Open Access 01.12.2015 | Study protocol
Electroacupuncture for older adults with mild cognitive impairment: study protocol for a randomized controlled trial
Erschienen in: Trials | Ausgabe 1/2015
Abstract
Background
Mild cognitive impairment is an intermediary state between normal aging and clinical Alzheimer’s disease. Early intervention of mild cognitive impairment may be an important strategy in the management of Alzheimer’s disease. The proposal aims to evaluate if electroacupuncture would optimize cognitive function in subjects with mild cognitive impairment and understand the role of electroacupuncture in the treatment of Alzheimer’s disease.
Methods/design
A randomised patient- and assessor-blind sham-controlled trial is designed to assess whether electroacupuncture intervention decreases the rate of cognitive decline amongst older adults with mild cognitive impairment. One hundred and fifty subjects aged 65 years of age or over with a diagnosis of mild cognitive impairment are recruited from the community and elderly centre in Hong Kong. All subjects are randomly allocated into two groups (75 subjects each group): the electroacupuncture group and sham control. Participants in the electroacupuncture group receive electroacupuncture stimulation by sterile, disposable acupuncture needles inserted to the acupoints with a depth of 1 to 3 cm. The acupuncture needles are subjected to 2 Hz electroacupuncture wihtat an intensity of 5 to 10 mA. Each participant receives electroacupuncture for 8 weeks (once a day, 3 days a week) and the treatment lasts for 30 minutes each time. For sham electroacupuncture, needles are inserted to a depth of 1 to 2 mm, and connected to the electroacupuncture device without any current passing through. Outcome measures (including primary and secondary outcome measures) are collected at baseline, at the end day of intervention, and months 4 and 6 after intervention. The primary outcome is measured by the Alzheimer Disease Assessment Scale-Cognitive subscale. Secondary outcomes are measured by the mini-mental state examination, category fluency text and the Short Form 12.
Discussion
The study will provide evidence for evaluating and understanding the role of electroacupuncture in the treatment of Alzheimer’s disease.
Trial registration
This trial is registered with chictr.org (registration number: ChiCTR-TRC-12002414. Registration date: 11 August 2012.
Nowadays, nearly 25 million people have been diagnosed with dementia worldwide, and the number is increasing by 5 million each year [1]. Alzheimer’s disease (AD) is a common dementia in older people. Patients with AD usually suffer from a progressive decline in their cognition and functional ability [2, 3]. These mental disorders seriously affect the quality of daily life of patients with AD. As the Hong Kong population has aged rapidly in recent years, AD has become an important public health problem in Hong Kong [4, 5].
The current strategy mainly relies on complementary medicine for improving quality of life and delaying cognitive decline of patients with AD. However, there is as yet no really satisfactory treatment. It is well known that AD is a progressively cognitive decline, and mild cognitive impairment (MCI) is an intermediary state between normal aging and clinical AD [6, 7]. The older adults with MCI are at increased risk for conversion to clinical AD [2, 6, 7]. Emerging evidence shows that early improvement of MCI is very beneficial to decrease the prevalence of AD [8]. Thus, there is an urgent need to search novel and effective approaches for treating MCI.
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Acupuncture is a common technique for treating neuropathy in traditional Chinese medicine. Manual and electrical stimulation on the acupoints are commonly used stimulation modes of acupuncture [9]. Increasing evidence shows that electroacupuncture could reduce the functional deficits of neurophathy [10] and prevent cognitive deficiency involved in brain diseases [11]. Jing and colleagues [12] showed that electroacupuncture could significantly improve learning and memory capacity. In mainland China, acupuncture has been used as an alternative medicine for AD and is claimed to be effective in improving intelligence. Recently, Xue and colleagues [13, 14] reported that electroacupuncture may effectively improve the learning-memory capacity of amyloid precursor protein transgenic AD mice and alleviate the pathological changes in neurons of the hippocampal region. Zhao and colleagues [15] showed that electroacupunture could shorten the waiting time for recognition and decrease the psychological stress. Many relevant clinical studies of electroacupuncture for dementia have been carried out in mainland China and benefit was reported in up to 70 to 90 % of the treatment group, but a review from the Cochrane Collaboration demonstrated that true randomised controlled trials and high-quality trials are non-existent [16, 17]. Randomised controlled trials are urgently needed.
The primary objective of this study is to evaluate if electroacupuncture can optimize cognitive function in subjects with MCI, and to understand the role of electroacupuncture in the treatment of AD.
The study is a randomised, patient- and assessor-blind sham-controlled trial with a 1:1 allocation ratio. The subjects (n = 150) are randomly allocated to the electroacupuncture group (n = 75) and sham control group (n = 75). This project is approved by the Joint Chinese University of Hong Kong-New Territories East Cluster Clinical Research Ethics Committee (CRE-2011.515-T). Written informed consent is obtained from each participant. The design is described in Fig. 1.
