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. Author manuscript; available in PMC: 2009 Nov 1.
Published in final edited form as: Int J Geriatr Psychiatry. 2008 Jul;23(7):693–698. doi: 10.1002/gps.1962

A 12-week open-label pilot study of donepezil for cognitive functioning and instrumental activities of daily living in late-life bipolar disorder

Ariel G Gildengers 1,*, Meryl A Butters 1, Denise Chisholm 2, Charles F Reynolds III 1, Benoit H Mulsant 3
PMCID: PMC2771198  NIHMSID: NIHMS91830  PMID: 18172910

Abstract

Objective

To determine whether donepezil is effective in enhancing cognitive functioning and instrumental activities of daily living (IADLs) in older adults with bipolar disorder.

Methods

Twelve elderly patients with bipolar I or II disorder, with evidence of mild cognitive decrements, were administered donepezil 5–10 mg daily for 3 months. Participants had cognitive and functional evaluation pre-, on-, and 3-months post donepezil administration.

Results

Three subjects dropped out of the study. In the remaining nine subjects, no significant effects were observed in cognitive and functional measures. Seven of the nine participants asked to resume the medication after completion of the study because of the perceived beneficial effects.

Conclusions

In this small pilot study of older adults with bipolar disorder, acute treatment with donepezil was not associated with improvements in cognitive and IADL functioning. Given limitations of the study design, placebo effects could not be ruled out in the subjects who asked to resume donepezil.

Keywords: aged, bipolar disorder, cognition, IADLs, cholinesterase inhibitors

INTRODUCTION

We have previously reported on cognitive dysfunction in late-life bipolar disorder (Gildengers et al., 2004, 2007). We have observed that elders with bipolar disorder have worse information processing speed and executive functioning than age-matched comparators without history of mental illness, and that cognitive functioning is highly correlated with ability to perform Instrumental Activities of Daily Living (IADLs) (Gildengers et al., 2007). A case report has suggested that the cholinesterase-inhibitor galantamine may be beneficial in improving chronic cognitive impairment in middle-aged adults with bipolar disorder (Schrauwen and Ghaemi, 2006). Based on a retrospective chart review, cognitive changes of four cases (three women, one man; ages 34–59 years) were rated using the Clinical Global Impression scale: two patients were judged to have improved on galantamine (24 mg/ day); the two other patients discontinued galantamine due to lack of benefit at low doses. To date, no prospective study has examined the effects of cholinesterase inhibitors in elderly adults with bipolar disorder on mood stability, cognition, or IADL functioning.

We follow this case report with a case series on 12 older adults treated openly for cognitive impairment with donepezil. In these patients, cognition was assessed prospectively as part of a pilot study to examine the effects of donepezil on cognition and on mood-stability in patients 60 years and older with bipolar I or II disorder. Reports have shown that cholinesterase inhibitors improve attention and working memory in older non-demented adults (Cummings, 2000; Yesavage et al., 2002; Mumenthaler et al., 2003; Freo et al., 2005). Based on these reports and our pilot work (Gildengers et al., 2004, 2007) showing decrements in attention and executive control of working memory, we hypothesized that donepezil would improve cognitive functioning and IADL performance.

METHODS

As described elsewhere (Fagiolini et al., 2005; Gildengers et al., 2005), all patients sought treatment at Western Psychiatric Institute and Clinic (Pittsburgh, PA) and participated in intervention studies of bipolar disorder conducted within the Intervention Research Center for Late-Life Mood Disorders (IRC/LLMD) at the University of Pittsburgh School of Medicine with funding from the NIMH or from the Commonwealth of Pennsylvania. The protocol was approved by the Institutional Review Board at the University of Pittsburgh and all participants provided writteninformed consent. Inclusion criteria were: age 60 years or older; current bipolar I or II disorder diagnosis; clinical euthymia for four weeks preceding neuropsychological (NP) and IADL assessment with scores of 10 or less on both the Hamilton Rating Scale for Depression-17 item (HRSD-17) and Young Mania Rating Scale (YMRS) (APA, 2000) at the time of assessment; ability to speak English; corrected visual ability to read newspaper headlines and hearing capacity adequate to respond to a raised conversational voice; and some cognitive dysfunction demonstrated by a score 1 SD or more below age and gender-adjusted norms on the Mini Mental State Examination (MMSE), Dementia Rating Scale (DRS) total, or any sub-scale, or 1 SD or more above age and gender-adjusted norms on the Executive Interview (EXIT). Exclusion criteria were: pre-existing diagnosis of dementia, history of neurological disorder affecting the central nervous system (for example, Parkinson’s disease, traumatic brain injury, or multiple sclerosis), current use of a cholinesterase inhibitor, alcohol abuse or dependence within past 12 months, and contraindications to the use of donepezil.

