Abstract
Background:
This pilot study investigated the effects of calligraphy therapy on cognitive function in older Hong Kong Chinese people with mild cognitive impairment.
Methods:
A single-blind, randomized controlled trial was carried out in a sample of 31 adults aged 65 years or older with mild cognitive impairment. They were randomly assigned to receive either intensive calligraphy training led by a trained research assistant for eight weeks (calligraphy group, n = 14) or no calligraphy treatment (control group, n = 17). Participants’ cognitive function was assessed by the Chinese version of the Mini-Mental State Examination (CMMSE) before and after calligraphy treatment. Repeated measures analysis of variance and paired samples t-tests were used to analyze the data.
Results:
A significant interaction effect of time and intervention was detected [F (1, 29) = 9.11, P = 0.005, η2 = 0.24]. The calligraphy group was found to have a prominent increase in CMMSE global score, and scores in the cognitive areas of orientation, attention, and calculation after two months (ΔM = 2.36, P < 0.01), whereas their counterparts in the control group experienced a decline in CMMSE score (ΔM = −0.41, P < 0.05).
Conclusion:
Calligraphy therapy was effective for enhancing cognitive function in older people with mild cognitive impairment and should be incorporated as part of routine programs in both community and residential care settings.
Keywords: calligraphy therapy, Chinese elderly, mild cognitive impairment, cognitive function, randomized controlled trial
Introduction
Chinese calligraphic handwriting requires integration of mind, body, and character in an interwoven dynamic process. It involves visual perception of the characters, spatial structuring of the characters, cognitive planning, and maneuvering of the brush to follow specific character configurations.1
Empirical studies of Chinese calligraphy have focused mainly on how to execute and appreciate this activity artistically by following the instructions of calligraphers.2,3 Recently, growing clinical research on calligraphy handwriting has found that calligraphy used as therapy may improve behavioral and psychosomatic disorders,4,5 and have a therapeutic effect on hypertension and other diseases, such as type 2 diabetes.6,7 It is further argued that the act of calligraphic writing may train people’s attention and concentration and result in relaxation and emotional stabilization.8 For instance, calligraphy has been found to have successfully enhanced spatial ability, visual attention, and picture memory in people with Alzheimer’s disease.9–14 Similarly, it has been found that intellectual leisure activities in later life, including calligraphy, may delay cognitive deterioration.15
Cognitive deterioration is one of the commonest complaints of normal aging,16 the prevalence increases with age.17 Because mild cognitive impairment may lead to a sense of frustration, a lower level of life satisfaction, or even dementia,18 effective nonpharmacological interventions need to be found to optimize cognitive function in older people with mild cognitive impairment and to delay cognitive deterioration.19
Based on the fact that the efficacy of drug treatment for dementia, including medication, is usually short-lived, not guaranteed for all users, and may impose a significant financial burden on patients,20 and calligraphy seems to have the potential to prevent cognitive deterioration, we initiated a randomized controlled pilot trial to examine the cognitive effects of calligraphy therapy in older Hong Kong Chinese people with mild cognitive impairment to see whether it should be considered as one of the useful nondrug training modalities to protect against dementia and be incorporated as part of routine programs in both community and residential care settings in Hong Kong.
Materials and methods
Participants
Thirty-one older Chinese people were recruited from the Kwong Yum Home for the Aged, which was established in 1979 and specializes in high-quality care for the frail elderly in Hong Kong. Inclusion criteria were age 70 years or above, a Chinese version of the Mini-Mental State Examination (CMMSE) score 20–25, and absence of blindness, aphasia, or relevant behavioral disturbance. Participants were randomly assigned to a calligraphy group (n = 14) or to a control group (n = 17). Written informed consent was obtained from all participants. This study was ethically approved by the Chinese University of Hong Kong.
