Introduction

Aging of the world’s population has led to an increase in the number of elderly people with dementia. In addition to cognitive impairment, these elderly frequently show abnormal behaviors, such as delusion, agitation, and wandering [1,2,3], defined as the Behavioral and Psychological Symptoms of Dementia (BPSD) [4]. Since patients manifesting BPSD can be a major burden for their families and caregivers [5], and since the quality of life of such patients deteriorates, due to earlier [6] and/or increased institutionalization [7], adequate treatment or care is necessary.

Although the prescription of anti-psychotic drugs for a limited period by dementia specialists is clinically useful [8], easy administration of such drugs by non-specialists might lead to adverse effects, such as drug-induced Parkinson syndrome [9]. Alternatively, traditional herbal medicines can be used clinically for treatment.

Yokukansan is one of the traditional herbal medicines (Kampo medicine in Japan) that is commonly used for the treatment of BPSD [10], and some neuropharmacological actions have been reported [11]. A recent systematic review [12] described five RCTs with 381 patients, versus controls, that reported that yokukansan significantly decreased BPSD total scores, as well as the BPSD subscale of “active symptoms”, i.e., delusions, hallucinations, and agitation/aggression. However, the review reported that yokukansan was not particularly beneficial for Alzheimer disease (AD) patients.

Among the compounds in herbal medicines, Kawahata et al. [13]. discovered nobiletin as a natural compound that exhibits anti-dementia actions in animals. Citrus reticulata or C.unshiu peels are employed as “chinpi” and include a nobiletin (Nchinpi, a nobiletin-rich Citrus reticulata). There is only one Kampo drug that contains Nchinpi, a nobiletin-rich Citrus reticulata, yokukansankachimpihange.

Yokukansankachimpihange contains yokukansan and chinpi, which have traditionally been used for the treatment of neurasthenia, hysteria, insomnia, menopausal neurosis, and pediatric epilepsy [14]. Three types of yokukansankachimpihange are available for clinical use; however, only one type, produced by Kotaro-Kampo Pharmaceutical, includes Nchinpi. Therefore, we have used the yokukansankachimpihange produced by Kotaro-Kampo Pharmaceutical.

Since cholinesterase inhibitors, such as donepezil, are already established drugs for AD [15], a treatment only using Kampo medicine without a cholinesterase inhibitor would be ethically inappropriate. Thus, we designed the observational study with two groups, i.e., yokukansankachimpihange with donepezil versus donepezil alone (yokukansankachimpihange control).

The drug yokukansankachimpihange has been approved to be administered for dementia patients in Japan. Whether or not administered is completely the decieion of individual doctors, different from the situation of donepezil as recommended by the guideline of dementia medicine. Thus, the study is an observation study and not a clinical trial of a new drug.

The aim of this study is to prove the hypothesis that: since yokukansankachimpihange produced by Kotaro-Kampo Pharmaceutical contains yokukansan and Nchinpi, the BPSD would be improved specifically for the “active symptoms”, i.e., delusions, hallucinations, and agitation/aggression, through the yokukansan, and that cognitive function could also be improved by the Nchinpi.

Methods

This is not a clinical trial, but an observational study of drugs already used in a routine medical practice. Thus, this study was performed by routine health insurance in the Japanese system.

Ethics

Written informed consent was obtained from each patient and from their family members, in accordance with the Declaration of Helsinki. The study protocol was approved by the Ethical Committee of the Osaki-Tajiri SKIP Center.

Patients

This study was performed at the memory clinic at the Osaki-Tajiri SKIP Center [16]. This is an observational study and not a critical trial using randomization.

From among 104 consecutive outpatients with dementia attending the clinic between October 2011 and August 2014, 114 patients with AD who met the following inclusion and exclusion criteria were selected. Secondly, patients who were treated with donepezil without yokukansankachimpihange, and the patients who were treated with donepezil followed by yokukansankachimpihange were selected. Thirdly, patients were selected from among both groups by matching the MMSE scores. Ultimately, 46 (23 vs. 23) patients were enrolled as the study sample (donepezil group vs. donepezil + yokukansankachimpihange group).

The inclusion criteria were as follows: (1) probable AD according to the diagnostic criteria for the NINCDS-ADRDA (National Institute of Neurological and Communicative Diseases and Stroke/Alzheimer’s Disease and Related Disorders Association) [2, 17] and Mini-Mental State Examination (MMSE) [18] scores of 10 or greater. The exclusion criteria were as follows: (1) anti-psychotic or antidepressant drug use; (2) any Kampo medicine use; (3) history of stroke, cerebral contusion, or other systematic disorders that could affect central nervous system function, i.e., hypothyroidism or decreases in vitamin B1, B6, B12; and (4) cerebrovascular diseases shown by MRI.