Twenty-one patients were screened and completed baseline testing. Fifteen patients met all the inclusion and none of the exclusion criteria. Twelve patients provided informed consent. Following baseline assessment of attention and IADLs these 12 participants initiated donepezil 5 mg daily to be titrated to 10 mg daily after four weeks. After receiving donepezil for a total of 12 weeks, attention and IADLs were reassessed. Participants then discontinued donepezil and had attention and IADLs reassessed 3 months later. Side effects were assessed with the UKU rating scale (Lingjaerde et al., 1987). Participants were tested when euthymic. If a participant experienced mood symptoms, follow-up testing was delayed until the participant returned to euthymia. In this study, cognition was assessed with the Digit Span Subtest of the Wechsler Memory Scale-III (Attention), Trail Making Test A and Digit Symbol Subtest of the WAIS-3 (Information Processing Speed); Trail Making Test B and Stroop Interference Test (Executive Functions) (Lezak, 2004). At the completion of the study, subjects were provided donepezil if they wanted to restart it.

IADLs were assessed with a criterion-referenced, performance-based instrument, the Performance Assessment of Self-Care Skills (PASS) as previously described (Gildengers et al., 2007). Assistance was provided only when needed, with the least assistive prompt used first followed by progressively more assistive and intrusive prompts. Assistive prompts progress from verbal (scores of 1, 2, 3) to gestures, task/environmental rearrangement and demonstration, (scores of 4, 5, 6) to physical (scores of 7, 8, 9). The highest prompt needed represents the assistance level for that item. All PASS assessments were performed by the same rater (DC).

We computed the mean, standard deviation, and median for each test administered to the subjects. We compared testing results from Time 1 (pre) and Time 2 (post), and Time 2 and Time 3 (follow-up) using the Wilcoxon matched-pairs signed rank test.

RESULTS

The demographic and clinical characteristics of the 12 these participants are reported in Table 1. Nine participants were able to continue donepezil for 3 months; eight of them tolerated the 10 mg/day dose; one subject remained on the 5 mg dose. The nine participants who received donepezil for 12 weeks remained euthymic. However, two participants (#5 and #8) experienced re-emergence of depressive symptoms after discontinuing donepezil; participant #8 required a 4-month delay in testing off donepezil until she re-established euthymia. Three of the 12 participants who initiated donepezil 5 mg daily discontinued the medication within the first two weeks: one participant because of nausea and two because of manic activation.

Table 1.

Demographic and clinical characteristics of 12 elders with bipolar disorder administered donepezil