Design
This was a single-blind randomized controlled trial in which the cognitive function of participants was assessed by the CMMSE before and after training in Chinese calligraphic handwriting. The participants in the control group did not receive any training during the study period. The participants in the calligraphy group, in contrast, practised Chinese calligraphy in a quiet room led by a trained research assistant. Each session of calligraphic writing lasted about 30 minutes, with one session per day, five times per week, for eight consecutive weeks. The Chinese calligraphy character content was chosen randomly from a handbook of calligraphy writing. Calligraphic writing involves “brush handwriting by tracing the strokes and structures of the characters displayed in a mixture of traditional calligraphic styles.”21
CMMSE scale
In this study, the general cognitive status of the participants was measured by the CMMSE, an instrument used widely for assessing cognitive performance in both the research and clinical settings.22 The CMMSE can be generally divided into two sections, ie, one section that covers orientation (including time and place), memory (immediate and delayed recall), and attention and calculation (100 minus 7, then minus 7, five times), and a second section that covers language, testing the ability to name objects, follow commands, and copy two interwoven polygons. In addition, the CMMSE scale has good psychometric properties when applied to the Hong Kong Chinese population, with satisfactory internal consistency (Cronbach’s alpha 0.86), test-retest reliability (alpha 0.78), and interrater reliability (intraclass correlation 0.99). The clinical cutoff score for diagnosis of dementia is 19/20,23 and a score ≤ 25 was found to be the optimal cutoff point for detection of mild cognitive impairment.24 Thus, older people with a CMMSE score of 20–25 were recruited as participants with mild cognitive impairment in this study.
Statistical analysis
Data analyses were carried out using the Statistical Package for Social Sciences version 15 (SPSS Inc, Chicago, IL). Independent samples t-tests (and Chi-square when appropriate) were used to compare demographic and pharmacological variables between the control and intervention groups at baseline. Two-way repeated measures analysis of variance was used to evaluate the cognitive measure, with time being the within-group factor and control/intervention as the between-groups measure. Paired samples t-tests were further conducted to compare before and after scores in six subdimensions of the CMMSE for the control and intervention groups, respectively.
Results
Table 1 summarizes the baseline demographics of the study participants. Results of independent samples t-tests and Chi-square tests show that there were no significant differences between the control and calligraphy groups in terms of their age (P = 0.992), gender (P = 0.072), and education (P = 0.946). No significant difference was detected between the two groups in their cognitive performance, as measured either by the Chinese version of Mattis Dementia Rating Scale (CDRS) or the CMMSE.
Table 1.
Demographics and baseline measures by group
Control Group (N = 17) | Calligraphy Group (N = 14) | P* | |
---|---|---|---|
Age (M, SD) | 85.76(6.93) | 85.79(4.93) | 0.99 |
Gender | 0.77 | ||
Male | 1(6.3%) | 5(35.7%) | |
Female | 15(93.8%) | 9(64.3%) | |
Education | 0.95 | ||
No formal education | 8(47.1%) | 7(50.0%) | |
Below or at primary level | 7(41.2%) | 5(35.7%) | |
Secondary or above | 2(11.8%) | 2(14.3%) | |
CDRS (M, SD) | |||
Total | 104.53(15.18) | 108.36(12.89) | 0.46 |
Attention | 32.35(3.53) | 33.64(3.00) | 0.29 |
Initiation/preservation | 24.29(5.80) | 26.93(6.64) | 0.25 |
Construction | 4.76(1.48) | 5.50(1.12) | 0.14 |
Conceptualization | 24.82(4.93) | 24.57(4.72) | 0.89 |
Memory | 18.29(4.62) | 17.71(3.27) | 0.70 |
CMMSE (M, SD) | |||
Total | 22.88(3.28) | 22.71(1.86) | 0.87 |
Orientation | 8.53(1.55) | 7.79(1.42) | 0.18 |
Memory | 4.94(0.90) | 4.86(0.95) | 0.80 |
Attention and calculation | 1.71(1.76) | 2.21(1.89) | 0.45 |
Language | 7.71(0.99) | 7.86(1.10) | 0.69 |
Abbreviations: CDRS, Chinese version of Mattis Dementia Rating Scale; CMMSE, Chinese version of the Mini-Mental State Examination; M, mean; SD, standard deviation.
