals diagnosed with ADHD (mean age: 26.5±8.7, 52% male), BD (mean age: 25±4.5, 55% male), and healthy controls (mean age: 28.4±7.4, 57.5% male), were similar in terms of age, sex and educational background (
Twenty patients (50%) in the ADHD group were diagnosed with a comorbid mood disorder. Nine (22.5%) with major depression, 9 (22.5%) with bipolar disorder and 2 (5%) with dysthymic disorder. Nine patients in the ADHD group (22.5%) were diagnosed with generalized anxiety disorder, 3 (7.5%) with panic disorder, 3 (7.5%) with obsessive-compulsive disorder, 1 (2.5%) with somatoform disorder, 6 (15%) with alcohol abuse, and 3 (7.5%) with comorbid substance abuse.
In the BD group, 1 patient (2.5%) was diagnosed with comorbid panic disorder, 1 (2.5%) with obsessive-compulsive disorder and 2 patients (5%) with social phobia.
The mean HAM-D, HAM-A and WURS scores of the adults with ADHD were significantly higher when compared to the BD group and the healthy control group (
In the ADHD group, 10 patients (25%) showed at least one dominant temperament (2 irritable, 1 depressive, and 1 hyperthymic temperament). Two patients showed both depressive and anxious temperaments and 1 patient showed both irritable and anxious temperaments. Two patients showed irritable, cyclothymic and anxious temperament characteristics whereas 1 patient showed 4 dominant temperaments (depressive, cyclothymic, irritable, and anxious).
In the BD group, fifteen patients (37.5%) showed at least 1 dominant temperament. Six showed depressive, 2 showed anxious, 2 showed depressive and cyclothymic, 1 showed depressive and anxious, 1 showed depressive and irritable, and 1 showed hyperthymic and anxious temperament characteristics. We found 3 dominant temperament characteristics depressive, cyclothymic and anxious in 1 patient, and 4 dominant temperament characteristics depressive, cyclothymic, irritable and anxious in 1 other patient. No dominant temperament was identified in the control group.
When we compared the scores of the temperament scale subgroup (TEMPS-A), there was no identifiable difference between the groups in terms of hyperthymic temperament [F (2,117)=2.48, p=0.88]. However, for depressive temperament [F (2,117)=22.05, p<0.001], cyclothymic temperament [F (2,117)= 26.18, p<0.001], irritable temperament [F (2,117)=15.41, p<0.001] and anxious temperament [F (2,117)=18.79, p<0.001] the scores showed significant statistical differences between the groups. Post hoc analysis (Tukey's HSD) showed that depressive, cyclothymic, irritable and anxious temperament scores were significantly higher in the ADHD group than in the control group (
When we compared ADHD and BD groups by post hoc analysis (Tukey's HSD); irritable temperament sub-scores were significantly higher in the ADHD group. There was no statistically significant difference for the other temperaments (
Compared to the control group with a post hoc analysis (Tukey's HSD); depressive, cyclothymic, irritable and anxious temperament sub-scores were significantly higher statistically in the BD group (
Twenty patients (50%) in the ADHD group were not diagnosed with a comorbid mood disorder. Temperament scale scores of the ADHD group without a concurrent mood disorder (MD) are compared to those of the BD and the control groups on
Eleven patients (55%) from the ADHD group without comorbid mood disorder MD were male. Their mean age was 26.2±8.57. There was no statistically significant difference among the three groups in terms of age [F (2,97)=2.59, p=0.80)], and sex (χ2=0.61, p=0.97). In addition, we performed a Mann Whitney U test to compare the two groups, ADHD with or without comorbid BD, and the analysis revealed that there was no significant difference between the two groups in terms of their mean temperament scores.