Subject 1 2 3 4 5 6 7 8 9 10* 11* 12* mean SD median Wilcoxon z =,
effect size (es)		 p
Age 64 79 64 75 81 76 75 63 82 68 86 80 74.4 7.86 75.5
Education 16 9 18 20 18 12 20 14 12 20 12 12 15.6 3.93 16.0
Gender F F F M M F M F F M F M
Race C C C C C C C C AA SA C C
CIRS-G total 10 7 8 4 15 13 9 19 8 9 4 7 9.4 4.38 8.5
CIRS-G count 8 5 5 4 9 7 6 10 4 5 2 5 5.8 2.29 5.0
MMSE 30 26 30 25 27 28 29 28 24 29 24 24 27.0 2.34 27.5
DRS total score 139 122 135 129 139 139 138 137 124 139 126 118 132.1 7.81 136.0
EXIT 8 16 14 8 12 13 6 9 13 6 10 20 10.8 3.49 11.0
Pharmacotherapy Li VLP Li LMT VLP VLP Li Li
SSRI SSRI SNRI SNRI SSRI CBZ SSRI SSRI SNRI SSRI CBZ MRT
ATTENTION
  Digit span total – pre 17 9 16 15 16 18 16 23 12 15.8 3.87 16.0
z=−0.419
es=0.15		 0.6749
    Post 19 9 13 14 18 19 21 22 11 16.2 4.60 18.0
z=−0.119
es=0.04		 0.9050
    Follow-up 18 11 12 17 14 19 25 18 13 16.3 4.36 17.0
INFORMATION PROCESSING SPEED
  Trails A – pre 0.73 2.69 2.14 0.95 1.95 2.27 2.62 1.63 3.43 2.05 0.85 2.14
z=0.770
es=0.26		 0.4413
    Post 0.76 2.99 1.70 0.87 2.64 1.38 1.60 1.71 3.35 1.89 0.91 1.70
z=−0.534
es=0.19		 0.5936
    Follow-up 0.87 2.25 2.65 0.73 2.54 1.59 1.67 1.57 5.43 2.14 1.40 1.67
  Digit symbol – pre 78 30 30 76 34 33 33 44 28 42.89 19.87 33.00
z=−0.595
es=0.21		 0.5515
    Follow-up 79 29 30 62 39 51 57 45 9 44.56 20.73 45.00
z=−1.011
es=0.34		 0.3122
    Post 86 33 30 64 49 46 42 50 16 46.22 20.28 46.00
EXECUTIVE FUNCTIONING
  Trails B – pre 1.56 14.29 6.11 2.24 9.16 9.43 6.27 5.21 23.00 8.59 6.65 6.27
z=−0.718
es=0.06		 0.8590
    Post 2.00 10.78 8.76 2.37 5.03 9.98 3.22 5.91 50.00 10.89 15.02 5.91
z=1.481
es=0.46		 0.1386
    Follow-up 1.65 7.98 7.70 1.80 5.72 10.31 4.20 3.65 42.80 9.53 12.81 5.72
  STROOP – pre 2.50 3.69 3.96 2.83 3.64 2.83 2.40 2.23 3.09 3.02 0.62 2.83
z=−0.119
es=0.04		 0.9056
    Follow-up 2.54 3.49 4.66 2.79 2.63 2.49 3.04 1.83 7.87 3.48 1.82 2.79
z=1.051
es=0.35		 0.2930
    Post 2.28 3.38 4.57 2.60 3.56 2.60 2.38 1.45 2.85 0.95 2.60
IADL FUNCTIONING
  PASS assists – pre 1.00 2.00 1.80 1.10 1.30 1.10 0.00 0.20 7.90 1.82 2.37 1.10
z=1.007
es=0.34		 0.3139
    Post 0.00 2.10 1.40 0.90 1.40 0.00 1.70 0.30 5.70 1.50 1.74 1.40
z=−1.718
es=0.52		 0.0858
    Follow-up 0.30 3.60 3.20 1.70 0.50 1.00 1.10 0.80 9.00 2.36 2.75 1.10
Restart donepezil(Y/N) N Y Y Y Y Y Y N Y
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*

Subjects 10–12 exited the study.

Tests highlighted in gray are "reverse-coded" - higher scores indicate worse performance.

Abbreviations: RACE: W (Caucasian), AA (African-American), SA (Southeast Asian); CIRS-G = Cumulative Illness Rating Scale - Geriatric; MMSE = Mini Mental State Examination; DRS = Dementia Rating Scale; EXIT = Executive Interview; Li = lithium, VLP = valproate, LMT = lamotrigine, SSRI = selective serotonin reuptake inhibitor; SNRI = Serotonin Norepinephrine Reuptake Inhibitor; CBZ = carbamazepine, MRT = mirtazapine; Digit Span Total = number of digits retained forward and backward; Trails A = Number of seconds per completed connection; Trails B = Number of seconds per completed connection; PASS Assists = Performance Assessment of Self-Care Skills – Level of Assistance Provided.

Although there were some numerical improvements (and decrements) in the measures of cognitive and IADL functioning from Time 1 to Time 2, overall the positive (or negative) effects were small to medium, not consistent across all subjects, and not statistically significant. Mean (SD) total UKU scores were not significantly different across time points: Time 1, 6.2 (4.1); Time 2, 6.6 (4.5); Time 3, 7.7 (3.0).

Seven of the participants asked to resume donepezil after completing the study because they felt it improved their concentration and attention and IADL functioning. The two subjects (1, 8) who did not restart donepezil were both female and the youngest members of the group. Additionally, these two subjects scored higher than the other six subjects on the cognitive and functional tests at baseline and follow-up.

