key: cord-0748598-h553qa44 authors: Hu, Caixia; Qin, Xiaohui; Jiang, Minqing; Tan, Miaoqing; Liu, Shuying; Lu, Yuhua; Lin, Changting; Ye, Richun title: Effects of Tai Chi Exercise on Balance Function in Stroke Patients: An Overview of Systematic Review date: 2022-03-09 journal: Neural Plast DOI: 10.1155/2022/3895514 sha: f68e122d70346e3dca34d1a24e5979497e92b493 doc_id: 748598 cord_uid: h553qa44 BACKGROUND: Tai chi (TC) has received increased attention in stroke rehabilitation, yet services are greatly underutilized. An increasing number of systematic reviews and meta-analyses (SRs/MAs) have begun to investigate the effects of TC on balance function in stroke patients. The aim of this current study was to systematically collate, appraise, and synthesize the results of these SRs/MAs using a systematic overview. METHODS: Eight databases were searched: PubMed, Cochrane Library, Embase, Web of Science, CNKI, SinoMed, Chongqing VIP, and Wanfang Data. SRs/MAs of TC on balance function in stroke patients were included. Literature selection, data extraction, and assessment of the review quality were performed by two independent reviewers. Methodological quality was assessed by the Assessing the Methodological Quality of Systematic Reviews 2 (AMSTAR-2), reporting quality by Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA), and evidence quality by Grading of Recommendations, Assessment, Development, and Evaluation (GRADE). RESULTS: Nine SRs/MAs were included in this study. For methodological quality, what resulted in unsatisfactory methodological quality was noncompliance with critical item 4 (using a comprehensive literature search strategy) and critical item 7 (providing the list of excluded research literature). For reporting quality, what resulted in unsatisfactory reporting quality was inadequate reporting of Q1 (protocol and registration), Q8 (search), Q15 (risk of bias across studies), Q16 (additional analyses), Q22 (risk of bias across studies), Q23 (additional analysis), and Q27 (funding). For GRADE, the evidence quality was high in 0, moderate in 3, low in 11, and very low in 6. Risk of bias was the most common factor leading to downgrading of evidence, followed by inconsistency, imprecision, publication bias, and indirectness. CONCLUSIONS: TC may have beneficial effects on balance function in stroke survivors; however, this finding is limited by the generally low methodology, reporting quality, and evidence quality for published SRs/MAs. Stroke, a common and frequently occurring disease among elderly people, is considered to be the second most common cause of death and the third most common cause of disability worldwide [1] .Stroke is a major global health challenge with a global incidence of 76-119 per 100,000 populations each year [2] . Despite the advances in stroke management in recent decades, up to 50% of stroke patients still have residual effects [3] . Impaired balance is the most common poststroke sequela [4] and an important predictor of functional independence after stroke [5] . Stroke survivors with impaired balance are more likely to fall and are associated with a higher risk of fracture, depression, anxiety, and even death [6] . Therefore, effective interventions to improve balance function in stroke survivors are urgently needed [7] . Various rehabilitation methods have been applied to improve balance functional training in stroke survivors [8] , however with limited efficacy [9] . As a traditional martial art widely practiced in China for centuries, tai chi (TC) is well known for its slow and graceful rhythm transformation [10] . Recently, in December 2020, the United Nations Education Scientific and Cultural Organization (UNESCO) announced that TC has been included in the representative list of the intangible cultural heritage of humanity. TC was instilled by ancient Chinese philosophies and Chinese medicine, such as Confucian and Taoist cultures, and the ancient Chinese dialectical thinking can be reflected in the various movements of TC [11] . TC is characterized by fluidity and gentleness, calmness and consistency, and most importantly movement based on awareness [10] . As a mind-body exercise, TC involves the coordination of posture and breathing patterns, which are distinctly different from other aerobic exercises [12] . Performing TC exercises requires low space and equipment and almost zero cost, making it suitable for people of all ages in different conditions. There is ample evidence that tai chi is beneficial for dementia, depression, and cardiac and stroke rehabilitation [12] . For stroke rehabilitation, previous studies have shown that TC may be effective in improving balance, flexibility, and coordination and enhancing muscle strength, therefore helping to reduce the risk of falls [13] . Thus, TC has received increasing attention in stroke rehabilitation. SRs/MAs are considered the gold standard for assessing the efficacy of clinical interventions, but the evidence derived from them is currently facing challenges due to the various risks of bias generated during the formation of evidence by SRs/MAs [14] . High-quality SRs/MAs can provide reliable evidence, while low-quality SRs/MAs may instead mislead decision-makers [15] . Thus, the evidence of uneven quality leads to a gap between its use and practical implementation