Objective: The aim of the present study was to identify individual symptoms whose early improvements contributed to subsequent treatment response to antipsychotics for neuropsychiatric symptoms (NPSs) in patients with Alzheimer’s disease (AD) using the dataset of the Clinical Antipsychotic Trials of Intervention Effectiveness-Alzheimer’s Disease (CATIE-AD).
Methods: The CATIE-AD study was conducted between April 2001 and November 2004 at 45 sites in the United States. Data for 421 patients with DSM-IV AD with NPSs treated with antipsychotics were analyzed in the present study. Treatment response was defined as a reduction of ≥ 9 points in the Neuropsychiatric Inventory (NPI) score or a reduction of ≥ 25% from baseline in Brief Psychiatric Rating Scale (BPRS) total score at week 8. Logistic regression analyses were performed to examine associations between response and clinical and demographic characteristics, including each total or individual symptom score reduction at week 2.
Results: Reduction in NPI or BPRS total score at week 2 and several individual symptom score reductions (euphoria/elation, irritability, hallucinations, anxiety, agitation, apathy, disinhibition, and depression among NPI subitems; excitement, suspiciousness, disorientation, hostility, depressive mood, and emotional withdrawal among BPRS subitems) at week 2 were significantly associated with subsequent treatment response at week 8 (all P values < .05); Early non-improvements of irritability and suspiciousness were shown to be especially influential clinical markers in predicting subsequent treatment nonresponse. Furthermore, healthier condition at baseline was significantly associated with treatment response at week 8 (P < .05).
Conclusions: Although further research to validate these preliminary findings is needed, focusing on early improvements of individual symptoms could help identify subsequent treatment responders to antipsychotics in AD patients with NPSs.
Trial Registration: ClinicalTrials.gov identifier: NCT00015548
ABSTRACT
Objective: The aim of the present study was to identify individual symptoms whose early improvements contributed to subsequent treatment response to antipsychotics for neuropsychiatric symptoms (NPSs) in patients with Alzheimer’s disease (AD) using the dataset of the Clinical Antipsychotic Trials of Intervention Effectiveness-Alzheimer’s Disease (CATIE-AD).
Methods: The CATIE-AD study was conducted between April 2001 and November 2004 at 45 sites in the United States. Data for 421 patients with DSM-IV AD with NPSs treated with antipsychotics were analyzed in the present study. Treatment response was defined as a reduction of ≥ 9 points in the Neuropsychiatric Inventory (NPI) score or a reduction of ≥ 25% from baseline in Brief Psychiatric Rating Scale (BPRS) total score at week 8. Logistic regression analyses were performed to examine associations between response and clinical and demographic characteristics, including each total or individual symptom score reduction at week 2.
Results: Reduction in NPI or BPRS total score at week 2 and several individual symptom score reductions (euphoria/elation, irritability, hallucinations, anxiety, agitation, apathy, disinhibition, and depression among NPI subitems; excitement, suspiciousness, disorientation, hostility, depressive mood, and emotional withdrawal among BPRS subitems) at week 2 were significantly associated with subsequent treatment response at week 8 (all P values < .05); Early non-improvements of irritability and suspiciousness were shown to be especially influential clinical markers in predicting subsequent treatment nonresponse. Furthermore, healthier condition at baseline was significantly associated with treatment response at week 8 (P < .05).
Conclusions: Although further research to validate these preliminary findings is needed, focusing on early improvements of individual symptoms could help identify subsequent treatment responders to antipsychotics in AD patients with NPSs.
Trial Registration: ClinicalTrials.gov identifier: NCT00015548
J Clin Psychiatry 2020;81(2):19m12961
To cite: Nagata T, Shinagawa S, Yoshida K, et al. Early improvements of individual symptoms with antipsychotics predict subsequent treatment response of neuropsychiatric symptoms in Alzheimer’s disease: a re-analysis of the CATIE-AD study. J Clin Psychiatry. 2020;81(2):19m12961.
To share: https://doi.org/10.4088/JCP.19m12961
© Copyright 2020 Physicians Postgraduate Press, Inc.
aDepartment of Psychiatry, The Jikei University School of Medicine, Tokyo, Japan
bDepartment of Psychiatry, Airanomori Hospital, Kagoshima, Japan
cDepartment of Neuropsychiatry, Keio University School of Medicine, Tokyo, Japan
dPharmacogenetics Research Clinic, Centre for Addiction and Mental Health, Toronto, Ontario, Canada
*Corresponding author: Tomoyuki Nagata, MD, PhD, Department of Psychiatry, The Jikei University School of Medicine, 3-25-8 Nishishimbashi, Minato-ku, Tokyo 105-8471, Japan ([email protected]).