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Subjects who aged 65 years of age or over with a diagnosis of MCI are recruited from the community and elderly centre in Hong Kong.
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All subjects are assessed using the Clinical Dementia Rating. Case definition of MCI is based on Peterson’s criteria. In this project, the eligible criteria are adopted following the methods described by Lam and colleagues [5, 18]. The participants should be willing and able to travel to our treatment sites.
The exclusion criteria are as follows: dementia, AD, notable cognitive impairment (score of 23 or less as evidenced by mini-mental state examination (MMSE), current psychiatric disorders (for example, depression, anxiety), history of alcohol or drug abuse, bleeding disorder, currently undergoing acupuncture/taking drug for cognitive problems, or currently treated with medications affecting cognition or other serious illnesses (for example, clinically significant active heart, renal, or hepatic diseases). Patients who have difficulty in reading and understanding study questionnaire are also excluded.
Participants randomised to the electroacupuncture group will receive electroacupuncture stimulation after baseline assessment. The electroacupuncture treatment is carried out by a Chinese Medicine Practitioner registered with the Chinese Medicine Council of Hong Kong, who has at least 3 years of clinical acupuncture experience. From the view of Chinese medicine theory, the deficiency of the kidney is the main pathogenesis of MCI; thus, each participant will receive electroacupuncture at traditional acupuncture points: EX-HN1 (Sishencong); GV20 (Baihui); GB13 (Benshen); GB20 (Fengchi); GB39 (Xuanzhong); DU24 (Shenting); KI3 (Taixi) [19, 20]. The rationale for choosing the acupoints is as follows: the acupoints on the head such as EX-HN1 (Sishencong), GV20 (Baihui), GB13 (Benshen), DU24 (Shenting), and GB20 (Fengchi) have the local effect of regulating the brain function; the other acupoints on the lower limb, such as GB39 (Xuanzhong), and KI3 (Taixi), have the effect of tonifying the kidney [19, 20]. Sterile, disposable acupuncture needles with a diameter of 0.20 mm are used in the study. The puncture is made in accordance with the standards of traditional Chinese medicine, to a depth of 1 to 3 cm depending on the thickness of the local tissues. The acupoints are subjected to 2 Hz electroacupuncture from an electroacupuncture device (Hwato, Electronic Acupuncture Treatment Instrument, Suzhou Medical Appliance Factory, Jiangsu, China) at an intensity (5 to 10 mA) that can produce a muscle twitch acceptable to the participant. Each participant in the electroacupuncture group receives electroacupuncture for 8 weeks (once a day, 3 days a week) and the treatment lasts for 30 minutes each time [19, 20].
Participants randomised to the sham control group receive sham electroacupuncture treatment. For sham electroacupuncture, the short acupuncture needle is inserted to a depth of 1 to 2 mm, which is deep enough to make the acupuncture needle stand up on the skin. The needles are only connected to the electroacupuncture device without any current passing through [21, 22]. Other treatment procedures are similar to those of the electroacupuncture group.
All participants are advised not to seek any other alternative treatment affecting cognitive function (including any traditional Chinese medicine treatment or laser acupuncture, or moxibustion or other physiotherapies) during the trial period. Treatment compliance is also monitored at each appointment.
Participants are randomly allocated to either the electroacupuncture group or sham control group after the baseline assessment. The randomisation is performed according to computer generated random allocation treatment codes. The randomisation list is kept by an independent investigator not involving in the care or assessment of the participants, or in the data collection and analysis.
All participants receive similar treatment procedures. All investigators who administer the outcome measurement questionnaire and statistician are blinded to the randomisation status. In order to blind the patients, we also tell them that the electric stimulation is rather mild and some may have no obvious sensation during treatment.
Cognitive decline is measured using the Chinese version of the Alzheimer Disease Assessment Scale-Cognitive subscale (ADAS-cog) [13]. The ADAS-cog is sensitive to change over time, including some subscales for testing list learning, object naming, commands, ideational apraxia, construction, orientation, and recognition. The total possible score is 70. A score increase indicates greater severity of impairment.
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The ADAS-cog is assessed at baseline (before intervention), at 8 weeks (the end of intervention) and months 4 and 6 after intervention.
Secondary measures include the MMSE, category fluency test (CFT) and the Short Form 12 (SF12) [2, 18, 23].
The MMSE is an 11-question measure that tests five areas of cognitive function (orientation, registration, attention and calculation, recall, and language). The maximum score is 30 and a score below 24 is considered abnormal for dementia screening [2].
The CFT is used for evaluating patient executive function, semantic memory and language. The CFT requires the subjects to generate exemplars in three categories for 1 minute per category as described by Lam and colleagues [18].