Results of repeated measures analysis of variance showed a significant main effect of time on improving the CMMSE score [F (1, 29) = 4.50, P = 0.04, η2 = 0.13], but no significant main effect of intervention [F (1, 29) = 1.31, P = 0.26, η2 = 0.04]. The interaction effect of time and calligraphy training was significant [F (1, 29) = 9.11, P = 0.005, η2 = 0.24, see Table 2].
Table 2.
Repeated measures analysis of variance
Effect | Mean square | df | F | P | η2 |
---|---|---|---|---|---|
Time | 14.53 | 1 | 4.5 | 0.04 | 0.13 |
Error (time) | 3.23 | 29 | |||
Intervention | 22.72 | 1 | 1.31 | 0.26 | 0.04 |
Error (intervention) | 17.3 | 29 | |||
Time* Intervention | 29.43 | 1 | 9.11 | 0.01 | 0.24 |
Note:
refers to interaction effect.
In addition, paired samples t-tests revealed that there was a decline in cognitive performance in general for the control group (ΔM = −0.41, P < 0.05), but significant improvement for the calligraphy group (ΔM = 2.36, P < 0.01). With regard to the four specific domains, namely, orientation (including time and place), memory (including immediate and delayed recall), attention and calculation, and language, a significant decline was observed in orientation for the control group (ΔM = −0.88, P < 0.01) while a significant improvement was detected in the same area for the calligraphy group (ΔM = 1.21, P < 0.05). Moreover, there was no change in memory and language and a positive but insignificant change in attention and calculation for the control group; in contrast, in addition to orientation, participants in the calligraphy group also had training gains in the other three cognitive areas, namely memory (ΔM = 0.43), attention and calculation (ΔM = 0.43), and language (ΔM = 0.14), although these positive changes were not statistically significant (see Table 3).
Table 3.
Cognitive enhancement (paired samples t-test) by control/calligraphy group
CMMSE |
Control group |
Calligraphy group |
||
---|---|---|---|---|
Pretest mean (S.D.) |
Post-test mean (S.D.) Δ (S.D.) |
Pretest mean (S.D.) |
Post-test mean (S.D.) Δ (S.D.) |
|
Total | 22.88(3.28) | 22.47(3.99)* –0.41(2.50) |
22.71(1.86) | 25.07(3.10)* 2.36(2.59) |
Orientation | 8.53(1.55) | 7.65(2.00)** –0.88(1.17) |
7.79(1.42) | 9.00(1.04)* 1.21(1.58) |
Memory | 4.94(0.90) | 4.94(1.03) 0.00(1.06) |
4.86(0.95) | 5.29(0.91) 0.43(1.22) |
Attention and calculation | 1.71(1.76) | 2.06(1.52) 0.35(1.46) |
22.21(1.89) | 2.64(1.34)^ 0.43(1.02) |
Language | 7.71(0.99) | 7.71(0.99) 0.00(1.37) |
7.86(1.10) | 8.00(1.04) 0.14(1.23) |
Notes:
P < 0.01;
P < 0.05;
P < 0.1.
Discussion
This study, designed as a single-blind randomized controlled trial, examined the cognitive effects of calligraphy therapy in a sample of older Hong Kong Chinese people. Our results confirm that calligraphy was effective in improving cognitive abilities in older people who received intensive training in Chinese calligraphic writing, who were found to have a marked increase in the global CMMSE score after two months, whereas their counterparts in the control group experienced a decline in CMMSE score. This finding is encouraging for elders who are vulnerable to cognitive decline and have sufficient spare time to practice calligraphic writing.
