Yue WU*, Wenwei XU, Xiaowei LIU Qing XU, Li TANG Shuyan WU
•Original research article•
Adjunctive treatment with high frequency repetitive transcranial magnetic stimulation for the behavioral and psychological symptoms of patients with Alzheimer’s disease:a randomized, double-blind, sham-controlled study
Yue WU1,2*, Wenwei XU1,2, Xiaowei LIU1,2Qing XU1,2, Li TANG1,2Shuyan WU1,2
Alzheimer’s disease; behavioral and psychological symptoms; cognitive function; transcranial magnetic stimulation; China
In China the prevalence of senile dementia in persons 60 years of age and older is reported to be 4.8%.[1]Dramatic improvements in health in China and the one child per family policy have resulted in a rapid increase in the proportion of the population that is elderly, and,thus, a similarly dramatic increase in the number of individuals with dementia. As the most common type of senile dementia, Alzheimer’s Disease (AD) has become a serious public health problem. AD is a primary degenerative cerebral disease of unknown etiology with a predominant clinical picture of cognitive impairment and different degrees of behavioral and psychological symptoms of dementia (BPSD). The incidence of BPSD during different stages of AD is 70-90%,[2-3]and primarily consists of hallucinations, delusions, agitation, and behavioral disorders. Moreover, BPSD can exacerbate the cognitive and social dysfunction of AD, leading to decreased quality of life for both patients and caregivers, more frequent hospitalizations, and a higher burden of illness.
Currently, the management of BPSD usually involves the use of atypical antipsychotic medications at 1/3-1/2 the dosage recommended for primary psychosis.[4-5]However, over the last decade several studies have reported increased rates of severe adverse reactions in AD patients treated with antipsychotic medications, primarily cardiovascular events and respiratory infections.[6]This has resulted in the increased use of other, non-pharmacological methods for managing BPSD, such as physical therapy.[7]Another alternative approach to BPSD might be the use of repetitive transcranial magnetic stimulation (rTMS), a painless, non-invasive treatment that has been shown to be safe and effective for various neurological and psychiatric conditions.[8-9]rTMS has a benef i cial effect in the treatment of different mental disorders associated with the persistence of auditory hallucinations,agitation, anxiety, and depression; and it is associated with improved cognitive functioning.[10-12]Recent studies have shown that rTMS can delay the progression and improve cognitive function in AD without inducing any serious adverse events.[13-16]But there have been few studies that assess the effects of rTMS on BPSD in persons with AD. The purpose of this study is to assess whether or not rTMS used as an adjunctive treatment to low-dose risperidone can improve the BPSD symptoms and cognitive functioning of individuals with AD.
The recruitment and research procedures are shown in Figure 1. Participants in this study were recruited from the Alzheimer’s Disease Treatment Center at The Wuxi Mental Health Center from August 2013 toDecember 2014. Inclusion criteria were as foIlows:a) met the criteria for probable AD proposed by the National Institute of Neurological and Communicative Disease and Stroke and Alzheimer’s Disease and Related Disorders Association (NINCDS-ADRDA);[17]b) 60-80 years of age; c) minimum of 5 years of education; d)total score on Mini-Mental State Examination(MMSE)[18]of less than 24; e) total score on Behavioral Pathology in Alzheimer’s Disease Rating Scale (BEHAVE-AD)[19]of greater than 8; e) no history of epilepsy, stroke, or major head trauma; f) no severe physical illness or implants which could limit the use of rTMS; and g) had not taken antipsychotic medications or other drugs affecting mental activity in the previous month.
Figure 1. Flowchart of the study
Fifty-four patients who met these inclusion criteria were randomly assigned (using a standard table of random numbers) before the commencement of the trial to either the intervention group or the control group. As shown in Table 1, there were no statistically significant differences between the two groups at baseline in age, gender distribution, educational level,course of the disease, or MMSE score.
The protocol for this project was approved by the Ethics Committee of the Wuxi Mental Health Center.Informed consents were obtained from all participants.