Alzheimer’s disease (AD) is a neurodegenerative disease characterized by neurocognitive impairment, which progressively impairs activities of daily living (ADL) including self-care, housework, and social activity.1 During the long-term course of the disease, neuropsychiatric symptoms (NPSs), including psychosis, aggression, depression, disinhibition, and apathy, appear in patients with AD, which increases the distress of patients and their caregivers and accelerates institutionalization.2 Although non-pharmacologic interventions are considered to be the first-line management of these NPSs, psychotropic medications are often necessitated in a real-world clinical setting.3,4 Among them, antipsychotics are frequently used to manage NPSs; however, usage of antipsychotics for elderly patients is still controversial due to safety concerns such as increased mortality and adverse effects, particularly in patients with dementia.5 Therefore, it is crucial to identify clinical predictors of response to antipsychotics to confirm the effectiveness (efficacy and tolerance) of antipsychotic treatment for NPSs in patients with AD.
Several studies6-9 noted clinical predictors of subsequent favorable treatment outcomes of NPSs in patients with AD. A previous study8 identified the following predictors at baseline for subsequent better treatment response at week 8: a lower global cognitive status, treatment with risperidone (versus olanzapine or quetiapine), past medical history of diabetes mellitus, healthier physical status, and severer initial psychotic symptoms of greater severity. Furthermore, recent studies demonstrated that early improvements of the symptoms by placebo may be clinical predictors of subsequent treatment response in patients with AD who had NPSs.9 Moreover, such findings obtained from these AD studies are also found in other studies conducted in patients with schizophrenia.10-12 All of the previous studies in AD, however, focused on early improvement of the overall severity of NPSs (eg, reduction in total scores on the Brief Psychiatric Scale [BPRS] or Neuropsychiatric Inventory [NPI] from baseline to endpoint) as a clinical predictor of subsequent treatment outcomes rather than individual NPSs in patients with AD.9 Given limited time in the daily clinical practice, it is helpful for clinicians to be able to predict a more detailed subgroup of patients who may respond or not respond to antipsychotic treatment as early as possible after treatment commencement, focusing on trajectories of individual symptoms in the early stage of treatment.
The aim of the present study was to identify individual symptoms such as psychosis or aggression by which early improvements in scores on the NPI and BPRS at week 2 could predict subsequent treatment response of the overall NPSs to antipsychotics at week 8 in patients with AD.
METHODS
Study Design and Participants
In the present study, we used the CATIE-AD (ClinicalTrials.gov identifier: NCT00015548) phase 1 dataset, which is ideal given its detailed background information and inclusion of clinically defined AD among a clinic/research-based population.6,13 The CATIE-AD study included patients with psychotic or aggressive symptoms who needed administration of atypical antipsychotics as a pharmacologic intervention for troubles in their daily life.13 The CATIE-AD trial was performed between April 2001 and November 2004 at 45 sites in the United States.6,13 All patients were diagnosed as having dementia of the Alzheimer’s type according to the Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition (DSM-IV), or probable AD based on the history, physical examination, and results of structural brain imaging.6,13 All participants gave written informed consent to participate in the protocols approved by the local institutional review boards. Ethical approval was not sought for this specific analysis that used completely anonymous data. The severity of NPSs was evaluated with the NPI (score range, 0-120).14 The severity of psychiatric symptoms including hallucinatory behavior, blunted affect, anxiety, and excitement in patients with AD was measured with the BPRS (score range, 0-108).15 Both clinical scales were administered at baseline and weeks 2, 4, and 8, and information was gained from subjects (interview-based) or informants/caregivers who lived with the patients or visited the patients for at least 8 hours per week across at least 3 days per week.13 Global cognitive function was evaluated with the Mini-Mental State Examination (MMSE) (score range, 0-30).16 ADL were assessed with the Alzheimer’s Disease Cooperative Study-Activities of Daily Living (ADCS-ADL) (score range, 0-78).17 General medical health was evaluated using the General Medical Health Rating (GMHR) (score range, 1-4).18 A higher score reflects a better state for the ADCS-ADL, GMHR, and MMSE, while a higher score indicates a worse state for the BPRS and NPI. Baseline sociodemographic and clinical data including caregiver burdens were collected after the screening of eligibility for the study.19 Trial medications (olanzapine: 2.5 mg or 5.0 mg, quetiapine: 25 mg or 50 mg, risperidone: 0.5 mg or 1.0 mg, or placebo) were randomly assigned to patients in phase 1. Medication dosage was adjusted by study physicians based on their clinical judgment and patient response.13
- To identify whether early improvements of individual symptoms could predict subsequent treatment response for neuropsychiatric symptoms in patients with Alzheimer’s disease, this study analyzed the CATIE-AD phase 1 dataset.