When the pretest and post-test means of the CMMSE subdimensions were compared, the control group suffered a decline in orientation, showed no change in memory and language, and only a slight and insignificant improvement in attention and calculation. In contrast, the calligraphy group showed a significant improvement in orientation and a significant improvement in attention and calculation. Their scores also slightly increased in the domains of memory and language in the post-test, although the increase was not statistically significant, which was probably because of the small sample size.
The improvement identified for orientation in time and place during this study lends support to the view that calligraphy therapy is able to enhance spatial ability and sense of control.9,10 The resulting improvement in reality orientation via calligraphy treatment has been found to help elders by halting confusion, disorientation, social withdrawal, and apathy.19 This activity may help seniors to become more alert and sensitive to their environment, enabling them to remain cognitively fit for a longer period of time. Thus, as a nonpharmacological approach to protect against cognitive decline in elders with mild cognitive impairment, Chinese calligraphic writing should be incorporated as part of routine programs in both community and residential care settings.
Despite these encouraging findings, there are several limitations that should be addressed. First, this was only a pilot study with a small sample size, so we should be cautious about generalizing the findings to the entire older Hong Kong population. Another limitation is that there was only one outcome measurement, namely CMMSE, which prevents us from being able to investigate the broader effects of Chinese calligraphy handwriting in older people with mild cognitive impairment in a more definitive manner. A large-scale study following this pilot trial with a more detailed design is pending to address these limitations.
Acknowledgments
The authors extent their gratitude to Dr Steward PW Lam of Calli-Health Ltd, Hong Kong for his sustained and technical support of this study. We also wish to thank the staff of Kwong Yum Home for the Aged, Hong Kong for their kind cooperation.
Footnotes
Disclosure
The authors report no conflicts of interest in this work.
References
- 1.Kao HSR. The Visual-spatial Features of Chinese Characters and a Psychogeometric Theory of Chinese Character Writing. Hong Kong, China: Hong Kong University Press; 2000. [Google Scholar]
- 2.Kao HSR. Calligraphy therapy: A complementary approach to psychotherapy. Asia Pacific Journal of Counselling and Psychotherapy. 2010;1:55–66. [Google Scholar]
- 3.Yang XL, Li HH, Hong MH, Kao HSR. The effects of Chiense calligraphy handwriting and relaxation training in Chinese nasopharyngeal carcinoma patients: A randomized controlled trial. Int J Nurs Stud. 2010;47:550–559. doi: 10.1016/j.ijnurstu.2009.10.014. [DOI] [PubMed] [Google Scholar]
- 4.Kao HSR, Chen CC, Chang TM. The effect of calligraphy practice on character recognition reaction time among children with ADHD disorder. In: Roth R, editor. Psychologists Facing the Challenge of a Global Culture with Human Rights and Mental Health. Proceedings of the 55th Annual Convention of the Council of Psychologists, Graz, Austria, July 14–18, 1997. [Google Scholar]
- 5.Zong Y, Zhu ZH, Wang XG, et al. Calligraphy of psychological therapy on children after the earthquake post-traumatic stress reaction psychological intervention. Chinese Journal of Social Medicine. 2011;28:31–33. (Chinese) [Google Scholar]
- 6.Guo NF, Kao HSR, Liu X. Calligraphy, hypertension and the type-A personality. Ann Behav Med. 2001;23:S159. [Google Scholar]