in real-world dynamics. Where multiple SRs/MAs are published for overlapping topics in a relatively short time frame, an overview is needed to systematically collate, evaluate, and synthesize the evidence from these SRs/MAs [16] . The ultimate goal of an overview is to provide a comprehensive evaluation of the current evidence on multiple identical topics, to provide more focused high-quality evidence to evidence users, and to identify key flaws in evidence use [14] . A literature search yielded a growing number of systematic reviews, and the meta-analyses (SRs/MAs) have examined the effects of TC on balance function of stroke patients. To systematically collate, appraise, and synthesize the results of these SRs/MAs, we carried out this study. This study was conducted according to the Cochrane Handbook [17] and some high-quality methodological articles [10, 11] . The protocol was prospectively registered on the PROSPERO (CRD42021240693). The following keywords were used: Tai Chi, stroke, balance, systematic review, and meta-analysis. Detailed search strategy in PubMed was given in Appendix file 1. Search results were imported into Endnote. The titles and abstracts were screened by two independent reviewers firstly; the potential full texts were then evaluated to determine the final eligibility. Any discrepancies were solved by introducing a third researcher for judgment. Data were extracted from each included SRs/MAs using a predefined form by two independent reviewers. Information of authors, published year, country, sample, quality assessment tool, interventions, comparisons, outcome measures, data synthesis methods, and main results were extracted. Any discrepancies were solved by introducing a third researcher for judgment. 2.4. Review Quality Assessment. The methodological quality, reporting quality, and evidence quality were assessed by two independent reviewers using the Assessing the Methodological Quality of Systematic Reviews 2 (AMSTAR-2) tool [18] and the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) [19] , respectively. Any discrepancies were solved by introducing a third researcher for judgment. For evidence quality, each meta-analysis for the outcome of interest was assessed by two independent reviewers using the Grading of Recommendations Assessment, Development and Evaluation (GRADE) system [20] . Any discrepancies were solved by introducing a third researcher for judgment. Detailed items for AMSTAR-2 are provided in Additional file 2 and for PRISMA in Additional file 3. 3.1. Results on Literature Selection. The electronic searches resulted in 135 articles. After removal of duplicates, 82 were excluded at the title and abstract stage. Fifteen articles were retrieved for examination on full text, with 9 reviews [21] [22] [23] [24] [25] [26] [27] [28] [29] finally included. Figure 1 outlines the process of identifying the qualified articles. All studies were published between 2016 and 2021, with 5 [21] [22] [23] [24] [25] written in English and 4 in Chinese [26] [27] [28] [29] . Authors of all included reviews were from China. The number of RCTs within each review 2 Neural Plasticity ranged from 7 to 21, and the participants in these RCTs ranged from 346 to 1297. TC or TC plus CRT was used in the treatment group, and CRT was used lonely in the control group. All reviews evaluated the risk of bias of the RCTs, 3 used the Jadad scale, and the remaining 6 used Cochrane risk of bias criteria. All reviews conducted a meta-analysis, and both of them reached positive results. Details are presented in Table 1 . The results of methodological quality are reported in Figure 2 . The main weakness affecting the methodological quality was the following: only 2 (22.2%) reviews registered a protocol before conducting the study; no (0%) reviews provided the list of excluded research literature; only 5 (55.6%) reviews provided the use of a specific search strategy; only 6 (66.7%) reviews carried out an investigation of publication bias and discussed its likely impact on the results; and 11.1% did not report the funding source and declare the conflicts of interest. Based on the above assessment, all reviews were judged to provide "low/critically low" methodological quality. The results of reporting quality are reported in Table 2 . In summary, only two studies reported all items of PRISMA, and the reaming studies were reported over 75%. The main weakness affecting the reporting quality was the following: only22.2% reviews reported the topic of the protocol and registration, 55.6% reported specific search strategy, 77.8% reported risk of bias across studies, and 66.7% reported additional analyses in the section of the methods; for the result section, 88.9% reported the risk of bias, and 66.7% reported additional analyses; for the funding section, it was reported in only 88.9% reviews. The results of evidence quality are reported in Table 3 .Twenty outcomes related to the effectiveness of TC on balance function of stroke patients were included. Among these outcome indicators, the evidence quality was high in 0 (0/20.0%), moderate in 3 (3/20.15%), low in 11 (11/20.55%), and very low in 6 (6/20.30%). Narrative synthesis was performed for all included outcomes. When the TC group was compared with controls, there were a significant effect for better BBC