- Predicting poor outcomes related to early non-improvements in several individual neuropsychiatric symptoms can protect patients from excessive exposure to antipsychotics that are unlikely to have a beneficial impact on patients.
Early Improvements of NPSs at Week 2
The early improvement of NPSs was defined as changes in the total score and individual item scores from baseline to week 2 of the NPI and BPRS. The 10 individual NPI symptom items included in the study were as follows: (1) delusions, (2) hallucinations, (3) agitation, (4) depression, (5) anxiety, (6) euphoria/elation, (7) apathy, (8) disinhibition, (9) irritability, and (10) aberrant motor behavior.14 The 18 individual symptoms evaluated by the BPRS were as follows: (1) somatic concern, (2) anxiety, (3) emotional withdrawal, (4) conceptual disorganization, (5) guilty mind, (6) tension, (7) mannerism and posturing, (8) grandiosity, (9) depressive mood, (10) hostility, (11) suspiciousness, (12) hallucinatory behavior, (13) motor retardation, (14) uncooperativeness, (15) unusual thought content, (16) blunted affect, (17) excitement, and (18) disorientation.15 A score for each item ranges from 0 to 12 and from 0 to 6 on the NPI and BPRS, respectively. Moreover, we defined an “early improvement” in each item score change as follows: an item score reduction of > 0.5 ×— (standard deviation [SD] of each item score change at week 2), which is a minimal improvement difference (MID) score decided on per distribution-based methods.20
Definitions of Treatment Response at Week 8 as Outcomes
The treatment improvement in the present study represented a conventional “minimum improvement” in a longitudinal treatment course. We defined treatment response based on the established consensus or conventional MID score in previous studies as follows7-9,20: (1) a score reduction of ≥ 9 points from baseline at week 8 on the NPI calculated as MID score: 0.5 ×— (SD of the NPI total score change in the present study [17.9]), or 0 at endpoint when the baseline NPI total score was less than 9 points; and (2) reduction rate of ≥ 25% in the BPRS total score from baseline.7,20,21 The last-observation-carried-forward (LOCF) method was employed to evaluate each response outcome because the discontinuation rate at week 8 was about 50% in the dataset.6
Statistical Analysis
Multiple logistic regression model (stepwise forward selection) analyses were performed to examine factors associated with NPI treatment response at week 8 using early improvement in the NPI total and individual symptom score changes at week 2 ([score at week 2] – [score at baseline]).22 The same analysis was conducted for the BPRS. In addition, the following factors at baseline were also added as confirmed independent variables based on previous reports of the CATIE-AD study8: (1) age; total scores on the MMSE, GMHR, and BPRS; history of diabetes mellitus; and treatment with risperidone at baseline for the analysis on the NPI and (2) age and total scores on the MMSE, GMHR, and BPRS at baseline for the analysis on the BPRS.8 Nagelkerke R2 values were calculated for the explained variation. We also examined the percentage accuracy in classification, which reflects the percentage of cases that can be correctly classified as nonresponder with the independent variables. Moreover, we calculated the number needed to treat (NNT) to evaluate how much each early non-improvement at week 2 (defined based on a MID score reduction) would contribute to treatment nonresponse at week 8. A P value < .05 was considered statistically significant (2-tailed), given that the present study set an a priori hypothesis that early improvement in individual NPI and BPRS item scores would predict treatment response in patients with AD who presented with NPSs. IBM SPSS Statistics Version 22.0 (IBM Corp; Armonk, New York) was used for the statistical analyses.
RESULTS
Patient Characteristics
Four hundred twenty-one patients with AD (235 women [55.8%]; mean ± SD age = 77.9 ± 7.5 years) were included in the present analysis. Clinicodemographic characteristics at baseline are depicted in Table 1. The percentages of the responders were 46.0% for NPI-defined responders and 37.5% for BPRS-defined responders. Table 2 depicts total and individual symptom scores on the BPRS and NPI at baseline and week 2 and the score changes from baseline to week 2.