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The SF12 includes 12 items testing eight concepts of both physical and mental health. The physical and mental component summary scales are scored using norm-based methods [23].
The MMSE, CFT, SF12 are also assessed at baseline (before intervention), at 8 weeks (the end of intervention) and months 4 and 6 after intervention.
Adverse events are assessed by a Chinese Medicine Practitioner at each session of acupuncture. If the participants feel discomfort, such as vomiting, nausea, dizziness, or dry mouth or itching after acupuncture, these events are recorded and assessed at the end of treatment [24]. Additionally, the use of other any additional treatment or drugs must be recorded during follow-up.
Base on previous related studies [25‐27], we assume the standard deviation of ADAS-cog to be 6. To detect a 3-point change on the scale of ADAS-cog between the electroacupuncture and sham treatment groups, a sample size of 126 will be needed with a false-positive error of 5 % and power of 80 %. Since an overall dropout rate of 20 % was anticipated, the required sample size will be 150 (75 patients per group).
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The differences between electroacupuncture and sham treatment group are assessed by an analysis of covariance using baseline score as a covariate for the primary variables. Descriptive statistics and an analysis of covariance in the presence of baseline covariates are conducted for the secondary variables. A generalized linear model is used to adjust for possible confounding variables such as age, sex, social class, and so forth. Categorical data are analysed by means of chi-squared tests. A non-parametric approach (Mann-Whitney test) is used to analyse the subscales and interval data. Frequency tables and charts are used to analyse questions in the adverse events questionnaire. All statistical analyses are performed using the Statistical Package for Social Sciences (SPSS, SPSS Inc., Chicago, USA) version 16.0. A two-sided P-value of 0.05 or less is considered to be significant.
Current management of AD mainly takes a comprehensive approach, including pharmacological and non-pharmacological interventions for cognitive and neuropsychiatric symptoms. MCI is considered an at-risk state for further cognitive deterioration. At present, there is no drug approved for the prevention of cognitive decline in people with MCI. The present study is designed to evaluate if electroacupuncture can optimize cognitive function in subjects with MCI and to understand the role of electroacupuncture in the treatment of Alzheimer’s disease.
A successful blinding during the trial will help maintain the comparability between groups. All investigators who administer the outcome measurement questionnaire and statistician are blinded to the randomisation status. We will also take measures to blind the patients. A conventional treatment is given to patients in both groups. Although we could not blind the acupuncturists, detailed instruction, such as how to avoid unnecessary conversation, to minimise the possible patient-practitioner interaction is given to them. When the acupuncturists withdraw the sham needle, they are also instructed to block the patients’ line of sight with their back or hand. The advice given to patients not to seek other treatment aims also to help maintain the comparability between groups.
Allocation concealment methods seem to adequately guard against bias. In the trial, a colleague who is not involved in the baseline assessment is responsible for preparing the sequentially numbered, opaque, sealed envelopes that contain the intervention group assignment based on the random list generated by the computer program. After the eligible patients enter the trial, the acupuncturist will open the envelopes to find the intervention assignment.
In the acupuncture clinic, most acupuncturists individualise their interventions based on the constitutional and traditional Chinese medicine diagnosis of the individual presenting with symptoms. Considering that a formulaic, fixed acupuncture protocol is relatively easy to generalize to different regions worldwide and to decrease study bias, we chose uniform acupoints for all the participants in the trial. Additionally, the sham control intervention we used in the trial is really called minimal acupuncture or superficial needling, which has been often used as a sham control in clinical acupuncture trials in the last 20 years [21]. For the study of the efficacy of electroacupucnture, a sham acupuncture in the form of superficial needling may control for needle penetration [22]. Although a possible effect of superficial needling may exist, it is assumed to be rather small with a needling depth of 1 to 2 mm and without electrical stimulation compared to the normal acupuncture with a needling depth of 10 to 30 mm and electrical stimulation. It should be a better choice than non-penetration needling as a control as we want to achieve a better blinding effect in the efficacy study.
At the end of this project, the preventative potential will be discussed in light of the results obtained. The findings of the project are expected to provide evidence for the efficacy of electroacupuncture treatment in improving cognitive function in people with MCI.
This trial is currently ongoing.
The project is supported by a grant from Health and Medical Research Fund (09100191) and the general research fund (GRF) grant from Hong Kong research grant committee (RGC) (476912). We would also like to express our sincere thanks to Ms Ada WT Fung and Mr Kelvin Wong Yuk Ming.
This article is published under license to BioMed Central Ltd. This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly credited. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
The authors declare that they have no competing interests.
Conception and design, critical revision for this study protocol: AWNL, LCWL, YQG, HWZ, CSX. Recruiting subjects and assessment: AKLK, CLLT. Acupuncture and data treatment: AKLK. All authors read and approved the final manuscript.