in 7 reviews; a significant effect for better FMA, balance, and walking in 2 reviews; and a significant effect for TUG, Holden scores, and gait ability in 1 review. However, there were no significant difference in SPBB and FMA between the TC and controls in 2 reviews and no significant difference in balance 3 Neural Plasticity and walking in 1 reviews. More details are presented in Table 3 . Stroke rehabilitation has always been a key health concern worldwide. Complementary and alternative therapies hold promise for improving the quality of life of stroke survivors [30] . TC is widely used in China for functional recovery exercises after stroke, and bibliometric evidence supports that TC may be a frontiers and promising field for stroke rehabilitation [31] . The core of the overview is a comprehensive evaluation of current SR/MA evidence on multiple iden-tical topics, providing a more focused evidence base for users of the evidence [32] . A literature search yielded a growing number of SRs/MAs that examined the effects of TC on balance function of stroke patients. However, the quality of these SRs/MAs has not been evaluated, and their results were not completely consistent. Hence, to systematically collate, appraise, and synthesize the results of these SRs/MAs, a systematic overview was conducted. First, this overview identified 9SRs/MAs which contained evidence relevant to the effects of TC on balance function of stroke patients. However, the methodological quality, reporting quality, and evidence quality of Neural Plasticity the included SRs/MAs were unsatisfactory. For methodological quality, the evaluation results of AMSTAR-2 showed that all included SRs/MAs had one or more critical items that were unmet; thus, these SRs/MAs were all judged to be of low or critically low methodological quality. What resulted in unsatisfactory methodological quality was noncompliance with critical item 4 (using a comprehensive literature search strategy) and critical item 7 (providing the list of excluded research literature). For reporting quality, the evaluation results of PRISMA showed that only 2 reviews had reported all items, and the reaming reviews had various degrees of missing report content. What resulted in unsatisfactory reporting quality was inadequate reporting of Q1 (protocol and registration), Q8 (search), Q15 (risk of bias across studies), Q16 (additional analyses), Q22 (risk of bias across studies), Q23 (additional analysis), and Q 27 (funding). For evidence quality, twenty outcomes were included; however, the evidence quality was high in 0 and moderate in 6, and the reaming were all judged to be of low or critically low evidence quality. Risk of bias was the most common factor leading to downgrading of evidence, followed by inconsistency, imprecision, publication bias, and indirectness. Second, definitive conclusions of the effects of TC on balance function of stroke patients cannot be drawn based on the published SRs/MAs. In this overview, all included SRs/ MAs concluded positive finding of the effects of TC on balance function in stroke patients. However, most authors of these SRs/ MAs did not want to draw firm conclusions due to the small size of the included RCTs or their low quality. Furthermore, as we all know, only SRs/MAs with high quality will be helpful to provide scientific evidence. However, the evaluation results of this overview found that the overall methodological quality, reporting quality, and evidence quality of the included SRs/ MAs were unsatisfactory, indicating that there were limitations in the reliability of the conclusions of these included SRs/MAs. Hence, caution should be warranted when recommending TC for the rehabilitation of stroke patients. Third, the authors of these included SRs/MAs used the term "tai chi" to represent all types of this exercise. Actually, TC was performed in a variety of forms, which were named after different Chinese families such as Chen, Yang, Wu, and Sun. Different types obviously can have inconsistent effects; thus, all types of TC will be represented by one term in the included SRs/MAs that could lead to a source of heterogeneity. The evaluation results of the evidence quality in this overview revealed that inconsistency was one of the important factors for evidence degradation, which further verified that it may be unreasonable to represent this exercise in the term of "tai chi" and that subgroup analysis for different types of TC in SRs/MAs is still necessary. In addition, the variety of TC protocols, including differences in training style, form, frequency, and duration, may have contributed to the source of heterogeneity in the included SRs/MAs. Recommendations regarding TC parameters need to be standardized. Rehabilitation. TC has been used in stroke rehabilitation worldwide for more than 10 years [33] . In recent years, researchers have increasingly focused on the role of TC in improving balance function in stroke survivors [21] [22] [23] [24] [25] [26] [27] [28] [29] . The improvement of balance function by TC is part of the comprehensive rehabilitation of stroke survivors and has an inherent relationship with functional rehabilitation. Balance function is closely associated with muscle strength, especially in the lower limbs. A recent 3D kinetic study reported that TC leads to