DISCUSSION

In this pilot study, 12 patients with bipolar disorder with mild cognitive decrements were treated with donepezil and assessed prospectively. We observed no significant improvements in cognitive or IADL functioning as had been hypothesized. Given the small to medium effect sizes observed, 0.04 to 0.5, roughly 50 to 100 participants would have been needed to detect a statistically significant effect of donepezil on cognitive or IADL functioning.

That two participants experienced manic activation shortly after initiating donepezil adds an important note of caution to this report, given prior report of mania associated with donepezil (Benazzi, 1999). Benazzi describes manic activation with donepezil in four elderly patients with dementia, two with bipolar I disorder, one with major depressive disorder, and one with delusional disorder. Manic activation occurred in close temporal association with the start of donepezil and resolved spontaneously with discontinuation of donepezil in 1 to 7 days. A second trial of donepezil in the two non-bipolar patients resulted in the same pattern of manic activation. He suggests that cholinesterase inhibitor activation of the central cholinergic system can cause noradrenergic and dopaminergic system activation, resulting in rebound mania. Note, in contrast to our report, neither patient described with bipolar disorder was on an anti-manic mood stabilizer.

A number of limitations need to be highlighted. First, these findings reflect open, naturalistic, treatment with donepezil; assessors were un-blinded to the time-point of assessment, there was no control group, and no ability to control for practice effects. Second, there were ‘ceiling effects’ and overall small effect sizes in a limited number of subjects, likely related to the broadly defined inclusion criteria for cognitive dysfunction. Third, the assessment instruments employed may have arguably been insensitive to examining the cognitive/functional improvements experienced by the participants, given that seven of the nine participants asked to resume the medication after completion of the study. Last, the subjective concerns regarding cognitive functioning in the study participants may have made them susceptible to a placebo effect of donepezil.

Cholinesterase Inhibitors have been examined for cognitive dysfunction other than dementia in patients with schizophrenia with mixed evidence of benefit (Chouinard et al., 2007; Stip et al., 2007). Cognition in middle aged and older adults with schizophrenia is impaired in a variety of domains that overlap with decrements in bipolar disorder (Depp et al., 2007). To date there have been various published trials examining donepezil, galantamine, and rivastigmine. In a quantitative systematic review of studies examining the effects of cholinesterase inhibitors on various cognitive domains, Chouinard et al. (2007) find support for beneficial effects on attention and memory. However, they qualify their findings by noting that few data appropriate for the meta-analysis were found, and that their findings need to be substantiated by larger trials.

Considering the limitations described above, our data might suggest further examination of donepezil (or galantamine, noting its different pharmacologic effects) for cognitive dysfunction associated with bipolar disorder in a larger, randomized controlled trial employing more precise measures of cognition and more advanced measures of IADLs. Studying the utility of employing donepezil or other cholinesterase inhibitors in this population long term will be problematic, since it is unclear if the cognitive deficits in bipolar disorder are progressive (Robinson and Ferrier, 2006). Further, cholinesterase inhibitors may be more efficacious in patients with more significant deficits when used long term, for example, mild to moderate Alzheimer’s disease, than when used acutely in patients with mild cognitive decrements (Petersen et al., 2005; Loy and Schneider, 2006). If treatments can be demonstrated to improve cognitive functioning in bipolar elders, this would clearly be beneficial to patients and their caregivers, enhancing patients’ day to day independence and potentially quality of life.

ACKNOWLEDGEMENTS

Supported in part by Public Health Service grants P30 MH52247, P30 MH71944; T32 MH19986, K23 MH 073772, K23 MH 67710, K01 MH01684, K24 MH069430, R01 MH072947, and Commonwealth Center of Excellence for Bipolar Disorder from the Pennsylvania Department of Health, grant ME–02385.

The authors would like to thank the staff of the Clinical Trials Management Unit of the Intervention Research Center and the Advanced Center for Intervention and Services Research for Late-Life Mood Disorders for their care of the patients in this study.

CONFLICT OF INTEREST

Dr Ariel G. Gildengers has participated in scientific advisory board meetings for Shire Pharmaceuticals.

Dr Charles F. Reynolds III has received research support from Forest Pharmaceuticals and Glaxo-Smith-Kline.

Dr Benoit H. Mulsant has received research support from Eli Lilly, Janssen, and Pfizer, has participated in scientific advisory board meetings of Lundbeck and Pfizer, and has given lectures in support of AstraZeneca and Pfizer.

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