This was a double-blind, randomized, sham-controlled study in which the rTMS therapist (who was not involved in the clinical assessment of the patients) used a random number table to assign subjects to either the real rTMS or the sham rTMS condition. In addition to conventional treatment with risperidone 1 mg per day, all patients were administered real or sham rTMS treatments for a total of 20 sessions, 5 days a week for 4 consecutive weeks. Other antipsychotic drugs were not used during the treatment.
A MagproR30 rTMS machine (with the fi gure-eight electromagnet) manufactured by Medtronic (a Danish company) was employed in the study. Patients lay down on a treatment table during the rTMS procedure.The stimulation position was over the left dorsolateral prefrontal cortex (DLPFC).[11]The stimulus intensity was 80% of the motor threshold (MT) and the frequency was 20 Hz for all patients. The total number of pulses was 1200 for a single treatment session. In the control group, the coils were turned 180 degrees so the magnetic fi eld penetrating the brain was so weak that it was considered a sham condition; other settings were the same as those used in the intervention group.
The primary outcome measure was the change in scores of the Behavioral Pathology in Alzheimer’s Disease Rating Scale (BEHAVE-AD).[19]A secondary outcome was the change in scores of the Alzheimer’s Disease Assessment Scale-Cognitive Subscale (ADASCog).[20]BEHAVE-AD scores and ADAS-Cog scores were rated at baseline and after 4 weeks of treatment. The ratings were conducted by two attending-physician level psychiatrists who had been trained in the use of the scales and who were blind to the treatment status of the patients; their inter-rater reliability based on the simultaneous assessment of six patients was good(ICC=0.79-0.86). The percent reduction from baseline in the BEHAVE-AD total score was used to assess the effectiveness of treatment: based on cutoff scores used in a previous study,[21]those with ≥60% reduction were classified as ‘effectively treated’; those with 30-59%reduction were classified as ‘improved’; and those with<30% reduction were classified as ‘not improved’.
BEHAVE-AD is a 25-item scale that assesses seven aspects of behavioral pathology including delusions and paranoid ideation, hallucinations, activity disturbances,aggressiveness, diurnal rhythm disturbances, affective disturbances, and anxieties and phobias; the range in scores is from 0 to 75, with lower scores representing better functioning. ADAS-Cog is a 12-item scale that assesses four aspects of cognitive functioning including memory, language, constructional praxis, and attention;the range in the total score is from 0 to 75, with lower scores representing better functioning.
Vital signs and adverse events were recorded at thetime of each rTMS treatment. Routine blood tests, urinetests, electrocardiogram, blood biochemistry (liver and kidney function, electrolytes, glucose, etc.) tests and the Treatment Emergent Symptom Scale (TESS) were conducted at baseline and at the end of 4 weeks of treatment.
Table 1. Demographic and clinical characteristics of participants
SPSS software version 13.0 (SPSS, Inc., Chicago, Illinois,USA) was used for analysis. Means (sd) were used to describe test scores. Mann-Whitney tests were used for variables with non-normal distributions. Chi-squared tests were used to compare categorical variables including gender and the proportion of patients in each group whose treatment was classified as ‘effective’. For normally distributed continuous measures, paired t-tests were performed to compare the BEHAVE-AD total score and each subscale score (except hallucinations), ADASCog total score and each subscale score at baseline and after 4 weeks of treatment in each group. Two-sample t-tests were performed for between group comparisons.A repeated measures analysis of variance was also conducted to compare the change in the scale scores with treatment between the two groups after adjusting for the baseline values. The correlation between changes in BEHAVE-AD and ADAS-Cog was analyzed by Spearman correlation coefficients. The significant level was set at 0.05.
As shown in Figure 1, one patient dropped out of each group, so the fi nal analysis was based on data from the 26 subjects in each group that completed the 4-week treatment.