The patients in the donepezil group received donepezil 10 mg/day after breakfast, after confirmation that there were no side effects following a trial period in which they were treated with 3 mg/day for 2 weeks. The donepezil + yokukansankachimpihange group patients received the same dose of donepezil together with yokukansankachimpihange 3.0 three times after the meals.

Sources of Drugs

The donepezil and yokukansankachimpihange are officially recognized drugs for treatment. The donepezil is from Eisai, and the yokukansankachimpihange is from Kotaro-Kampo. The former is a tablet and the latter a powder.

Neurobehavioral Assessments

Behavioral Abnormalities

Behavioral abnormalities were assessed using the Frequency-Weighted Behavioral Pathology in Alzheimer Disease Rating Scale (BEHAVE-AD-FW) [19].

According to the scale, the BPSD are classified into 7 subcategories: A, Paranoid and Delusional Ideation; B, Hallucinations; C, Activity Disturbances; D, Aggressiveness; E, Diurnal Rhythm Disturbances; F, Affective Disturbance; and G, Anxiety and Phobias. Activity Disturbances (C) involves wandering or meaningless behavior, Aggressiveness (E) includes violent speech or behavior towards others, and Diurnal Rhythm Disturbance (E) includes disturbances in daily sleeping/waking rhythms. Categories A, B, F and G are defined as psychological symptoms and categories C, D and E as behavioral symptoms.

Cognitive Functions

From the routine neurobehavioral assessment tools available, the MMSE and the Digit Symbol test of WAIS-R were selected to evaluate global cognitive function and executive function, respectively.

The MMSE is an established test that assesses global intellectual function. For the Digit Symbol subtest, we have previously demonstrated that patients who were responsive to donepezil had higher baseline scores compared with non-responders, and that the scores correlated with the density of donepezil binding sites, as assessed using [11C]-donepezil positron emission tomography [20]. Thus, we considered that the two tests in combination were appropriate assessment tools for examining the efficacy of drug treatment for AD.

Analyses

Since the drug treatments were performed by one of the authors, an independent research technician, who was blinded to all clinical data, analyzed the data using the SPSS software. K.M. is a board-certified instructor for neurology and geriatric psychiatry.

Changes in Cognitive Functions

The datasets at two time points were analyzed blindly: at pre-treatment (i.e., the start of donepezil treatment with or without yokukansankachimpihange for each of the two groups), and at the assessment time (defined here as “post-treatment”), including the MMSE and digit symbol (DS) for general cognitive and executive functions, respectively.

Changes in the BPSD

The BEHAVE-AD-FW scores were similarly analyzed at the two time points (i.e., pre- and post-treatment).

Use of Anti-Psychotic Drugs in Each Group

Risperidone and levomepromazine are commonly used atypical anti-psychotics for the treatment of BPSD at the center [8]. The use of these drugs during the observation period was assessed between the two groups.

Results

Table 1 presents the clinical data for both groups.

Table 1 Clinical data for both groups

Changes in Cognitive Functions

The mean (SD) post-treatment MMSE scores for the two groups (donepezil + yokukansankachimpihange vs. donepezil groups) were 16.3 (3.8) versus 18.3 (4.8), and those of Digit Symbol were 18.1 (9.7) versus 19.4 (7.6), respectively. None of the values were significantly different between the groups or over time (i.e., pre- vs. post-treatment).

Figure 1 illustrates the individual changes for both tests in the donepezil + yokukansankachimpihange group. Similar changes are shown in Fig. 2 for the donepezil group. No significant changes were noted for either group.

Fig. 1
figure 1

Effects of donepezil and Yokukansankachimpihange on cognitive function. MMSE Mini-Mental State Examination. MMSE: Z = − 1.443, p = 0.149; Digit Symbol: Z = − 1.636, p = 0.102, by the Wilcoxon rank test. Thick black line indicates the mean

Fig. 2
figure 2

Effects of donepezil on cognitive function. MMSE Mini-Mental State Examination. MMSE: Z = 0.553, p = 0.580; Digit Symbol: Z = 0.380, p = 0.704, by the Wilcoxon rank test. Thick black line indicates the mean

Changes in the BPSD

Figure 3 illustrates the changes in the BEHAVE-AD-FW total score for the donepezil + yokukansankachimpihange group. The score decreased significantly after treatment.