When we compared the scores of the temperament scale ADHD subgroup (TEMPS-A) without MD, the BD and the control groups; there was no difference among the groups in relation to hyperthymic temperament characteristics [F (2, 97)=1.85, p=0.16]. However, the depressive temperament [F (2, 97)=20.75, p<0.001], cyclothymic temperament [F (2, 97)=18.50, p<0.001], irritable temperament [F (2, 97)=7.97, p<0.001] and anxious temperament [F (2, 97)=7.97, p<0.001] scores were statistically significantly different between the groups. Post hoc analysis (Tukey's HSD) showed that depressive, cyclothymic, irritable and anxious temperament scores were statistically significantly higher in the ADHD group than in the control group (
When we compared the ADHD and BD groups by post hoc analysis (Tukey's HSD); there was no statistically significant difference for any of the temperament subscale scores (
In this study, our aim was to identify the temperamental characteristics of adults diagnosed with ADHD and to compare their temperamental characteristics with those of patients diagnosed with bipolar disorder. To our knowledge, this is the first study investigating affective temperaments in adults diagnosed with ADHD.
All temperament scores (depressive, cyclothymic, irritable, and anxious) except for hyperthymic temperament were higher in patients diagnosed with ADHD and BD as compared to the healthy controls. The hyperthymic temperament scores of patients with ADHD, BD and controls were similar. The most common dominant temperament was irritable temperament for the ADHD group (n=6) and depressive temperament for the BD group (n=12). Our findings for the BD group is not in line with previous studies, which have reported that hyperthymic, cyclothymic and irritable temperaments were prominent in patients with BD.
When all patients with ADHD were included in our analyses, the ADHD group scored significantly higher on the irritable temperament scale as compared with the BD group. All other temperament scores were similar.
Because mood disorders may affect temperamental characteristics,
Cognitive impairments are not unusual in patients with BD
These results should be interpreted cautiously. First, our sample size was small and the temperamental characteristics of our BD group were different from those reported by previous mainstream findings. Second, we did not assess the premorbid personalities of patients diagnosed with BD and ADHD. Because of this, effects from illness or other residual states at the time of assessment cannot be ruled out. In an effort to overcome this limitation, all subjects were assessed according to DSM-IV criteria during a period of full remission from manic and depressive episodes. Third, the affective temperament subtypes were determined by means of a self-report questionnaire. Fourth, the HAM-D and A scores were significantly higher in the ADHD group, and this could affect their performance on the self-rating scale of the TEMPS. Finally, because for adults diagnosed with ADHD comorbidity is the rule rather than the exception, the sample size of our ADHD group without a comorbid mood disorder was particularly small.
Despite these limitations, this study indicates that it may be valuable to take into account the affective temperamental characteristics of patients with ADHD and BD in future studies that consider the clinical distinctions or similarities between these disorders.
Recognizing temperamental characteristics gives us a better understanding of adult ADHD and may help us to develop more accurate definitions of the disorders. In future studies a larger sample size could help to distinguish temperamental characteristics of ADHD subtypes.
Demographic characteristics and comparison of HAM-D, HAM-A, YMRS and WURS scores of adults with attention deficit-hyperactivity disorder, bipolar disorder and healthy control groups
*chi-square (χ2), †denotes no significant difference; >denotes significantly higher score. HAM-D: Hamilton Depression Rating Scale, ADHD: attention deficit-hyperactivity disorder group, HAM-A: Hamilton Anxiety Rating Scale, BD: bipolar disorder group, YMRS: Young Mania Rating Scale, Control: healthy control group, WURS: Wender-Utah Rating Scale, ANOVA: analysis of variance
A comparison of the scores of the temperament subtypes between study groups
*denotes no significant difference; >denotes significantly higher score. ADHD: attention deficiency and hyperactivity disorder, BD: bipolar disorder, ANOVA: analysis of variance, HSD: honestly significant difference
A comparison of the temperament scale scores of the ADHD group without major depression, with the bipolar and control groups
*denotes no significant difference; >denotes significantly higher score. ADHD: attention deficiency and hyperactivity disorder, BD: bipolar disorder, ANOVA: analysis of variance, HSD: honestly significant difference