As shown in Table 2, there were no significant differences at baseline between groups in the totalBEHAVE-AD score or in any of the seven BEHAVE-AD subscale scores. After 4 weeks of treatment, the total BEHAVE-AD score decreased (i.e., improved) significantly in both groups, but the decrease in the subscale scores was statistically significant for only six of the subscale scores in the intervention group and for only four of the subscale scores in the control group. The hallucination subscale score did not decrease significantly in either group. After controlling for baseline values using a repeated measures ANOVA, the improvement in the total BEHAVE-AD score after 4 weeks of treatment was significantly greater in the intervention group than in the control group. The improvement was also greater in the intervention group for fi ve of the seven BEHAVE-AD subscale scores: activity disturbances, diurnal rhythm disturbances, aggressiveness, affective disturbances,and anxiety and fear.
Table 2. Comparison of mean (sd) total and subscale scores on the Behavioral Pathology in Alzheimer’s Disease Rating Scale (BEHAVE-AD) before and after 4 weeks of treatment in the study and control groups
Based on considering a 60% decrease from baseline in the total BEHAVE-AD score as the cutoff for ‘effective treatment’, 30-59% for ‘improvement’, and <30% for‘no improvement’, 3 patients in the intervention group(11.5%) were effectively treated, 16 (61.5%) were improved, and 7 (26.9%) were not improved after treatment; in the control group 1 (3.8%) patient was effectively treated, 10 (38.5%) were improved, and 15(41.7%) were not improved. That is, 73.1% (19/26) of the patients in the rTMS group showed improvement in their behavioral and psychological symptoms compared to only 42.3% (11/26) in the control group (X2=5.04,p=0.025).
As shown in Table 3, there were no significant differences in the ADAS-Cog total scores or in any of the four subscale scores between groups at baseline.After 4 weeks of treatment, the ADAS-Cog total scores dropped (i.e., improved) significantly in both groups,and the subscale scores dropped significantly in all four subscales in the intervention group and in two of the four subscales scores in the control group (the memory and attention subscales). After controlling for baseline values using a repeated measures ANOVA, the improvement in the total ADAS-Cog score after 4 weeks of treatment was significantly greater in the intervention group than in the control group. The improvement was also greater in the intervention group for all four ADASCog subscale scores: memory, language, constructional praxis, and attention.
Combining results for all 52 participants who completed the study, the correlation of the BEHAVEAD total score and the ADAS-Cog total score was nonsignificant, both at baseline (rs=0.11, p=0.459) and after treatment (rs=0.02, p=0.869). However, the magnitude of the change in the total scores of the two scales over the course of treatment was statistically significant (rs=0.33, p=0.015).
During rTMS treatments, no patients experienced seizures or epilepsy-like symptoms. There were nochanges in the ECG, EEG, or blood chemistry results.The most common adverse reactions in both groups reported on the TESS were mild extrapyramidal reactions (4 cases in the intervention group and 2 cases in the control group) and transient headache (4 cases in the intervention group and 5 cases in the control group).These side effects were mild and well tolerated. Overall,30.8% (8/26) of the participants in the intervention group experienced an adverse event during the study while 26.9% (7/26) in the control group experienced an adverse event (X2=0.09, p=0.760).
Table 3. Comparison of mean (sd) total and subscale scores on the Alzheimer's Disease Assessment Scale-Cognitive (ADAS-Cog) before and after 4 weeks of treatment in the study and control groups
This study used a randomized, double-blind design to compare the efficacy and safety of high frequency rTMS combined with low-dose risperidone to that of risperidone treatment alone for the treatment of BPSD in patients with AD. We found that 4 weeks of high frequency rTMS to the left DLPFC is an effective adjunctive treatment method for the treatment of BPSD in patients with AD. A much higher proportion of patients receiving rTMS than patients receiving sham rTMS experienced a 30% or greater drop in the overall BEHAVE-AD score (73.1% vs. 42.3%), indicating that the behavioral and psychological symptoms had substantially improved.
These findings are similar to those of other studies. Peng and colleagues[22]reported that TMS is more effective than drug therapy for BPSD, including sleep quality, anxiety and depression, aggression,and agitation. Another study in China by Wu and colleagues[23]also reported that rTMS improved BPSD,but the study did not include a sham rTMS comparison group. The efficacy of risperidone treatment alone reported in this study was similar to that reported by Onor and colleagues,[24]which found that low-dose risperidone was associated with reductions in agitation,aggression, irritability, delusions, and sleep disorders.