Prediction of Treatment Response at Week 8 Using Score Changes for Individual BPRS and NPI Symptoms at Week 2
Table 3 depicts the associations between clinical variables at baseline and score changes in each individual symptom at week 2 as well as subsequent treatment response per the NPI and BPRS, respectively, at week 8. For the NPI, the model explained 39% (Nagelkerke R2) of the variance in treatment response and correctly classified 76.1% of the cases. Early improvements in euphoria/elation, irritability, hallucinations, anxiety, agitation, apathy, disinhibition, and depression contributed to a higher rate of treatment response. Likewise, the model for the BPRS explained 34% (Nagelkerke R2) of the variance in treatment response and correctly classified 74.9% of the cases. Early improvements in excitement, suspiciousness, disorientation, hostility, depressive mood, and emotional withdrawal were associated with a higher rate of treatment response. Moreover, Table 3 depicts the NNT for each item of the NPI and BPRS. The numbers needed to treat for the NPI items were as follows: irritability (2.65), agitation (3.14), depression (3.91), disinhibition (3.96), hallucination (4.03), apathy (4.70), anxiety (5.08), and euphoria/elation (5.23). Numbers needed to treat for the BPRS items were as follows: suspiciousness (3.17), disorientation (3.34), excitement (3.35), hostility (3.61), emotional withdrawal (5.12), and depressive mood (5.81).
Prediction of Treatment Response at Week 8 Using Changes in NPI and BPRS Total Scores at Week 2
Table 4 depicts the associations between total score changes at week 2 and some clinical variables at baseline, and subsequent treatment response per the NPI and BPRS, respectively, at week 8. The model for the NPI explained 38% (Nagelkerke R2) of the variance in treatment response and correctly classified 76.6% of the cases. Early improvement in NPI total scores was related to a higher rate of treatment response. Likewise, the model for the BPRS explained 33% (Nagelkerke R2) of the variance in treatment response and correctly classified 73.8% of the cases. Early improvements in BPRS total scores and higher GMHR score at baseline significantly contributed to a higher rate of treatment response.
DISCUSSION
To the best of our knowledge, this study is the first to investigate individual symptoms whose early improvements with atypical antipsychotics at week 2 could predict subsequent treatment response at week 8 after initiation of antipsychotics in patients with AD who presented with NPSs. According to odds ratios in the conceptual model, the main results of this study were as follows: in patients with AD who presented with NPSs, (1) early improvement in euphoria/elation, irritability, hallucinations, anxiety, agitation, apathy, disinhibition, and depression as assessed by the NPI was related to subsequent treatment response; (2) early improvement in excitement, suspiciousness, disorientation, hostility, depressive mood, and emotional withdrawal as assessed by the BPRS was associated with treatment response; and (3) healthier condition at baseline was also related to treatment response.
A previous study11,12 demonstrated that early improvements on positive symptom items of the Positive and Negative Syndrome Scale (PANSS) were associated with long-term treatment response in patients with schizophrenia. Moreover, using 2 symptomatic factors (ie, [1] thought disturbance: hallucinatory behavior, unusual thought content, and conceptual disorganization; and [2] hostility-suspicious: hostility, suspiciousness, and uncooperativeness) on the BPRS, another study10 indicated that early improvements of positive symptoms were more robustly related to treatment response than were anxiety/depression or withdrawal/retardation factors in patients with schizophrenia. These findings emphasized the importance of careful monitoring of positive symptoms to predict subsequent treatment outcomes in patients with schizophrenia.10 In the present study, early improvement in so-called positive symptoms (suspiciousness, hostility, or hallucinations) was related to subsequent treatment response in patients with AD, which is consistent with previous studies on the treatment of schizophrenia.10-12 Next, early improvement in aggressiveness symptoms (excitement, irritability, or agitation) also contributed to subsequent treatment response of the overall NPSs. Ruberg et al12 reported that early changes (at week 2) on the excitement item of the PANSS predicted long-term treatment response to atypical antipsychotics in patients with chronic schizophrenia. Therefore, these findings indicate that it may be important to focus on the early changes in aggressive affect in patients with AD when treating psychotic or aggressive symptoms with atypical antipsychotics. Moreover, among NPI items, early improvement of euphoria/elation and disinhibition predicted subsequent treatment response of the overall NPSs. Previously,23 we classified the 12 NPI items in patients participating in the CATIE-AD trial into 4 subgroups by principal component analysis. We found that these 2 symptoms were classified in the same subgroup: the emotion and disinhibition cluster.23 A recent study24 also demonstrated that euphoria/elated affect was associated with severe agitation in patients with dementia. Therefore, early improvement of euphoria/elation or disinhibition may contribute to the improvement of agitation in patients with AD, which may, in turn, lead to whole treatment response for NPSs overall.