Fig. 3
figure 3

Effects of donepezil and Yokukansankachimpihange on BPSD. BEHAVE-AD-FW  the Frequency-Weighted Behavioral Pathology in Alzheimer Disease Rating Scale, BPSD behavioral and psychological symptoms of dementia. Wilcoxon rank test: Z = − 2.979, p = 0.003. Thick black line indicates the mean

Regarding the subscales of BEHAVE-AD-FW, the statistical significances (Wilcoxon rank test) were as follows: For A, Paranoid and Delusional Ideation (Z = − 1.265, p = 0.206); B, Hallucinations (Z = − 1.069, p = 0.285); C, Activity Disturbances (Z = − 1.432, p = 0.152); D, Aggressiveness (Z = − 0.720, p = 0.471); E, Diurnal Rhythm Disturbances (Z = − 2.368, p = 0.018); F, Affective Disturbance (Z = − 1.703, p = 0.089); and G, Anxiety and Phobias (Z = − 1.879, p = 0.060). Only the subscale of F showed a significant decrease after the treatment, although those of F and G exhibited a tendency to be decreased.

Use of Anti-Psychotic Drugs in both Groups

Figure 4 presents the proportion of subjects that were using atypical anti-psychotics (risperidone, levomepromazine). About 35% patients in the donepezil group required anti-psychotics for the treatment of BPSD, especially in the treatment of “active symptoms.” Although no significant difference was noted (Chi square test), the donepezil + yokukansankachimpihange group exhibited a lower rate of anti-psychotic use compared with the donepezil group.

Fig. 4
figure 4

Percent subjects using atypical anti-psychotics (risperidone, levomepromazine)

Discussion

Changes in Cognitive Functions

Surprisingly, neither donepezil alone nor donepezil and yokukansankachimpihange showed any effect on cognitive functions in this study. As shown in Figs. 1 and 2, there were three responders, as indicated by a MMSE increase of 3 + points [20] in the donepezil + yokukansankachimpihange group, compared with 10 in the donepezil group. The tendency for the donepezil group to include more responders compared with the donepezil + yokukansankachimpihange group could lead us to the hypothesis that the combined use might cancel out the effects of each of the drugs. However, the small sample size did not allow us to perform a secondary analysis.

Changes in the BPSD

A systematic review of RCTs related to the efficacy of cholinesterase inhibitors, such as donepezil, in the treatment of BPSD of AD was recently published [15]. The evidence supporting the efficacy of cholinesterase inhibitors in BPSD is limited. Thus, we should discuss the positive effect of the combined use of donepezil and yokukansankachimpihange.

In contrast to the hypothesis introduced by the previous finding of yokukansan [11], yokukansankachimpihange did not improve “active symptoms”, as shown by the non-significant effects revealed here on subscales A (Paranoid and Delusional Ideation), B (Hallucinations), C (Activity Disturbances), and D (Aggressiveness).

However, there was a positive effect on the subscale of E (Diurnal Rhythm), with a tendency on the subscales of F (Affective Disturbance) and G (Anxiety and Phobias). An improvement in the diurnal rhythm may improve affective disturbance and anxiety. Yokukansankachimpihange is considered to exhibit a mild stabilizing effect on emotion.

Use of Anti-Psychotic Drugs in both Groups

About 35% patients in the donepezil group required the use of anti-psychotics for the treatment of BPSD, especially for “active symptoms.” Taking into consideration the lack of any difference between groups for the pre-treatment subscores of BPSD, and that the donepezil + yokukansankachimpihange did not affect “active symptoms, but had positive effects on the disturbed diurnal rhythm, affective disturbance and anxiety, we consider that the “active symptoms”, which can easily lead physicians to prescribe anti-psychotics might be due to psychological symptoms and that it may not be necessary to undergo treatment with such drugs.

Actually, although the current findings are limited to delusion among the BPSD, we have previously reported that several types of delusion can be due to brain dysfunction as well as psychological symptoms [21], and that a type of delusion can be understood based on cognitive dysfunction [22]. However, in both cases, anti-psychotics were unnecessary.

Limitations

We should mention some methodological issues with the study. First, the design was an observational study, not a RCT. Indeed, it is difficult to prepare a placebo for this drug, since this is a usual drug already used by a routine clinical medicine. This is not a clinical trial. Although the group on drug plus Kampo used less anti-psychotics (Fig. 4), this group also appeared from BEHAVE-AD-FW measures (Table 1) to have more behavioral problems; both of these factors may influence group comparisons. Additionally, the lack of a placebo for the Kampo medicine meant that the patients all knew they were taking it. Second, a possible placebo effect of Kampo medicine was not excluded. Some older people in the community are convinced of the positive effect(s) of herbal medicines. Third, the efficacy of donepezil could not be controlled for in either group. Despite these limitations, we consider that the results can provide some evidence supporting the use of yokukansankachimpihange. A prospective, cross-over design study will be necessary to further clarify these points.

Conclusions

The findings suggest that a combined treatment of yokukansankachimpihange with donepezil has a positive clinical effect on improving behavioral abnormalities. Improvements in the diurnal rhythm may improve affective disturbance and anxiety. Thus, yokukansankachimpihange is considered to have a mild stabilizing effect on emotion. A future study separating Nchimpi from the yokukansankachimpihange is planned for clarifying its effect.