We found no significant improvement in either group in the hallucination subscale score of the BEHAVE-AD after 4 weeks of treatment. Becker and colleagues[25]regarded the occurrence of hallucinations as a marker of the severity of AD psychopathology;if true, this could explain the apparent insensitivity of hallucinations to treatment. On the other hand, a recent study[26]that reported the effectiveness of rTMS as an adjunctive treatment for auditory hallucinations used low-frequency stimulation, while our study used high-frequency rTMS. Future studies should assess the effectiveness of treating AD with low-frequency rTMS.
We also found that the cognitive functioning of the high frequency rTMS group improved significantly more than in the sham rTMS group that only received the low-dose risperidone. This fi nding is similar to that of a study by Ahmed and colleagues[15]which reported a significant improvement in MMSE after five daily sessions of high frequency rTMS (20Hz) over the DLPFC,an improvement that was maintained for three months after the end of rTMS treatments. Other studies have found that rTMS over the DLPFC has a good treatment effect on cognitive impairment in both mild AD and in moderate-to-severe AD.[27-28]A study by Bentwich and colleagues[29]also showed a significant effect of rTMS(20 Hz) over the DLPFC in improving the scores of an auditory sentence comprehension test among patients with AD.
In this study there was no correlation between total BEHAVE-AD and ADAS-Cog scores among the 52 AD patients who completed the study, but there was a modest correlation (rs=0.33, p=0.015) between the magnitude of the improvement in cognitive symptoms(assessed by ADAS-Cog score) and the magnitude of improvement in behavioral and psychological symptoms (assessed by BEHAVE-AD) over the 4 weeks of treatment. Hollingworth and colleagues[30]consider BPSD in patients with AD a secondary cluster of symptoms directly resulting from the primary cognitive impairment, but Shinno and colleagues[31]consider BPSD and cognitive impairment two separate clusters of pathological symptoms. Our results suggest that BPSD and cognitive impairment are different, but related,pathological states.
This study, which administered high-frequency rTMS to 26 patients five days a week for four consecutive weeks, confirms previous results about the relative safety of this treatment. No seizures or other severe adverse effects were observed during the 4 weeks of treatment and there were no significant differences in the prevalence or severity of adverse reactions between the active and sham rTMS groups.
There are several potential limitations to these results.The study has a relatively small sample size so some of the negative results, such as the failure to find significant differences for some of the subscale scores,may be due to Type II errors. We only assessed the treatment outcome at the end of the 4 weeks of rTMS treatment sessions. Follow-up studies are needed to determine a) how soon the treatment effect of rTMS manifests, b) how long the treatment effect persists after termination of the rTMS intervention, c) whether or not the effect will be greater if the rTMS is continued longer, d) whether or not rTMS can replace medication in individuals who are not tolerant to medication, and e) the appropriate interval and intensity of ‘booster sessions’ with rTMS to sustain the positive effect.We only used a single frequency (20Hz) and a single location (the DLPFC) for rTMS; additional studies will be needed to test the effect when rTMS is used at different frequencies and applied at different locations.Ultimately the goal will be to identify the parameters that can be used to tailor rTMS treatments to specific patients.
Our study found that high-frequency rTMS used as an adjunctive treatment with low-dose risperidone can significantly improve the behavioral and psychological symptoms of AD patients. Moreover, the combined treatment is more effective than medication alone for improving cognitive functioning in AD patients.
We would like to sincerely thank the patients who participated in the study and their caregivers.
This study was supported by the Wuxi Science and Technology Development Project (CSE31N1323).
The authors declare that they have no competing interests.
All participants provided written informed consent.
This study was approved by the Ethics Committee of the Wuxi Mental Health Center.
WY participated in the design of the study, data collection and drafted the manuscript. XWW performed the statistical analysis and critically reviewed the manuscript. LXW carried out the clinical diagnosis and critically reviewed the manuscript. XQ and TL carried out the neurological evaluation. WSY delivered rTMS sessions. All authors read and approved the final manuscript.