In contrast, we found that early improvements in a wide range of symptoms were related to subsequent treatment response in patients with AD presenting with NPSs. Disorientation score among BPRS items reflects comprehension of time and place and correct person identification.15 Previous studies noted that neurocognitive preservation was related to subsequent NPS improvement/prevention,25,26 supporting our result that early improvement of disorientation contributed to later treatment response. Moreover, early improvement of symptoms other than positive symptoms such as depressive mood and emotional withdrawal was also associated with subsequent treatment response. While there are pharmacologic interventions to clearly improve psychosis and aggressive symptoms, non-pharmacologic interventions for patients and their caregivers might have also improved their depressive mood or emotional withdrawal, which may, in turn, decrease overall NPS severity.27-29 When treating NPSs with antipsychotics, which target psychosis or aggression, clinicians may also need to pay attention to motivational and emotional problems and monitor early cognitive declines.
To the best of our knowledge, only 1 study to date has investigated whether early improvements in individual symptoms could predict subsequent response to antipsychotics in patients with schizophrenia. In that study, Ruberg et al12 reported that early changes in individual positive symptoms could predict long-term response to atypical antipsychotics in the treatment of schizophrenia. The evaluation of clinical severity by a total score rather than measurable individual scores is considered to be one of the limitations in modern psychiatry. Given limited time in clinical practice, further research is needed to detect individual symptoms whose improvements can predict subsequent response for each patient with schizophrenia.
When ranking these significant early non-improvements of individual items according to contribution to subsequent treatment outcomes, we compared each NNT score for the individual items (Table 3). In terms of the individual symptom items on the NPI, non-improvement in irritability (NNT = 2.65) at week 2 was the strongest predictor of treatment nonresponse compared with the other individual symptoms. With regard to the individual symptom items on the BPRS, early non-improvement in suspiciousness (NNT = 3.17) at week 2 was more strongly associated with nonresponse than the other items. These results are in line with those of previous studies10,12 of schizophrenia which reported that non-improvement in excitement and positive symptom domains were related to treatment nonresponse based on the BPRS. Therefore, these results suggest that, in an effort to avoid unnecessary adverse events, it would be beneficial to more carefully monitor irritability and suspiciousness in patients with AD whose NPSs are required to be treated with atypical antipsychotics.
Besides the early improvement in total score of the NPSs, healthier status at baseline was associated with treatment response on the BPRS in the present study (Table 4). The finding is in line with those of previous studies30,31 which noted that healthier status is a protective factor against NPSs in this patient population.
Limitations
The present study has several limitations. First, the discontinuation rate at week 8 was about 50%, which is higher than in studies evaluating atypical antipsychotic treatment response.10-12,22 Therefore, the LOCF method was employed to evaluate a treatment response outcome. Second, subsequent treatment response was defined based on previous studies.7-9,20 Although the consensus of those definitions is confirmed, an appropriate interpretation of the results may be required. Third, the influence of medication dosage was not taken into account since flexible dosing was employed in the original CATIE-AD study.13 Fourth, the antidepressant or anticonvulsant effectiveness for overall NPSs has been shown in a recent systematic review,28 but we did not include concomitant medications (ie, psychotropics, anticholinesterase drugs, or antihypertensive drugs) prior to the trial initiation as confounding factors in the present study. Although they may have influence as clinical predictors of subsequent response, we found no relationship between concomitant medications and subsequent treatment response in the previous reports of the CATIE-AD study.8 Fifth, the NPI consists of 12 individual items (eg, psychosis/aggressiveness and apathy/depressive), individual item scores of which were reported to be correlated among each other.23 Moreover, even if total NPI scores are the same for different patients, the severity or frequency of individual symptoms may be different. The NPI has a structural limitation in that NPI total score reflects the sum of the 12 items with disregard to detailed contents. Therefore, the treatment response as defined by NPI total score in the present study reflects only a change in the overall NPS severity. Sixth, although hallucinations and anxiety as noted by NPI item scores significantly contributed to subsequent treatment response, we did not find significant contributions of the same symptom items on the BPRS. While NPI item score (range, 0-12) is described by a product of its disease severity score (range, 0-3) and frequency score (range, 0-4), BPRS item score is based only on severity. Therefore, this difference in evaluation structure between the two scales might at least in part contribute to the discrepancy. For these reasons, our results should be viewed as preliminary findings that warrant a further prospective clinical study to confirm our observations.