similar mechanical behavior of biologically based tissues that can enhance lower limb strength, which in turn can help improve balance function and prevent falls [34] . Another electromyography study found similar results of increased lower limb muscle strength and improved neuromuscular responses after practicing TC for one year [35] . In addition, for stroke survivors with lower extremity paralysis, wheelchair TC can also help improve upper extremity mobility [36] . In terms of mechanistic studies, TC has been reported to act by modulating the neural function and biomechanics of balance; that is, TC improves neuromuscular responses and enhances balance function by controlling the stepping strategy of the swinging leg [37, 38] . In recent years, functional MRI and electroencephalography have been used Q1 Q2 Q3 Q4 Q5 Q6 Q7 Q8 Q9 Q10 Q11 Q12 Q13 Q14 Q15 Q16 Figure 2 : AMSTAR-2 assessments. to study central mechanisms. It was found that bilateral dorsolateral prefrontal cortex and hippocampus with enhanced functional connectivity and low frequency fluctuations in amplitude were observed in TC-trained patients [39] . In addition, meaningful functional and structural changes in the default mode network were detected, suggesting that tai chi helps improve patients' attention, which in turn affects balance and walking ability [40] . Greater amplitude of P3b event-related potential switching trials was observed from electroencephalography, suggesting that TC may promote peripheral nervous system recovery through central action [41] . In addition, TC also contributes to the recovery of other functions after stroke, such as cognitive function [42] . The mechanism lies in the positive impact on the patient's immune system by promoting DNA repair and lymphocyte renewal [43] . Research. The evaluation results identified common areas for improvement. First, study protocols should be registered in advance, which is essential to ensure the rigor of the SR/MA and to avoid any possible risk of bias. Second, specific and used search strategies for the exclusion of literature lists should be provided to ensure reproduc-ibility of studies, improve transparency, and avoid publication bias. Third, the scientific nature of the analytical methods should be considered when conducting data analysis. For example, the subgroup analysis may be performed to address study heterogeneity. In addition, because commercially funded research yields results that may be biased in favor of the funder, the source of funding and any conflicts of interest should be fully reported. In summary, the quality of currently published SR/MA is unsatisfactory, and the defects that lead to the low quality have been clearly shown in this overview; future researchers should carry out the SRs/MAs in strict accordance with the standards to ensure the provision of high-quality evidence. This study uses the method of overview to systematically collate, appraise, and synthesize the results of SRs/MAs regarding to the effects of TC on balance function in stroke patients. However, limitations need to be acknowledged. First, it can be expected that there will be some overlapping trials in the included SRs/MAs. However, these overlaps have not been systematically explored, which may lead to double counting of data in the reported meta-analysis. Second, SRs/MAs included in this overview used the term "tai chi" to Neural Plasticity the experimental design had a large bias in random and distributive findings or was blind; b the confidence interval overlap less, the heterogeneity test P was very small, and the I 2 was larger; c the confidence interval was not narrow enough, or the simple size is too small; d funnel graph asymmetry, or fewer studies were included, and there may have been greater publication bias. 8 Neural Plasticity represent all types of this exercise, and relevant information on the different types of TC was lacking, so this overview cannot draw recommendations for the use of specific types of TC. Additionally, in the context of the coronavirus disease 2019 (COVID-19) pandemic, the isolation may lead to less exercise and more health-related problems; hence, the effects of TC on balance function and stroke patients under COVID were not included in is a pity. TC may have beneficial effects on balance function in stroke survivors; however, this finding is limited by the generally low methodology, reporting quality, and evidence quality for published SRs/MAs. Tai chi SR: Systematic review MA: Meta-analysis AMSTAR-2: Assessing the Methodological Quality of Systematic Reviews 2 PRISMA: Preferred Reporting Items for Systematic Reviews and Meta-Analyses GRADE: Grading of Recommendations, Assessment, Development, and Evaluation RCT: Random control trails CRT: Conventional rehabilitation therapy BBS: Berg balance scale SPBB: Short physical performance battery FRT: Functional reach test FGI: Dynamic gait index TUG: Timed up-and-go test FMA: Fugl-Meyer assessment. All analyses were based on previously published studies; thus, no informed consent is required. Caixia Hu and Xiaohui Qin are the co-first authors. The authors declare that there is no conflict of interest. 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Richun Ye provided guidance on the methodology. All authors read and approved the final manuscript.