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珠三角区域:以出口机电产品为主,我国对美49%的机电较重、42%的机电较轻产品由珠三角出口,也是涉税商品占比最高的区域。预计珠三角受影响箱源约100万TEU。
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(received, 2015-10-09; accepted, 2015-10-20)
Dr. Yue Wu graduated from Jiangnan University in 1993 and received a Master’s of Medicine degree from Nanjing Medical University in 2014. She has been working in the Wuxi Mental Health Center since her graduation in 1993. Her main research interests are the early intervention of Alzheimer’s disease, neurological assessment of dementia, and community rehabilitation of schizophrenia.
Meeting announcement
8th National Anxiety Conference: registration and call for submissions
Anxiety Disorder, a common mental illness that is often chronic, has recently received increased attention by psychiatric researchers in China. The largest community-based epidemiological survey of mental disorders yet conducted in China (published in 2009) reported that the one-month prevalence of anxiety disorder was 5.6% (95%conf i dence interval, 5.0%-6.3%), but 93.9% of these individuals had never sought treatment for the condition; 3.2%had seen a non-specialist doctor and 2.9% had seen a psychiatrist. Promoting research that will help narrow this huge treatment gap is one of the key goals of the 8thNational Anxiety Conference that will be held May 6-7, 2016 in Wuhan,Hubei Province, China.
Conference theme:Treating anxiety to improve quality of life
Content:a) lectures on recent progress in the treatment and research of anxiety; b) symposium about the diagnosis,treatment, and comorbidity (both physical and mental) of anxiety; c) discussion of research articles about anxiety; d) face-to-face discussion with experts about relevant and timely topics.
Registration date:May 5, 2016.
Conference dates:May 6-7, 2016.
Location:Wuhan, Hubei Province, China (hotel not yet determined)
Registration fee:1200 RMB per participant, including registration, materials, and educational credit fees. (Paid at time of attendance.)
Contacts:Shao Chunhong (mobile: 0086 18917901272), Gu Xiulin (mobile: 0086 13801749375)
Submissions:Requirements for submissions are as follows:
1. Original article related to the diagnostic criteria, treatment, and physical or psychiatric comorbidity of anxiety disorder.
2. The research has not been submitted to any journal.
3. The author should submit the full text of the article including a structured abstract of approximately 1000 words (with separate paragraphs stating the aim, methods, results and conclusion). Submissions also need to include the title of the paper along with the names, institutions, and e-mails addresses of all authors.
4. Submissions need to be sent with the registration form (see below) prior to March 31, 2016.Registration procedure:
Persons interested in participating in the meeting and those interested in submiゆng a paper for the meeting,should complete the registration form available at the link below and send it to the conference committee by e-mail(haijinghui2012@126.com) or by mail (Shi Shenxun, 600 South Wanping Road, Shanghai. Postcode: 200030).
http://www.shanghaiarchivesofpsychiatry.org/cn/2016年焦虑障碍学术会议征文.html
高频重复经颅磁刺激辅助治疗阿尔茨海默氏病患者的精神行为症状:一项随机双盲伪刺激对照研究
吴越,徐文炜,刘晓伟,徐清,汤莉,武曙燕
阿尔茨海默氏病;精神行为症状;认知功能;经颅磁刺激;中国