Conclusion
In conclusion, early improvements of several individual symptoms at week 2 might contribute to treatment response at week 8 in AD patients with NPSs. Given that it may be difficult to examine all of the clinical symptoms to assess overall symptom severity in daily clinical practice, focusing on specific early improvements of individual symptoms (ie, irritability and suspiciousness) during the course of treatment with antipsychotics may help predict patients’ subsequent treatment outcomes. Ultimately, this prediction will lead to the prevention of excessive exposure to antipsychotics that are unlikely to have a beneficial impact on patients. Although our preliminary findings warrant further research to validate them, the current results suggest that focusing on trajectories of the emotional, motivational, and cognitive domains as well as the positive symptomatic domain would be helpful for clinicians to judge risk and benefit as early as possible to determine whether continuing the current antipsychotics is the best course; doing so would eventually lead to the patient’s benefit.
Submitted: June 17, 2019; accepted August 27, 2019.
Published online: February 11, 2020.
Potential conflicts of interest: Dr Shinagawa has received a Grant-in-Aid for Young Scientists (KAKENHI) and a research grant from Japan Agency for Medical Research and Development (AMED). Dr Shinagawa also receives research grants from Mitsui Life Social Welfare Foundation, Eisai, and Pfizer. Dr Yoshida has received manuscript fees from Sumitomo Dainippon, fellowship grants from the Japan Research Foundation for Clinical Pharmacology, and consultant fees from Bracket and VeraSci within the past 3 years. Dr Noda has received a Grant-in-Aid for Young Scientists (KAKENHI), a research grant from AMED, and an investigator-initiated clinical study grant from Teijin. He also receives research grants from Japan Health Foundation, Meiji Yasuda Mental Health Foundation, Mitsui Life Social Welfare Foundation, Takeda Science Foundation, SENSHIN Medical Research Foundation, Health Science Center Foundation, Mochida Memorial Foundation for Medical and Pharmaceutical Research, and Daiichi Sankyo Scholarship Donation Program; and has received research support from Otsuka, Shionogi, and Meiji Seika and receives equipment-in-kind support for an investigator-initiated study from Magventure, Inter Reha., Rogue Resolutions, and Miyuki Giken. Dr Shigeta has received speaker’s honoraria from Daiichi Sankyo, Eisai, Eli Lilly, Novartis, Takeda, Ono, Janssen, Meiji-Seika, Pfizer, and Yoshitomi-Yakuhin within the last 3 years. Dr Mimura has received grants or speaker’s honoraria from Asahi Kasei, Astellas, Daiichi Sankyo, Sumitomo Dainippon, Eisai, Eli Lilly, GlaxoSmithKline, Janssen, Meiji-Seika, Mochida, Merck Sharpe & Dohme, Novartis, Otsuka, Pfizer, Shionogi, Takeda, Tanabe Mitsubishi, and Yoshitomi-Yakuhin within the past 3 years. Dr Nakajima has received fellowship grants from Canadian Institute of Health Research; research support from Japan Society for the Promotion of Science, Japan Research Foundation for Clinical Pharmacology, Naito Foundation, Takeda Science Foundation, and Daiichi Sankyo; and manuscript fees or speaker’s honoraria from Sumitomo Dainippon and Yoshitomi Yakuhin within the past 3 years. Dr Nagata has no potential conflicts of interest relevant to the subject of this article.
Funding/support: The Clinical Antipsychotic Trials of Intervention Effectiveness-Alzheimer’s Disease (CATIE-AD) study was supported by National Institute of Mental Health Contract #N01MH90001 and by the US Department of Veterans Affairs. Medications for the study were provided by AstraZeneca Pharmaceuticals, Forest Pharmaceuticals, Janssen Pharmaceutica, and Eli Lilly. No funding was provided for the present analysis.
Role of the sponsor: The funding providers for CATIE-AD had no role in the present analysis.
Disclaimer: The content of this article reflects the views of the authors and may not reflect the opinions or views of the CATIE-AD Study Investigators or the National Institutes of Health.
Additional information: Data used in the preparation of this article were obtained from the limited access datasets distributed from CATIE-AD. Version 1 of the dataset was used.
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Editor’s Note: We encourage authors to submit papers for consideration as a part of our Focus on Geriatric Psychiatry section. Please contact Jordan F. Karp, MD, at [email protected], or Gary W. Small, MD, at [email protected].
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