- 7.Kao HSR, Ding BK, Cheng SW. Brush handwriting treatment of emotional problems in patients with Type II diabetes. Int J Behav Med. 2000;23:S085. [Google Scholar]
- 8.Kao HSR. Shufa: Chinese calligraphic handwriting (CCH) for health and behavioural therapy. Int J Psychol. 2006;41:282–286. [Google Scholar]
- 9.Guo K, Gao D, Kao HSR. The activating effect of Chinese calligraphy on the two hemispheres in children. Xin Li Xue Bao. 1993;4:404–414. [Google Scholar]
- 10.Kao HSR. Chinese calligraphy handwriting for health and rehabilitation of the elderly. Proceedings of Second World Congress of the International Society of Physical and Rehabilitation Medicine; Prague, Czechoslovakia. May 1–22, 2003. [Google Scholar]
- 11.Kao HSR, Gao DG. Effects of practicing Chinese calligraphy on visual-spatial ability and pictorial memory in normal aged people. Int J Psychol. 2000;35:302. [Google Scholar]
- 12.Kao HSR, Gao DG, Wang M. Brush handwriting treatment of cognitive deficiencies in Alzheimer’s disease patients. Neurobiol Aging. 2000;21(1S)(14) [Google Scholar]
- 13.Kao HSR, Gao DG, Wang MQ, Cheung HY, Chiu J. Chinese calligraphic handwriting: treatment of cognitive deficiencies of Alzheimer’s disease patients. Alzheimer’s Reports. 2000;3:281–287. [Google Scholar]
- 14.Kao HSR, Goan CH. Cognitive Aspects of Chinese Calligraphy. Taipei, Taiwan: Great Eastern; 1995. [Google Scholar]
- 15.Leung GTY, Fung AWT, Tam CWC, et al. Examining the association between late-life leisure activity participation and global cognitive decline in the community-dwelling elderly Chinese in Hong Kong. Int J Geriatr Psychiatry. 2010;26:39–47. doi: 10.1002/gps.2478. [DOI] [PubMed] [Google Scholar]
- 16.Hoogenhout EM, de Groot RHM, van der Elst W, Jolles J. Effects of a comprehensive educational group intervention in older women with cognitive complaints: A randomized controlled trial. Aging Ment Health. 2011 Jul 25; doi: 10.1080/13607863.2011.598846. [Epub ahead of print] [DOI] [PubMed] [Google Scholar]
- 17.Cargin JW, Collie A, Masters C, Maruff P. The nature of cognitive complaints in healthy older adults with and without objective memory decline. J Clin Exp Neuropsychol. 2008;30:245–257. doi: 10.1080/13803390701377829. [DOI] [PubMed] [Google Scholar]
- 18.Whalley LJ. Brain ageing and dementia: what makes the difference. Br J Psychiatry. 2002;181:369–371. doi: 10.1192/bjp.181.5.369. [DOI] [PubMed] [Google Scholar]
- 19.Tsai AYJ, Yang MJ, Lan CF, Chen CS. Evaluation of effect of cognitive intervention programs for the community-dwelling elderly with subjective memory complaints. Int J Geriatr Psychiatry. 2008;23:1172–1174. doi: 10.1002/gps.2050. [DOI] [PubMed] [Google Scholar]
- 20.Theodorou AA, Johnson KM, Moore M, Ruf S, Wade T, Szychowski JA. Drug utilization patterns in patients with Alzheimer’s disease. Am J Pharm Benefits. 2010;2:77–82. [Google Scholar]
- 21.Kao HSR, Gao DG, Miao D, Liu XF. Cognitive facilitation associated with Chinese brush handwriting: the case of symmetric and asymmetric Chinese characters. Percept Mot Skills. 2004;99:1269–1273. doi: 10.2466/pms.99.3f.1269-1273. [DOI] [PubMed] [Google Scholar]
- 22.Chiu HFK, Lee HC, Chung WS, Kwong PK. Reliability and validity of the Cantonese version of Mini-Mental State Examination – a preliminary study. Hong Kong J Psychiatry. 1994;4:25–28. [Google Scholar]
- 23.Gragnon DL. A review of reality orientation (RO), validation therapy (VT), and reminiscence therapy (RT) with the Alzheimer’s client. Phys Occup Ther Geriatr. 1996;14:61–77. [Google Scholar]
- 24.Hoops S, Nazem S, Siderowf AD, et al. Validity of the MoCA and MMSE in the detection of MCI and dementia in Parkinson disease. Neurology. 2009;73:1738–1745. doi: 10.1212/WNL.0b013e3181c34b47. [DOI] [PMC free article] [PubMed] [Google Scholar]