Background:Behavioral and psychological symptoms of dementia (BPSD) occur in 70-90% of patients at different stages of Alzheimer’s Disease (AD), but the available methods for managing these problems are of limited effectiveness.Aim:Assess the effects of high-frequency repetitive transcranial magnetic stimulation (rTMS), applied over the left dorsolateral prefrontal cortex (DLPFC), on BPSD and cognitive function in persons with AD.Methods:Fifty-four patients with AD and accompanying BPSD were randomly divided into an intervention group (n=27) and a control group (n=27). In addition to standard antipsychotic treatment, the intervention group was treated with 20Hz rTMS fi ve days a week for four weeks, while the control group was treated with sham rTMS. The Behavioral Pathology in Alzheimer’s Disease Rating Scale (BEHAVE-AD), the Alzheimer’s Disease Assessment Scale-Cognitive (ADAS-Cog), and the Treatment Emergent Symptom Scale (TESS) were administered by raters who were blind to the group assignment of patients before and after four weeks of treatment.Results:Twenty-six subjects from each group completed the study. After four weeks of antipsychotic treatment with adjunctive real or sham rTMS treatment, the mean (sd) total BEHAVE-AD scores and mean total ADAS-Cog scores of both groups significantly decreased from baseline. After adjusting for baseline values, the intervention group had significantly lower scores (i.e., greater improvement) than the control group on the BEHAVE-AD total score, on fi ve of the seven BEHAVE-AD factor scores (activity disturbances,diurnal rhythm, aggressiveness, affective disturbances, anxieties and phobias), on the ADAS-Cog total score, and on all four ADAS-Cog factor scores (memory, language, constructional praxis, and attention). The proportion of individuals whose behavioral symptoms met a predetermined level of improvement (i.e., a drop in BEHAVE-AD total score of > 30% from baseline) in the intervention group was greater than that in the control group (73.1% vs. 42.3%, X2=5.04, p=0.025).Conclusion:Compared to treatment of AD with low-dose antipsychotic medications alone, the combination of low-dose antipsychotic medication with adjunctive treatment with high frequency rTMS can significantly improve both cognitive functioning and the behavioral and psychological symptoms that often accompany AD.
[Shanghai Arch Psychiatry. 2015, 27(5): 280-288.
http://dx.doi.org/10.11919/j.issn.1002-0829.215107]
1Department of Psychiatry, Wuxi Mental Health Center, Nanjing Medical University, Wuxi, China
2Wuxi Tongren International Rehabilitation Hospital, Nanjing Medical University, Wuxi, China
*correspondence: wuxiwuyue@163.com
A full-text Chinese translation of this article will be available at http://dx.doi.org/10.11919/j.issn.1002-0829.215107 on February 26, 2016.
背景:70-90% 的阿尔茨海默氏病 (Alzheimer’s Disease,AD) 患者在不同阶段都伴有痴呆的精神与行为症状(behavioral and psychological symptoms of dementia,BPSD),但现有的针对这些问题的方法疗效十分有限。目的:评估对AD患者的左背外侧前额叶皮层 (leftdorsolateral prefrontal cortex, DLPFC) 进行高频重复经颅 磁 刺 激 (repetitive transcranial magnetic stimulation,rTMS) 对其BPSD和认知功能的疗效。方法:将54例伴有BPSD的AD患者随机分为干预组(n=27) 和对照组 (n=27)。在常规抗精神病药物治疗的基础上,干预组采用20 Hz的rTMS治疗,每周五天,共四周;而对照组采用伪磁刺激治疗。评估者采用阿尔茨海默病行为病理学评定量表 (Behavioral Pathology in Alzheimer’s Disease Rating Scale, BEHAVE-AD)、 阿 尔茨海默氏病评估量表-认知分量表 (Alzheimer’s Disease Assessment Scale-Cognitive, ADAS-Cog) 和副反应量表(Treatment Emergent Symptom Scale, TESS) 对患者分别在4周治疗期前后进行盲法评估。结果:每组都有26例患者完成了研究。抗精神病药治疗辅以磁刺激或伪磁刺激治疗4周后,两组BEHAVE-AD总分的均值(标准差)和ADAS-Cog总分的均值与基线相比均显著降低。校正基线值后,干预组的BEHAVE-AD总分、BEHAVE-AD的7个因子分中5个(活动障碍、昼夜节律、攻击性、情感障碍、焦虑和恐惧)、ADAS总分以及ADAS量表4个因子分(记忆、语言、结构性练习、注意力)均显著低于对照组(即改善更明显)。事先将BEHAVE-AD总分比基线下降大于等于30%定义为症状改善,干预组中行为症状改善的患者比例显著高于对照组 (73.1% vs. 42.3%, X2=5.04,p=0.025)。结论:相较于单纯低剂量抗精神病药物治疗,高频rTMS辅助低剂量抗精神病药物治疗能显著改善AD患者的认知功能和精神行为症状。
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